MASI-2013.12.28-10K
UNITED STATES
SECURITIES AND EXCHANGE COMMISSION
WASHINGTON, D.C. 20549
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FORM 10-K
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(Mark One)
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ý | ANNUAL REPORT PURSUANT TO SECTION 13 OR 15(D) OF THE SECURITIES EXCHANGE ACT OF 1934 |
For the fiscal year ended December 28, 2013
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¨ | TRANSITION REPORT PURSUANT TO SECTION 13 OR 15(D) OF THE SECURITIES EXCHANGE ACT OF 1934 |
Commission File Number 001-33642
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Masimo Corporation |
(Exact name of registrant as specified in its charter) |
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Delaware | | 33-0368882 |
(State or Other Jurisdiction of Incorporation or Organization) | | (I.R.S. Employer Identification Number) |
40 Parker Irvine, California | | 92618 |
(Address of Principal Executive Offices) | | (Zip Code) |
(949) 297-7000
(Registrant’s telephone number, including area code)
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Securities registered pursuant to Section 12(b) of the Act:
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Title of each class: | | Name of each exchange on which registered: |
Common Stock, par value $0.001 | | The NASDAQ Global Select Market |
Securities registered pursuant to Section 12(g) of the Act: None
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Indicate by check mark if the registrant is a well-known seasoned issuer, as defined in Rule 405 of the Securities Act. Yes ý No ¨
Indicate by check mark if the registrant is not required to file reports pursuant to Section 13 or Section 15(d) of the Act. Yes ¨ No ý
Indicate by check mark whether the registrant (1) has filed all reports required to be filed by Section 13 or 15(d) of the Securities Exchange Act of 1934 during the preceding 12 months (or for such shorter period that the registrant was required to file such reports), and (2) has been subject to such filing requirements for the past 90 days. Yes ý No ¨
Indicate by check mark whether the registrant has submitted electronically and posted on its corporate Web site, if any, every Interactive Data File required to be submitted and posted pursuant to Rule 405 of Regulation S-T during the preceding 12 months (or for such shorter period that the registrant was required to submit and post such files). Yes ý No ¨
Indicate by check mark if disclosure of delinquent filers pursuant to Item 405 of Regulation S-K is not contained herein, and will not be contained, to the best of the registrant’s knowledge, in definitive proxy or information statements incorporated by reference in Part III of this Form 10-K or any amendment to this Form 10-K. ý
Indicate by check mark whether the registrant is a large accelerated filer, an accelerated filer, a non-accelerated filer or a smaller reporting company. See the definitions of “large accelerated filer,” “accelerated filer” and “smaller reporting company” in Rule 12b-2 of the Exchange Act (Check one).
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Large accelerated filer | | ý | | Accelerated filer | | ¨ |
Non-accelerated filer | | ¨ (Do not check if a smaller reporting company) | | Smaller reporting company | | ¨ |
Indicate by check mark whether the registrant is a shell company (as defined in Rule 12b-2 of the Exchange Act). Yes ¨ No ý
The aggregate market value of the voting stock held by non-affiliates of the registrant, based upon the closing sale price of the common stock on June 29, 2013, the last business day of the registrant’s most recently completed second fiscal quarter, as reported on the NASDAQ Global Select Market, was approximately $789.9 million. Shares of stock held by officers, directors and 5 percent or more stockholders have been excluded in that such persons may be deemed to be affiliates. This determination of affiliate status is not necessarily a conclusive determination for other purposes.
At January 31, 2014, the registrant had 56,705,362 shares of common stock outstanding.
DOCUMENTS INCORPORATED BY REFERENCE
Items 10, 11, 12, 13 and 14 of Part III of this Form 10-K incorporate information by reference from the registrant’s proxy statement for the registrant’s 2014 Annual Meeting of Stockholders to be filed with the Securities and Exchange Commission within 120 days after the close of the fiscal year covered by this annual report on Form 10-K.
MASIMO CORPORATION
FISCAL YEAR 2013 FORM 10-K ANNUAL REPORT
TABLE OF CONTENTS
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FORWARD-LOOKING STATEMENTS
This Annual Report on Form 10-K, or this Form 10-K, contains “forward-looking statements” that involve risks and uncertainties, as well as assumptions that, if they never materialize or prove incorrect, could cause our results to differ materially and adversely from those expressed or implied by such forward-looking statements. The forward-looking statements are contained principally in Item 1—“Business,” Item 1A—“Risk Factors” and Item 7—“Management’s Discussion and Analysis of Financial Condition and Results of Operations” but appear throughout this Form 10-K. Examples of forward-looking statements include, but are not limited to, any projection or expectation of earnings, revenue or other financial items; the plans, strategies and objectives of management for future operations; factors that may affect our operating results, including accounting and tax estimates; our success in pending litigation; new products or services; the demand for our products; our ability to consummate acquisitions and successfully integrate them into our operations; future capital expenditures; effects of current or future economic conditions or performance; industry trends and other matters that do not relate strictly to historical facts or statements of assumptions underlying any of the foregoing. These statements are often identified by the use of words such as “anticipate,” “believe,” “continue,” “could,” “estimate,” “expect,” “intend,” “may,” “ongoing,” “opportunity,” “plan,” “potential,” “predicts,” “seek,” “should,” “will,” or “would,” and similar expressions and variations or negatives of these words. These forward-looking statements are based on the expectations, estimates, projections, beliefs and assumptions of our management based on information currently available to management, all of which is subject to change. Such forward-looking statements are subject to risks, uncertainties and other factors that are difficult to predict and could cause our actual results and the timing of certain events to differ materially and adversely from future results expressed or implied by such forward-looking statements. Factors that could cause or contribute to such differences include, but are not limited to, those identified below, and those discussed under Item 1A—“Risk Factors” in this Form 10-K. Furthermore, such forward-looking statements speak only as of the date of this Form 10-K. We undertake no obligation to update or revise publicly any forward-looking statements to reflect events or circumstances after the date of such statements for any reason, except as otherwise required by law.
PART I
Overview
We are a global medical technology company that develops, manufactures, and markets a variety of noninvasive monitoring technologies. Our mission is to improve patient outcomes and reduce the cost of care by taking noninvasive monitoring to new sites and applications. We were incorporated in California in May 1989 and reincorporated in Delaware in May 1996.
Our core business is measure through motion and low perfusion arterial blood oxygen saturation and pulse rate monitoring, known as Masimo SET® pulse oximetry, but our product offerings have expanded significantly over the years to also include noninvasive blood constituent, brain and breath monitoring, including rainbow® Pulse CO-Oximetry, brain function electroencephalogram (EEG) monitoring, respiration rate, capnography and anesthetic agent monitoring. In addition, we have developed the Root™ patient monitoring and connectivity platform and Patient SafetyNet™ remote patient surveillance monitoring system. We provide our products directly and through distributors and OEM partners to hospitals, emergency medical service (EMS) providers, physician offices, veterinarians, long term care facilities and consumers.
Pulse oximetry enables the noninvasive measurement of the oxygen saturation level of arterial blood, which delivers oxygen to the body’s tissues. Pulse oximetry also enables the measurement of pulse rate, which when measured by ECG is called heart rate. Pulse oximetry is one of the most common measurements taken in and out of hospitals around the world. Most pulse oximeter technologies work well when patients are well perfused and are not moving. However, when either or both of these conditions occur, conventional pulse oximeters frequently do not provide any measurements, or provide inaccurate measurements. We invented Masimo Signal Extraction Technology® (Masimo SET®) which for the first time, allowed pulse oximeters to provide accurate measurements even during patient motion and low perfusion conditions.
The performance of Masimo SET® pulse oximetry is proven by more than 100 independent and objective studies and thousands of clinical evaluations. We believe that Masimo SET® is trusted by clinicians to safely monitor approximately 100 million patients each year and is used hospital-wide by eight of the top 10 hospitals on the U.S. News & World Report Best Hospitals Honor Roll (2013-2014). Compared to other pulse oximeters during patient motion and low perfusion, Masimo SET® provides measurements when other pulse oximeters cannot, dramatically reduces false alarms (specificity), and accurately detects true alarms (sensitivity) that can indicate a deteriorating patient condition. Masimo SET® pulse oximetry has also been shown to improve patient outcomes by helping clinicians reduce retinopathy of prematurity (ROP) in neonates, screen newborns for critical congenital heart disease (CCHD), reduce ventilator weaning time and arterial blood gas measurements in the intensive
care unit (ICU), and save lives and costs while reducing rapid response activations and intensive care unit transfers on the general floor.
Our pulse oximetry technology is contained on a circuit board which is placed inside a standalone pulse oximetry monitor, placed inside original equipment manufacturer (OEM) multiparameter monitors, or included as part of an external “Board-in-Cable” solution which is plugged into a port on an OEM or other device. All of these solutions use our proprietary single-patient use and reusable sensors and cables. We sell our products to end-users through our direct sales force and certain distributors, as well as our OEM partners, for incorporation into their products. In 2013, we also began selling our pulse oximetry products in the consumer market. As of December 28, 2013, we estimate that the worldwide installed base of our pulse oximeters and OEM monitors that incorporate Masimo SET® and rainbow® SET was more than 1.2 million units, excluding handheld devices . Our installed base is the primary driver for the recurring sales of our pulse oximeter and Pulse CO-Oximeter sensors, most notably, single-patient adhesive sensors. Based on industry reports, we estimate that the worldwide pulse oximetry market is nearly $1.5 billion in 2014, the largest component being sensors.
After introducing Masimo SET®, we have continued to innovate by introducing breakthrough noninvasive measurements that go beyond arterial blood oxygen saturation and pulse rate, and which create new market opportunities in both the hospital and non-hospital care settings. In 2005, we launched rainbow® Pulse CO-Oximetry, utilizing both Masimo SET® and licensed rainbow® technology. We believe rainbow® Pulse CO-Oximetry includes the first devices cleared by the U.S. Food and Drug Administration, or FDA, to noninvasively and continuously monitor multiple blood based measurements using multiple wavelengths of light and which previously were only possible through intermittent invasive procedures. In 2005, we launched noninvasive carboxyhemoglobin, or SpCO®, allowing measurement of carbon monoxide levels in the blood. Carbon monoxide is the most common cause of poisoning in the world. When used with other clinical variables, SpCO® may help clinicians and emergency responders detect carbon monoxide poisoning and help determine treatment and additional test options. In 2006, we launched noninvasive methemoglobin, or SpMet®, allowing for the measurement of methemoglobin levels in the blood. Methemoglobin in the blood leads to a dangerous condition known as methemoglobinemia, which occurs as a reaction to some common drugs used in hospitals and outpatient procedures. When used with other clinical variables, SpMet® may help clinicians detect methemoglobinemia and help determine treatment and additional test options. In 2007, we launched a measurement available in both Masimo SET® and rainbow® SET® sensors called Pleth Variability Index, or PVI®. Fluid administration is critical to optimizing fluid status in surgery and critical care, but traditional invasive methods to guide fluid administration often fail to help clinicians assess fluid responsiveness and newer methods are complicated and costly and considered appropriate only for the highest-risk patients. When used with other clinical variables, PVI® may help clinicians assess fluid responsiveness and help determine treatment options. In March 2008, we launched noninvasive total hemoglobin (SpHb®). Hemoglobin is the oxygen-carrying component of red blood cells (RBC), and along with oxygen saturation, determines the oxygen content of blood. Hemoglobin measurement is one of the most frequent invasive laboratory measurements in the world, and is often measured as part of a complete blood count (CBC), which measures multiple other blood components. A low hemoglobin status is called anemia, which is generally caused by bleeding or the inability of the body to produce red blood cells. SpHb® is available as a continuous monitor or a spot check measurement. Continuous SpHb® monitoring provides real-time visibility into the changes, or lack of changes in hemoglobin, which can otherwise only be measured through intermittent, invasive blood testing. SpHb® has been shown to help clinicians reduce the number of RBC transfusions and in multiple cases, demonstrated its lifesaving ability to detect internal bleeding. Spot check SpHb® measurement, when used with other clinical variables, may help clinicians assess whether a patient’s hemoglobin is lower or higher than they may otherwise assess without any hemoglobin measurement, which in turn, may help determine additional test options.
In June 2010, we introduced a sound-based monitoring technology called rainbow Acoustic Monitoring™ (RAM™), which enables continuous and noninvasive monitoring of respiration rate (RRa®). Respiration rate is the number of breaths per minute. A low respiration rate is indicative of respiratory depression and high respiration rate is indicative of patient distress. Traditional methods used to measure respiration rate are often considered inaccurate, such as impedance pneumography, or are not tolerated well by some patients, such as capnography. When used with other clinical variables, RRa® may help clinicians assess respiratory status and help determine treatment options. RAM™ technology is available from the same circuit board as Masimo SET® and rainbow® Pulse CO-Oximetry measurements, which together we refer to as the rainbow® SET technology platform.
In July 2010, we acquired and began selling our SedLine® brain function monitor, which measures the brain’s electrical activity and provides information about a patient’s response to anesthesia.
In 2011, we received the CE Mark for respiration rate from the plethysmograph waveform (RRp™). Although not currently available for sale in the U.S., RRp™ enables monitoring of breathing status from a standard Masimo SET® pulse oximetry or rainbow® Pulse CO-Oximeter sensor®. The RRp™ measurement is determined by the variations in the plethysmograph waveform due to respiration, although the measurement is not possible in all patients or many conditions and may not immediately indicate changes in respiration rate. For patients requiring accurate and sensitive respiration rate monitoring, we believe that our acoustic respiration rate (RRa®) measurement has been shown to better detect pauses in breathing than respiration rate
measurements from Oridion capnography. The RRa® measurement also provides an important visual indication of breathing through the displayed acoustic waveform.
We also offer a patient surveillance or remote monitoring and clinician notification solution called Patient SafetyNet™, which includes Masimo SET® or rainbow® SET platform measurements at the patient’s bedside along with a central assignment station and wired or wireless server. Patient SafetyNet™ wirelessly notifies clinicians caring for multiple patients in different rooms when one of their patients has an alarm, allowing them to become aware of changing conditions and intervene sooner, at times with life-saving support. Masimo SET®, along with Patient SafetyNet™, is proven to help clinicians avoid deaths while preventing ICU transfers and rapid response activations on the general floor. In October 2010, we debuted Halo Index™, which allows continuous global trending and assessment of multiple physiological measurements of a patient with a single number displayed on the Patient SafetyNet™ screen. Halo Index™ is CE marked, but not currently available for sale in the U.S.
In October 2012, we received both FDA clearance for uSpO2™, a universal “Board-in-Cable” pulse oximetry solution, enabling easier and faster integration for OEM partners due to the ability to integrate Masimo SET® through software only. In October 2012, we also received CE mark for SpfO2™, a new parameter not currently available for sale in the U.S., which for the first time, allows the measurement of fractional arterial oxygen saturation noninvasively. Previously, pulse oximeters could only measure and display functional oxygen saturation (SpO2), so when patients had elevated carboxyhemoglobin and/or elevated methemoglobin, the displayed functional oxygen saturation overestimated the actual oxygen saturation value. SpfO2™ allows more precise arterial oxygenation assessment in patients with elevated dyshemoglobins, common throughout the hospital and pre-hospital setting compared to functional oxygen saturation.
In March 2012, we acquired Spire Semiconductor, LLC, a maker of advanced light emitting diode and other advanced component-level technologies. Masimo Semiconductor, Inc. (Masimo Semiconductor), our wholly owned subsidiary, operates this business and specializes in wafer epitaxy, foundry services, and device fabrication for biomedical, telecommunications, consumer products and other markets. This acquisition provided us with an advanced ability to develop custom components, accelerate development cycles, and optimize future product costs.
In July 2012, we acquired PHASEIN AB, or Phasein™, a developer and manufacturer of ultra-compact mainstream and sidestream capnography and gas monitoring technologies. The acquisition of the Phasein™ technologies complements our breakthrough innovations for patient monitoring with a portfolio of products ranging from OEM solutions for external “plug-in-and-measure” capnography and gas analyzers and integrated modules to handheld devices. With multiple measurements delivered through either mainstream or sidestream options, our customers can benefit from CO2, N2O, O2, and anesthetic agent monitoring in many hospital and pre-hospital environments, such as the operating room (OR), procedural sedation, ICU and EMS scenarios.
In December 2012, we released iSpO2®, a pulse oximeter cable and sensor with technology for use with an iPhone, iPad or iPod touch. iSpO2® uses Masimo SET® technology for Measure-Through Motion and Low Perfusion performance. The first version of iSpO2® allows consumers to use their iPhone, iPad or iPod touch to check their own arterial blood oxygen saturation (SpO2), pulse rate, and perfusion index measurements. In the U.S., iSpO2® is available online for sports and aviation use only, and is not intended for medical use. In October 2013, iSpO2® was released in Japan for iPhone, iPad, and iPod touch. In December 2013, we received the CE mark on iSpO2® for the Android operating system, enabling functionality on select Android based phones outside of the U.S. The iSpO2® Rx, the professional version for medical use, also received the CE mark in December 2013. The iSpO2® Rx product is not yet available in the U.S. but is available outside of the U.S.
In June 2013, we announced the CE Mark, and limited international market release of our Root™ platform. Root™ is a powerful new patient monitoring and connectivity platform that integrates our breakthrough rainbow® and SET® measurements with multiple additional parameters being made available through Masimo Open Connect™ (MOC-9™) in an integrated, clinician-centric platform. The first two MOC-9™ technologies for Root™ are SedLine® brain function monitoring and Phasein capnography. Iris™ connectivity in Root™ enables 3rd party devices such as intravenous pumps and ventilators to connect through Root™ enabling display, notification, and documentation to the electronic medical record through Masimo Patient SafetyNet™. In combination with a Radical-7® handheld device using rainbow® Pulse CO-Oximetry and rainbow® Acoustic Monitoring™, Root™ will help clinicians instantly interpret and quickly change display of multiple measurements, helping to simplify patient care workflows, empower caregivers to help make quicker patient assessments, earlier interventions and better clinical decisions throughout the continuum of care. Phasein capnography and some other Root™ features such as wireless radio and Iris™ connectivity are not available for sale in the U.S. as of December 28, 2013.
In July 2013, we released EMMA™ Capnograph with waveform display, offering clinicians greater assessment of end-tidal carbon dioxide (EtCO2) and respiration rate, as well as assisting in recognition of return to spontaneous circulation, for a variety of clinical settings, including emergency medicine and transport, ORs, ICUs, patient rooms, and clinics. EMMA™ fits in the palm of the hand, and we believe is the smallest and most portable capnograph in the world.
We offer Masimo SET® and rainbow® SET through our OEMs for integration in their products and through our own end-user products, including the Root™, Radical-7®, Rad-87®, Rad-57®, Pronto-7®, Pronto®, Rad-8®, Rad-5® and Rad-5v™. Our strategy is to utilize the accuracy and broad clinical benefits of our technologies to:
1) be the leading choice for pulse oximetry in traditionally monitored areas, in and out of the hospital;
2) expand the use of pulse oximetry beyond the critical care settings, including to the general floor of the hospital;
3) create demand for the use of breakthrough rainbow® measurements by our hospital customers;
4) offer rainbow® measurements to new markets such as emergency medical services, or EMS, and the physician office;
5) penetrate existing noninvasive specialty monitoring markets such as capnography, gas, brain function, and other modalities with technologies that offer clinical and financial advantages; and
6) leverage the revolutionary Root™ platform to provide open access to third-party developers for additional measurements, as well as connectivity to electronic health record systems and for third-party devices.
Our solutions and related products are based upon our proprietary Masimo SET® and rainbow® algorithms. This software-based technology is incorporated into a variety of product platforms depending on our customers’ specifications. Our technology is supported by a substantial intellectual property portfolio that we have built through internal development and, to a lesser extent, acquisitions and license agreements. As of December 28, 2013, we had 674 issued and pending patents worldwide. We have exclusively licensed from Cercacor Laboratories, Inc. (Cercacor), the right to OEM selected rainbow® technology and to incorporate selected rainbow® technology into our products intended to be used by professional caregivers, including, but not limited to, hospital caregivers and alternate care facility caregivers.
Pulse Oximetry: Technical and Clinical
Pulse oximeters use sensors attached to an extremity, typically the fingertip. These sensors contain two light emitting diodes that transmit red and infrared light from one side of the extremity through the tissue to a photodetector on the other side of the extremity. The photodetector in the sensor measures the amount of red and infrared light absorbed by the tissue. A microprocessor then analyzes the changes in light-absorption to provide a continuous, real-time measurement of the amount of oxygen in the patient’s arterial blood. Pulse oximeters typically give audio and visual alerts, or alarms, when the patient’s arterial blood oxygen saturation level or pulse rate falls outside of a user-designated range. As a result, clinicians have the opportunity to immediately initiate treatment to prevent the serious clinical consequences of hypoxemia, or low oxygen saturation levels, and hyperoxemia, or high oxygen levels.
Pulse oximetry has gained widespread clinical acceptance as a standard patient vital sign measurement because it can give clinicians an early warning of low arterial blood oxygen saturation levels, known as hypoxemia. Early detection is critical because hypoxemia can lead to a lack of oxygen in the body’s tissues, which can result in organ damage or death in a matter of minutes. Our pulse oximeters are used primarily in critical care settings, including surgery, recovery rooms, ICUs, emergency departments and alternative care settings, such as long-term care facilities and for home monitoring of patients with chronic conditions.
Clinicians also use pulse oximeters to estimate whether there is too much oxygen in the blood, a condition called hyperoxemia. In premature babies, hyperoxemia can lead to permanent eye damage or blindness. By ensuring that oxygen saturation levels in babies remain under 96%, clinicians believe they can lower the incidence of hyperoxemia. Hyperoxemia can also cause problems for adults, such as increased risk of postoperative infection and tissue damage. In adults, to prevent hyperoxemia, clinicians use pulse oximetry monitoring to guide the administration of oxygen to maintain normal saturation levels.
Limitations of Conventional Pulse Oximetry
Conventional pulse oximetry is subject to technological limitations that reduce its effectiveness and the quality of patient care. In particular, when using conventional pulse oximetry, oxygen saturation measurements can be distorted by motion artifact, or patient movement, and low perfusion, or low arterial blood flow at the measurement site. Motion artifact can cause conventional pulse oximeters to inaccurately measure the arterial blood oxygen saturation level, due mainly to the movement and recognition of venous blood. Venous blood, which is partially depleted of oxygen, may cause falsely low oxygen saturation readings. Low perfusion can also cause conventional pulse oximeters to report inaccurate measurement, or in some cases, no measurement at all. Conventional pulse oximeters cannot distinguish oxygenated hemoglobin, or the component of red blood cells that carries oxygen, from dyshemoglobins, which are hemoglobin bound with carboxyhemoglobin or methemoglobin and are therefore incapable of carrying oxygen. In addition, conventional pulse oximetry readings can also be impacted by bright light and electrical interference from the presence of electrical surgical equipment. Independent, published research shows that conventional pulse oximeters are subject to operating limitations, including:
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• | inaccurate measurements, which can lead to the non-detection of a hypoxemic event or improper and unnecessary treatment; |
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• | false alarms, which occur when the pulse oximeter falsely indicates a drop in the arterial blood oxygen saturation level, and which can lead to improper therapy, the inefficient use of clinical resources as clinicians respond to false alarms, or the non-detection of a true alarm if clinicians become desensitized to frequently occurring false alarms; and |
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• | signal drop-outs, which is the loss of a real-time signal as the monitor attempts to find or distinguish the pulse, and which can lead to the non-detection of hypoxemic events. |
Independent research shows that over 70% of the alarms outside the operating room are false when using conventional pulse oximetry. In addition, in the operating room, conventional pulse oximeters can fail to give measurements due to weak physiological signals, or low perfusion, in up to 9% of all cases studied. Manufacturers of conventional pulse oximeters have attempted to address some of these limitations with varying degrees of success. Some competing devices have attempted to minimize the observed effects of motion artifact by repeating the last measurement before motion artifact is detected, until a new, clean signal is detected and a new measurement can be displayed, known as freezing values. Other competing devices increase the averaging time during motion, known as long-averaging, in an attempt to reduce the observed effect of motion on their measurements. Still other competing devices extend the audible alarm notification delay, which reduces the awareness of inaccurate measurements. These competing solutions, commonly referred to as "motion tolerant" or "alarm management" techniques, mask the limitations of conventional pulse oximetry. Several published studies have demonstrated that these also contribute to increased occurrences of undetected true alarms, or events where hypoxemia occurs, but is not detected by the pulse oximeter.
Conventional pulse oximetry technology also has several practical limitations. Because the technology cannot consistently measure oxygen saturation levels of arterial blood in the presence of motion artifact or low perfusion, conventional pulse oximetry is limited in non-critical care settings of the hospital, such as general care areas, where the hospital staff-to-patient ratio is significantly lower and the staff has lower tolerance for false alarms. In order for pulse oximetry to become a standard patient monitor in these settings, these limitations must be overcome.
In addition, two-wavelength pulse oximeters cannot distinguish oxygenated hemoglobin from dyshemoglobin, including the most prevalent forms of carboxyhemoglobin and methemoglobin. As a result of these dyshemoglobins, pulse oximeters will report falsely high oxygen levels when they are present in the blood.
Masimo SET® Pulse Oximetry and rainbow® Pulse Co-Oximetry
Masimo SET® was designed to overcome the primary limitations of conventional pulse oximetry, which involve maintaining accuracy in the presence of motion artifact and weak signal-to-nose situations.
Masimo SET® technologies and products offer multiple clinical and financial benefits, including:
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• | Fewer false alarms and better true alarm detection. |
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• | Increased detection of critical congenital heart disease through newborn screening. |
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• | Reduced retinopathy of prematurity in very low birth weight neonates. |
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• | Fewer arterial blood gas measurements, faster oxygen weaning time, and lower length of stay in the ICU. |
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• | Lower sensor utilization. |
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• | Earlier detection of patient distress on the general floor, enabling reduced ICU transfers and rapid response activations. |
The rainbow® SET platform, which includes rainbow® SET Pulse Co-Oximetry and rainbow® Acoustic Monitoring also allows for monitoring of arterial oxygen saturation even under the presence of carboxyhemoglobin and methemoglobin, known as fractional arterial oxygen saturation (SpfO2™). In addition, rainbow® has enabled hemoglobin (SpHb®), carboxyhemoglobin (SpCO®), and methemoglobin (SpMet®) monitoring, which is not possible with pulse oximetry alone. The rainbow® SET platform allows for measurement of Pleth Variability Index (PVI®) and Acoustic Respiration Rate (RRa™) with the clinical benefits noted below.
Market Opportunities for Masimo SET® Pulse Oximetry
Market Share Capture in Existing Areas
The pulse oximetry market consists of pulse oximeter devices, boards, and consumables, including single-patient use and reusable sensors, cables and other pulse oximetry accessories. These products are primarily sold to the hospital and alternative care markets, except for boards, which are sold directly to OEM manufacturers to be incorporated into their own
multiparameter products. For 2014, iData estimates the U.S. pulse oximetry market at $869 million and the European market at over $160 million. Based on available estimates for the U.S. and international markets, we estimate that the worldwide pulse oximetry market is nearly $1.5 billion in 2014.
According to a 2014 iData research report, the pulse oximetry market is expected to continue to grow, primarily due to an aging baby boomer population which will contribute to the increasing use of healthcare services. In addition, the market for peripheral pulse oximetry is expected to continue to grow with an industry-wide push for expanded use of low-acuity monitoring in both hospitals and alternate care facilities.
We believe that Masimo SET® pulse oximetry is being chosen by hospitals because it offers fewer false alarms and better true alarm detection, the ability to both obtain measurements when other pulse oximeters cannot and to improve the process of care, and lower sensor utilization. In addition, converting to Masimo SET® typically results in a net cost savings when sensor price, sensor utilization, and process of care benefits are considered.
General Floor Monitoring Expansion
By applying the proven benefits of Masimo SET® from critical care settings to non-critical care settings, as well as settings outside of the hospital, we believe there are opportunities to expand the market for pulse oximetry. The 8th annual HealthGrades Patient Safety in American Hospitals Study looked at patient safety indicators for 40 million U.S. hospitalized patients and concluded that many deaths and permanent disabilities could be avoided if hospitals adopted safe practices and implemented systems that facilitate patient safety. The cost associated with post-operative respiratory failure is estimated to be over $2 billion in the U.S.
A landmark study published in January 2010 by the Journal of Anesthesiology from Dartmouth-Hitchcock Medical Center demonstrated that clinicians using Masimo SET® and Patient SafetyNet™ identified patient distress earlier, which decreased rapid response team activations by 65% and ICU transfers by 48%, and reduced ICU days by 135 days annually. A follow up report in the Anesthesia Patient Safety Foundation journal by Dartmouth-Hitchcock in 2012 reported that since December 2007, no patients have died or had serious brain injuries as a result of respiratory depression from opioids. In addition, Dartmouth-Hitchcock reported that expanding the use of Masimo SET® and Patient SafetyNet™ to all general and thoracic-vascular post-surgical units produced similar results to those seen in the original orthopedic unit. They also reported savings of $58,459 per patient, or $1.5 million annually, for patients who were not transferred to the ICU from the original orthopedic unit.
In August 2012, the Joint Commission issued a sentinel event alert, urging all hospitals to introduce measures to improve safety for patients receiving opioids, including systematic protocols to assess pain and appropriate opioid dosing, as well as continuous monitoring of oxygenation and ventilation. We believe that the increasing recognition by scientific and safety and quality organizations of the need for continuous monitoring will significantly increase the adoption of Masimo SET® and Patient SafetyNet™ on the general floor, also referred to as the medical-surgical floor.
The American Hospital Association estimated that there were more than 900,000 staffed beds in all U.S.-registered hospitals in 2012. In 2000, according to a study published in the Journal of Critical Care Medicine, 87% of all hospital beds in the U.S. were located in a non-critical care setting, which suggests a non-critical care market potential of 820,000 beds in the U.S. alone. While some of these non-critical care beds have some form of monitoring capabilities today, we believe that 15% or more of the 820,000 beds in the U.S. alone could become continuous monitoring beds. We believe that the ability of Masimo SET® to dramatically minimize false alarms due to patient motion while maximizing the sensitivity of pulse oximeters to report true alarms will allow hospitals to reliably and continuously monitor their patients in the general floors.
Alternate Care
According to a 2014 iData market research report, the fastest growing portion of the U.S. pulse oximetry equipment market is in the alternate care market. We believe that Masimo SET® technology offers significant advantages in some segments of this market, including home care, post-acute care hospitals, and sleep diagnostics. The proven ability of Masimo SET® to dramatically reduce false alarms and increase true alarm detection enables clinicians to make more reliable diagnoses of those who have pulmonary or cardiac abnormalities, need oxygen therapy, or need Continuous Positive Airway Pressure (CPAP) therapy. We plan to leverage this opportunity and expand our presence in this market.
Consumer
Some people, typically those with life-threatening disorders, receive personal pulse oximeters for use in their home through a prescription provided by their physician and paid for by their insurance provider. Consumers also purchase pulse oximeters on their own without a prescription when they want to monitor their own or someone else’s oxygen saturation and pulse rate on a frequent or even occasional basis. The most common people who choose to “self monitor” are those with lung or heart problems, such as chronic obstructive pulmonary disease (COPD), asthma, or heart failure. In addition, an increasing number of people use pulse oximeters for health, wellness, and fitness assessment. Airplane pilots and high altitude hikers use them to
assess their oxygen saturation for safety, as the concentration of oxygen is reduced at high altitudes. Consumers have typically purchased fingertip pulse oximeters, which are a combined device and sensor powered by batteries. Consumer pulse oximeters are sold through online and retail outlets. While pulse oximeters are used by consumers for a variety of reasons, the FDA restricts their intended use for sports and aviation.
Consumer pulse oximeters, available for $25 to $150, do not offer the same performance as Masimo SET® pulse oximeters, which means that signal drop out and inaccurate measurements occur much more frequently. It is also believed that consumers use pulse oximeter measurement values without any formal training in pulse oximetry or medical conditions to make decisions about whether to seek medical care or even to monitor response to self-administered therapy such as oxygen to treat COPD, inhalants to treat asthma, or diuretics to treat heart failure. We believe that the use of non-Masimo SET® pulse oximeters may result in the inability to assess oxygen saturation or pulse rate, incorrect decisions about whether to seek medical care, and inaccurate assessment about whether a therapy is working or not working. Each of these situations may have negative clinical and financial implications for the institutions that choose to use these consumer pulse oximeters in place of hospital-grade pulse oximeters. Despite the risks of using consumable pulse oximeters in place of hospital-grade pulse oximeters, we believe there is a growing market for more accurate pulse oximetry for use by consumers. We also believe that consumers will increasingly use their smart phones and tablets to obtain, store, and report physiologic measurements. As a result, Masimo entered the consumer pulse oximeter market with iSpO2®, which allows consumers to use their iPhone, iPad or iPod touch to check their own arterial blood oxygen saturation (SpO2), pulse rate, and perfusion index measurements with the same performance as the Masimo SET® technology for medical use. We believe that the consumer pulse oximeter market will continue to grow and, as a result, we intend to continue to introduce additional solutions to address the consumer need for accurate pulse oximeters.
Market Opportunities for Masimo rainbow® SET®
Masimo rainbow® SET® creates additional demand for our pulse oximetry circuit boards, monitors and sensors because customers desire the rainbow® SET noninvasive measurement capabilities that are not available with any other pulse oximeter technology. To date, over twenty-five OEM companies have released rainbow® SET®-equipped products or announced rainbow® integration plans. Companies with released rainbow® SET® products include Dräger, Physio-Control, ZOLL, GS Corpuls, Welch Allyn, Fukuda Denshi, Edwards, Schiller, and Saadat. Companies that have announced rainbow® SET integration, but have not yet released products, include Atom Medical, CareFusion, Hamilton Medical, GE Medical Systems and Philips. In addition, more than twenty-five additional companies are actively working on rainbow® integration but have not yet publicly announced their integration plans.
There are significant opportunities with rainbow® SET® to create new hospital and alternate care markets by enabling the monitoring of additional noninvasive measurements beyond arterial blood oxygen saturation and pulse rate.
Hemoglobin (SpHb®)
Hemoglobin is the part of a red blood cell that carries oxygen to the body, and therefore, a measurement of the hemoglobin parameter is an indicator of the oxygen carrying capacity of the blood. A low hemoglobin status is called anemia, which is generally caused by bleeding or the inability of the body to produce red blood cells. As a chronic disorder, anemia can be treated by iron supplements, diet changes or drugs that increase the production of red blood cells. As an acute disorder, anemia due to bleeding requires stoppage of the bleeding before organ dysfunction or death occurs, or a blood transfusion to sustain organ function and life. Because of its clinical importance, hemoglobin is one of the most commonly ordered lab diagnostic tests in the hospital and physician office. Each year in the U.S., over 400 million invasive hemoglobin tests are performed.
In May 2008, we received clearance from the FDA for Radical-7®, our noninvasive and continuous hemoglobin monitoring technology, and in September 2008, we began shipping, in a limited market release, these monitors and sensors. In March 2009, we fully launched our continuous noninvasive hemoglobin device. In October 2011, In Vivo Adjustment™ received CE marking in the European Union but is not currently available for sale in the U.S. Radical-7® and In Vivo Adjustment™ enable clinicians, for the first time, to adjust the noninvasive measurement of SpHb® to the specific patient and laboratory reference device they use for invasive blood testing. In Vivo Adjustment™ is considered helpful to clinicians because the reference standard used in their hospital may differ from the reference standard used by Masimo for calibration, inducing differences in the noninvasive measurement and the invasive measurement. In addition, while calibration curves are developed over a large number of patients, variation can occur from the calibration curve for any single patient. A low or falling hemoglobin measurement provides the primary indication for whether a patient receives a blood transfusion. A blood transfusion is the most frequent procedure performed in U.S. hospitals, with one in ten inpatients receiving one or more units of blood. Blood transfusions are highly variable by institution, procedure and physician. Evidence from observational studies shows blood transfusions can increase mortality by 69% and morbidity by 88%, while restrictive transfusion practices have been proven safe in multiple randomized controlled trials. Blood transfusions are costly - between $522 and $1,183 per unit - not accounting for morbidity costs. Many transfusions are unnecessary - a systematic review of 494 studies showed that 59% are “inappropriate”. There is a growing recognition of the need to implement strategies to reduce transfusions by groups such as The Joint Commission and the American Medical Association, with blood transfusions recently targeted as one of the top five procedures that are overused. In
spite of the strong need to reduce blood transfusions, existing tools for transfusion decision making are limited and may contribute to inappropriate transfusions. For example, estimated blood loss is commonly much higher than actual blood loss, and laboratory hemoglobin values are only available intermittently and are often delayed. We believe that with appropriate tools, processes and application of evidence-based medicine, blood transfusions could be reduced and save the U.S. healthcare system up to $5 billion per year, while significantly improving quality and safety.
At the American Society of Anesthesiologists scientific meeting in October 2010, investigators from Massachusetts General Hospital presented the results of their study in which they evaluated the impact of SpHb® monitoring in a randomized controlled trial in orthopedic surgery patients. Patients in the standard care group had a 4.5% transfusion rate and patients in the SpHb® monitoring group had a 0.6% transfusion rate, an 87% reduction in transfusion frequency with SpHb®. Patients in the standard care group had an average of 0.10 units transfused and patients in the SpHb® monitoring group had an average of 0.01 units transfused, a 90% reduction in average units transfused.
SpHb® monitoring has also been shown in a prospective cohort study in high blood loss surgery (neurosurgery) conducted at Cairo University to reduce the percent of patients receiving three or more RBC units from 73% to 32% and reduce the average number of RBC units transfused by 47% (from 1.9 to 1.0 units per patient). In this study, the researchers also showed that patients with SpHb® monitoring who needed RBC units received them sooner by 41 minutes on average.
We believe that the potential savings from SpHb® monitoring can be estimated by taking the range of published cost estimates for blood transfusions ($522 to $1,183) multiplied by the expected reduction in blood transfusions per patient. Based on this methodology, in lower blood loss surgery, the 0.09 lower RBC units per patient with SpHb® monitoring is estimated to reduce RBC costs by $47 to $106 per patient monitored. In higher blood loss surgery, the 0.90 lower RBC units per patient with SpHb® monitoring is be estimated to reduce RBC costs by $470 to $1,065 per patient monitored. These estimates do not take into account the expense of SpHb® monitors or sensors, or the other costs associated with over transfusion or delayed care.
A low or falling hemoglobin measurement also helps determine whether a patient has internal bleeding that requires further investigation and intervention. The later bleeding is discovered, the greater the patient risk and greater the potential for increased cost of treatment. Significant bleeding occurs in up to 35% of surgical and ICU patients. A low hemoglobin measurement is associated with almost 90% of patients with bleeding. However, traditional laboratory measurements are both delayed and infrequent, and as a result, are late in identifying bleeding.
According to a study published in January 2010 by Anesthesia and Analgesia, undetected bleeding also occurs in otherwise healthy patients, such as mothers who have just delivered babies. Postpartum hemorrhage (PPH) is the leading cause of maternal mortality. The direct pregnancy-related maternal mortality rate in the U.S. is 7 to 10 women per 100,000 live births and 19% of in-hospital maternal deaths are caused by PPH. In the developing world, statistics suggest that 25% of maternal deaths are due to PPH, accounting for more than 140,000 maternal deaths per year, or 1 woman every 4 minutes.
When used with other clinical variables, Masimo SpHb® may help clinicians detect bleeding and help determine treatment and additional test options. While clinical research studies on SpHb® are ongoing, clinicians inherently understand the value of continuous and noninvasive hemoglobin monitoring. A study by the consulting firm Capgemini concluded that the average 500 bed hospital would save $468,000 annually by implementing SpHb® and other rainbow® measurements. Because of the potential clinical and cost advantages of measuring hemoglobin noninvasively and continuously, we believe that a greater number of hospitals will adopt Masimo rainbow® SET technology.
A significant portion of invasive hemoglobin measurements are made outside of hospital settings, in the physician office to aid patient assessment and treatment, and in the blood donation market to qualify potential donors for eligibility to donate blood. While neither spot nor continuous SpHb® measurements are intended to replace invasive hemoglobin tests, we believe that a significant number of the estimated 200,000 U.S. physician offices and donations could be aided by the noninvasive and immediate assessment of hemoglobin.
Beginning in January 2010, the American Medical Association approved a Current Procedural Terminology, or CPT, code and Medicare implemented pricing on the Medicare Clinical Lab Fee Schedule for noninvasive hemoglobin, enabling U.S. hospitals and physician offices that perform testing to recover their costs, in addition to the clinical benefits they receive from this measurement. In 2014, the Medicare reimbursement for SpHb® is $6.84 per test when testing eligible patients.
Carboxyhemoglobin (SpCO®)
Carbon monoxide is a colorless, odorless and tasteless gas that is undetectable by humans and is often unknowingly inhaled from combustion fumes, or during fires by victims and first responders. Carbon monoxide poisoning is the leading cause of accidental poisoning death in the U.S., responsible for up to 50,000 emergency department visits and 500 unintentional deaths annually. Carbon monoxide poisoning, which involves carbon monoxide binding with hemoglobin cells, thereby preventing them from carrying oxygen, can cause severe neurological damage, permanent heart damage or death in a matter of minutes.
Quick diagnosis and treatment of carbon monoxide poisoning in the emergency department is critical in saving lives and preventing long-term damage, but the condition is often misdiagnosed because symptoms are similar to the flu. Lack of timely diagnosis can delay treatment or, worse, patients assessed with an incorrect diagnosis can be re-exposed to CO. Therefore, failure to diagnose CO poisoning can have disastrous consequences for patients and potentially other family members of affected households.
Historically, carbon monoxide levels in the blood have been measured using a laboratory CO-Oximeter, which requires a patient or a patient’s blood sample to be transported to a hospital with laboratory CO-Oximetry capability. In one region of the country, it is estimated that only one-half of acute care hospitals has laboratory CO-Oximetry capabilities. Additional delays occur if a patient needs hyperbaric oxygen therapy, which often requires transfer to yet another medical center with hyperbaric capability. Outside the hospital, laboratory measurements of carboxyhemoglobin are not considered feasible. Historically, this meant that carbon monoxide levels in the blood could not be assessed in environments in which it would be very useful, such as in the home of a patient or in the medical evaluation of first responders exposed at the scene of a fire. As a result, these people had no way of knowing whether they or others were at risk or had suffered carbon monoxide poisoning.
While SpCO® is not intended to replace invasive carboxyhemoglobin tests, when used with other clinical variables, SpCO® may help clinicians detect carbon monoxide poisoning and help determine treatment and additional test options. According to a 2008 study by Brown University, an emergency department using Masimo rainbow® SET® carbon monoxide monitoring identified 60% more carbon monoxide poisoning cases than the conventional approach, and estimated that as many as 11,000 carbon monoxide poisoning cases per year in the U.S. were being missed with the conventional approach. In a 2012 study, based on three years of U.S. data from the Undersea and Hyperbaric Medicine Society’s carbon monoxide poisoning surveillance system (supported by the Centers for Disease Control), researchers analyzed cases of carbon monoxide poisoning treated with hyperbaric oxygen with initial carboxyhemoglobin level measured by either laboratory CO-Oximetry or with SpCO® from a rainbow® Pulse CO-Oximeter®. Patients who were initially measured using rainbow® Pulse CO-Oximetry had a significantly shorter time to measurement of carbon monoxide (1.1 versus 1.7 hours) and a shorter period of time from the end of carbon monoxide exposure to treatment (4.4 versus 5.3 hours). Three hours after exposure, 45% of patients evaluated by using SpCO® and rainbow® Pulse CO-Oximetry had started treatment versus just 25% of patients evaluated by laboratory CO-oximetry that had started treatment. In a 2013 study, in which elevated SpCO® was used to help indicate a need for invasive testing in patients presenting to the emergency department with headaches, 23% of the cases which were ultimately diagnosed with carbon monoxide poisoning were only identified after elevated SpCO® levels had been tested.
Multiple leading emergency first responder associations, including the National Association of Emergency Medical Technicians, the National Association of EMS Educators, the International Association of Fire Fighters and the International Association of Fire Chiefs, now educate their members that noninvasive assessment for carbon monoxide poisoning is appropriate when exposure is suspected or when an individual presents symptoms that could indicate such poisoning. In addition, the National Fire Protection Association, or NFPA, included carbon monoxide screening by rainbow® Pulse CO-Oximetry as an available method as part of a new national healthcare standard for firefighters potentially exposed to carbon monoxide poisoning. NFPA’s consensus codes and standards serve as the worldwide authoritative source on fire prevention and public safety.
In addition, the United Kingdom House of Commons All Party Parliamentary Gas Safety Group, in a report published in January 2009, aimed at increasing the awareness of carbon monoxide poisoning among medical professionals, recommended noninvasive carbon monoxide testing for Emergency Department and alternate care market providers as a way to improve the country’s rate of detection and diagnosis of carbon monoxide poisoning. For the preparation of this report, the United Kingdom Group used Masimo rainbow® SET® Rad-57® devices for 12 months and reported successful cases with the Rad-57® devices.
Beginning January 2009, the American Medical Association approved a CPT code and Medicare implemented pricing on the Medicare Clinical Lab Fee Schedule for noninvasive carboxyhemoglobin, enabling U.S. hospitals that perform testing to recover their costs, in addition to the clinical benefits they receive. In 2014, the Medicare reimbursement for SpCO® is $6.84 per day when testing eligible patients.
We believe that the greatest opportunity for SpCO® monitoring is in the EMS, fire and hospital emergency department settings. In the U.S. alone, there are 30,000 fire departments / alternate care market locations and 5,000 hospitals that would benefit from noninvasive carbon monoxide testing.
Methemoglobin (SpMet®)
Methemoglobinemia reduces the amount of oxygen bound to hemoglobin for delivery to tissues and forces normal hemoglobin to bind more tightly to oxygen, releasing less oxygen to the tissues. Methemoglobinemia is often unrecognized or diagnosed late, increasing risk to the patient. Commonly prescribed drugs can introduce methemoglobin into the blood and cause methemoglobinemia. Some of the 30 drugs that are known to cause methemoglobinemia are benzocaine, a local anesthetic, which is routinely used in procedures ranging from endoscopy to surgery; inhaled nitric oxide, routinely used in the Neonatal
Intensive Care Unit; nitroglycerin, used to treat cardiac patients, and dapsone, used to treat infections for immune deficient patients, such as HIV patients.
According to a study published in September 2004 by researchers at Johns Hopkins University, over a 28 month period there were 414 cases, or 19% of all patients reviewed, of acquired methemoglobinemia. In these cases, the methemoglobinemia resulted in one fatality and three near-fatalities. Warnings, cautions and alerts regarding the clinical significance and prevalence of methemoglobinemia have been generated by the FDA, Veterans Administration, Institute for Safe Medication Practices and the National Academy of Clinical Biochemistry. The American Academy of Pediatrics recommends monitoring methemoglobin levels in infants who receive nitric oxide therapy.
While SpMet® is not intended to replace invasive methemoglobin tests, when used with other clinical variables, Masimo SpMet® may help clinicians detect methemoglobinemia and help determine treatment and additional test options. We believe the initial opportunity for methemoglobin monitoring is in outpatient procedure labs in hospitals, such as esophageal echocardiography and gastrointestinal labs where use of topical “caines”, such as benzocaine, is prevalent, monitoring HIV patients who receive dapsone, as well as monitoring neonates who receive inspired nitric oxide in the neonatal ICUs.
Beginning January 2009, the American Medical Association approved a CPT code and Medicare implemented pricing on the Medicare Clinical Lab Fee Schedule for noninvasive methemoglobin, enabling U.S. hospitals that perform testing to recover their costs, in addition to the clinical benefits they receive. In 2014, the Medicare reimbursement for SpMet® is $6.84 per day when testing eligible patients.
Pleth Variability Index (PVI®)
Fluid is administered through intravenous catheters to surgical and intensive care patients as part of a key objective to ensure that vital tissues are getting enough oxygen by increasing the amount of blood flow the heart pumps per minute, also known as cardiac output. However, too much or too little fluid may cause harm to patients. Therefore, the decision of whether to administer fluid is of fundamental importance in critically-ill and surgical patients. Ideally, a clinician would know prior to giving fluid whether the patient would respond favorably to the fluid, which is known as “fluid responsiveness”, and means that after giving fluid, the patient’s cardiac output actually increased. However, traditional methods such as central venous pressure monitoring often fail to predict fluid responsiveness, and newer methods are invasive, complicated and/or costly.
Multiple studies have shown that, when used with other clinical variables, PVI® helps clinicians assess fluid responsiveness. All of the methods that help assess fluid responsiveness, including PVI®, require that the patient be under mechanical ventilation, which means that a machine called a respirator is controlling patient breathing. PVI® has been shown to help clinicians reduce the amount of fluid given to surgical patients, which lowered their patient risk as evidenced by a lowering of a key patient risk marker called lactate level.
In 2012, the United Kingdom's National Health Service included PVI® amongst other technologies in its Intra Operative Fluid Management pack, which serves as a guide for hospitals wishing to implement fluid responsiveness monitoring to improve patient outcomes. In 2013, the French Society for Anesthesia and Intensive Care, or SFAR, added PVI® to its guidelines for optimal hemodynamic management during surgery. PVI® is unique in the technologies that have been shown to help assess fluid responsiveness, as it has no incremental procedural price. This means that if Masimo SET® pulse oximetry with PVI® is available at the bedside for required pulse oximetry monitoring, the same Masimo sensor used for pulse oximetry also provides PVI®.
We believe that the large majority of surgical patients are not being monitored for fluid responsiveness. Because the highest risk patients typically receive invasive monitoring to monitor blood pressure continuously and often to assess fluid responsiveness, we believe the primary opportunity for PVI® monitoring is in patients in which they would not otherwise use invasive monitoring. These include moderate and lower-risk mechanically ventilated adult patients during surgery and in the ICU, septic patients in the emergency department and ICU, and higher-risk patients in which invasive monitoring is not otherwise possible in the setting or indicated in the patient. It is also possible that future studies may reveal an application for PVI in non-mechanically ventilated adult patients in the hospital and other out-of-hospital patient populations.
Respiration Rate (RRa®)
We received FDA clearance for RRa® with rainbow Acoustic Monitoring™ (RAM™) technology in November 2009, announced initial market release of the parameter in December 2009, and announced full market release in June 2010.
Respiration rate is defined as the number of breaths per minute, and changes in respiration rate provide an early warning sign of deterioration in patient condition. Current methods to monitor respiration rate include end tidal CO2 monitoring, which requires a special tube to be inserted in the patient’s nose and therefore has low patient compliance, and impedance monitoring, which is considered unreliable. Multiple clinical studies have shown that RRa® provides as good or better accuracy to monitoring respiration rate as end tidal CO2 monitoring, and can reliably detect respiratory pause episodes, defined as a cessation of
breathing for 30 seconds or more. Our noninvasive respiration rate parameter became available in our Masimo rainbow® SET® platforms with the launch of our MX-3 circuit board, in November 2009. These devices with the RRa® software and our acoustic respiration sensor are placed on the patient’s neck and connected to the bedside monitor with a separate cable. Should the respiration rate change or stop, an alarm will be displayed on the device and in addition, can be sent to the Patient SafetyNet™ system. Patient SafetyNet™ can then notify the attending clinician or nurse of the condition, directly on the monitor or remotely via a pager.
In May 2013, we received FDA clearance for RAM™ for pediatric patients, enabling noninvasive monitoring of RRa® in a population that is often not tolerant of capnography because it requires a nasal cannula or mask. A 2013 multicenter study conducted at Cincinnati Children's Hospital Medical Center, University of Arizona Medical Center, and Children's Medical Center at Dallas showed that RAM™ had similar accuracy, yet improved better patient tolerance compared to capnography (nasal cannula) in post-surgical pediatric patients.
When used with other clinical variables, RRa® may help clinicians assess respiratory status and help determine treatment options. We believe this noninvasive measurement will become a key and important measurement in the general floor environment, in the post-anesthesia care unit, during procedural sedation such as in the gastrointestinal lab, as well as in the monitoring of non-mechanically ventilated patients during surgery.
Fractional Arterial Oxygen Saturation (SpfO2™)
In October 2012, we debuted SpfO2™, a new parameter which, for the first time, allows the measurement of fractional arterial oxygen saturation noninvasively. This parameter has received CE mark for the European Union, but it is currently not available for sale in the U.S. Until now, pulse oximeters could only measure and display functional oxygen saturation (SpO2). Therefore, when patients had elevated carboxyhemoglobin (from carbon monoxide poisoning) and/or elevated methemoglobin (negative reaction to more than 30 common drugs used in hospitals, like caines, nitrates, and dapsone), the displayed functional oxygen saturation overestimated the actual oxygen saturation value. Utilizing more than seven wavelengths of light and breakthrough signal processing, Masimo rainbow® Pulse CO-Oximeters can measure and display fractional arterial oxygen saturation. SpfO2™ allows more precise arterial oxygenation assessment in patients with elevated dyshemoglobins, common throughout the hospital and pre-hospital setting, compared to functional oxygen saturation. SpfO2™ may also allow earlier interventions and more timely therapeutic decisions.
Halo Index™
In October 2010, we debuted Halo Index™, which has received CE mark for the European Union, but is not currently available for sale in the U.S. Halo Index™ is a dynamic indicator that facilitates continuous global trending and assessment of multiple physiological measurements to quantify changes in patient status. Currently, clinicians monitor multiple clinical measurements on each patient and respond independently to each of the measurements. Halo Index™ is a single displayed value on our Patient SafetyNet™ remote monitoring and notification system, which facilitates simple and comprehensive assessment within a single index. This may allow clinicians to identify patient risk that was otherwise not apparent and may also help clinicians, in the presence of individual parameter alarms, to assess that a patient’s risk remains low, allowing them to focus on other higher risk patients. In the future, subject to FDA clearance, we expect Halo Index™ will also be available as part of our standalone devices and OEM boards. As more clinical evidence is collected on Halo Index™, its clinical utility in a variety of care areas and patient types will become more specific.
Market Opportunities for Noninvasive Specialty Measurements
SedLine® Brain Function Monitoring
In July 2010, we acquired and began selling the SedLine® brain function monitoring standalone monitor, which measures the brain’s electrical activity by detecting EEG signals. In contrast to whole scalp EEG monitoring which is used for diagnostic purposes, this form of EEG monitoring is often referred to as processed EEG monitoring, or brain function monitoring. Brain function monitors display the patient’s EEG waveforms, but these are difficult for clinicians to interpret, so the EEG signals are processed and displayed as a single index that gives a continuous, quantitative indication of the patient’s depth of anesthesia and sedation. Brain function monitoring is most commonly used during surgery to avoid over- and under-titration of anesthesia and sedation. A market research report from iData estimates that in 2014, the size of the U.S. market for brain function monitoring will be almost $100 million.
We discontinued the standalone SedLine® monitor, and in June 2013, we introduced the SedLine® Module for Masimo Open Connect™ (MOC-9™) in Root™, a powerful new patient monitoring and connectivity platform that integrates our breakthrough rainbow® and SET® measurements with multiple additional parameters. SedLine® displays include raw EEG waveforms, the Patient State Index (PSI), and the Digital Spectral Array view.
We believe SedLine® has advantages over other brain function monitors because it monitors both sides of the brain simultaneously (instead of only one side or by switching from one side to the other) to enable detection of asymmetrical brain activity. We also believe, and studies have shown, that compared to other brain function monitors, SedLine® offers more reliable brain function monitoring during challenging conditions such as the use of electrocautery. Electrocautery is an electronically powered surgical instrument frequently used during surgery to make incisions. In addition, because raw EEG signals are difficult to interpret, a single index may not provide a complete indication of the patient status. The Digital Spectral Array view allows a color-coded indication of the relative power, or strength of signal, at various EEG frequencies over time. The significance of the Digital Spectral Array view is developing, but it is believed that it may provide clinicians with the ability to discriminate more clearly the unique effects of various anesthetic agents and agent combinations, versus the raw EEG signals and index alone.
Capnography and Gas Monitoring
In July 2012, we acquired PhaseinTM, a developer and manufacturer of ultra-compact mainstream and sidestream capnography and gas monitoring technologies. The acquisition of the PhaseinTM technologies complements our existing breakthrough monitoring technologies with the ability to measure multiple expired gases, such as carbon dioxide, (CO2), nitrous oxide, (N2O), an oxygen (O2), and anesthetic agents. In the case of capnography, respiration rate is also calculated from the CO2 waveform. These measurements are possible through either mainstream monitoring, which samples gases from a ventilated patient’s breathing circuit, or sidestream monitoring, which samples gases from a breathing circuit in mechanically ventilated patients or through a cannula or mask in spontaneously breathing patients. These capnography and gas measurements are standard-of-care in many hospital environments, such as operating rooms, procedural sedation and intensive care units.
We offer a portfolio of capnography and gas products ranging from external “plug-in-and-measure” capnography and gas analyzers, integrated modules, and handheld capnograph and capnometer devices. In June 2013, we received the CE-Mark for, and launched, the Phasein capnography MOC-9™ module for Root™. We believe that our Phasein capnography offers advantages over other available capnography technologies because it requires virtually no start-up time. In addition, with the Nomoline™ "No Moisture" sample line, customers can choose from a single patient use Nomoline™ version - designed for extended life in high humidity environments - or the multi-use Nomoline™ adapter for cost-effective, repeated use on different patients with only the cannula itself being replaced with each patient.
Future Measurements
We believe that our core signal processing and sensor technologies are widely applicable and may develop and launch future applications utilizing our proprietary technology platforms. However, we do not plan to communicate the priority, status or timing of future measurements in development until such time as that they have reached feasibility and/or received regulatory clearance.
The Masimo Value Proposition
We have continued to expand beyond our core pulse oximetry, by creating multiple breakthrough noninvasive measurements, offering systems for remote monitoring and notification and now offering the new Root™ monitor. Root™ allows for the continuous monitoring of all these measurements in a platform that is capable of adding future specialty noninvasive measurements from Masimo and other third-parties while, at the same time, also allowing for connectivity to third-party devices such as IV pumps and ventilators.
Masimo SET® Pulse Oximetry
Masimo SET® was designed to overcome the primary limitations of conventional pulse oximetry, which involve maintaining accuracy in the presence of motion artifact and weak signal-to-noise situations. Our Masimo SET® platform, which became available to hospitals in the U.S. in 1998, is the basis of our pulse oximetry products and we believe represented the first significant technological advancement in pulse oximetry since its introduction in the early 1980s. Masimo SET® utilizes five signal processing algorithms, four of which are proprietary, in parallel to deliver high precision sensitivity and specificity in the measurement of arterial blood oxygen saturation levels. Sensitivity is the ability to detect true events and specificity is the ability to reject false alarms. One of our proprietary processing algorithms, Discrete Saturation Transform®, separates the signal from noise in real-time through the use of adaptive filtering and an iterative sampling technique that tests each possible saturation value for validity. Masimo SET® signal processing can therefore identify the venous blood and other noise, isolate them, and extract the arterial signal.
To complement our Masimo SET® platform, we have developed a wide range of proprietary single-patient use (disposable) and multi-patient (reusable) sensors, cables and other accessories designed specifically to work with Masimo SET® software and hardware. Although our technology platforms operate solely with our proprietary sensor lines, our sensors have the capability to
work with certain competitive pulse oximetry monitors through the use of adapter cables. Our neonatal adhesive sensors have been clinically proven to exhibit greater durability compared to competitive sensors.
Adhesive sensors are single patient-use items, but the FDA allows third-parties to reprocess pulse oximetry sensors. In response to the hospital market’s growing needs to implement environmentally friendly, or “green”, products and to decrease costs to remain competitive, we developed the rainbow ReSposable® sensor system and began a limited market release in December 2010.The rainbow ReSposable® sensor, part reusable and part disposable, combines the performance and comfort of single-use adhesive sensors with the economic and green advantages of reusable sensors. Based on an internal Masimo study of 974 third-party reprocessed sensors, we estimated that rainbow ReSposable® sensors produce 90% less waste and 41% fewer carbon emissions than disposable sensors, while reprocessed sensors only decrease waste by 34% and actually increase carbon emissions by 43% compared to disposable sensors.
Masimo SET® technologies and products offer multiple clinical and financial benefits, including:
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• | Fewer false alarms and better true alarm detection. Over 100 independent and objective studies have now proven Masimo SET® accuracy during challenging conditions in adult, pediatric and neonatal patients. |
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• | Increased detection of critical congenital heart disease through newborn screening. Four studies totaling 118,000 patients have shown that adding Masimo SET® to the standard physical exam helps clinicians to increase the detection of this potentially fatal disease before the baby leaves the hospital. The published evidence for Masimo SET® led the American Academy of Pediatrics and the U.S. Department of Health and Human Services to recommend mandatory screening for all newborns using “motion-tolerant pulse oximeters that report functional oxygen saturation and have been validated in low perfusion conditions”. In 2012, we received FDA 510(k) clearance for Masimo SET® pulse oximeters and neonatal sensors with labeling for screening newborns for CCHD, marking the first time the FDA cleared specific labeling for the use of pulse oximeters, in conjunction with a physical exam, to screen newborns for CCHD. |
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• | Reduced retinopathy of prematurity in very low birth weight neonates. In a two-phased study of two centers that previously used competing pulse oximetry, both centers simultaneously changed their neonatal oxygen targeting policy, and one of the centers switched to Masimo SET® pulse oximetry. In the first phase of the study, there was no decrease in retinopathy of prematurity at the center using competing pulse oximetry but there was a 58% reduction in significant retinopathy of prematurity and a 40% reduction in the need for laser eye treatment at the center using Masimo SET®. In the second phase of the study, the center still using competing pulse oximetry switched to Masimo SET® and it experienced similar results as the center already using Masimo SET® |
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• | Fewer arterial blood gas measurements, faster oxygen weaning time, and lower length of stay in the ICU. Due to the more accurate measurements from Masimo SET® during challenging conditions and the ability to monitor in low perfusion patients, studies have shown reduced need for arterial blood gas, helped clinicians reduce weaning times from the ventilator, and resulted in a lower length of stay. |
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• | Lower sensor utilization. Masimo SET® sensors provide enhanced durability for greater sensor longevity, and the underlying performance of Masimo SET® in challenging conditions makes it easier to obtain measurements on digits with low perfusion, which reduces the use of multiple sensors on the same patient. |
Expansion of Pulse Oximetry into Non-Critical Care Settings
We believe the ability of Masimo SET® products to provide reliable monitoring with fewer false alarms has expanded and will continue to expand the use of pulse oximetry into other settings where patient motion and false alarms have historically prevented its use.
We market our Patient SafetyNet™ remote monitoring and clinician notification system for use with our Masimo SET® pulse oximeters, rainbow® Pulse CO-Oximeters®, and rainbow Acoustic™ Monitors, which allow monitoring of the oxygen saturation, pulse rate, perfusion index, hemoglobin, methemoglobin, and respiration rate of up to 80 patients simultaneously. Patient SafetyNet™ offers a rich user interface with trending, real-time waveform capability at the central station and remote notification via pager or smart phones. Patient SafetyNet™ also features the Adaptive Connectivity Engine™, which enables two-way, HL7-based connectivity to clinical/hospital information systems. The Adaptive Connectivity Engine™ significantly reduces the time and complexity to integrate and validate custom HL7 implementations, and demonstrates our commitment to innovation that automates patient care with open, scalable, and standards-based connectivity architecture. Patient SafetyNet™ also allows the display of Halo Index™, discussed earlier. We believe that the advanced performance of the Masimo SET® platform coupled with reliable, cost effective, and easy to use wireless remote monitoring will allow hospitals to create continuous surveillance solutions on general care floors where patients are at risk of avoidable adverse events and where direct patient observation by skilled clinicians is cost prohibitive.
Masimo SET® technologies and products offer multiple clinical and financial benefits in non-critical care settings, including:
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• | Earlier detection of patient distress on the general floor, enabling reduced ICU Transfers and Rapid Response Activations. Many patients in the general care areas are at risk of dying due to inadequate oxygenation. To mitigate this risk, patients in the general care areas need to be continuously monitored. Our Patient SafetyNet™ systems enable the Masimo SET® and rainbow® SET® platforms to wirelessly and remotely monitor patients in the general care areas of the hospital that are not under the constant supervision of clinicians. A landmark study published in 2010 by Dartmouth-Hitchcock Medical Center demonstrated that clinicians using Masimo SET® and Patient SafetyNet™ identified patient distress earlier, which decreased rapid response team activations, ICU transfers and ICU days. Hospitals and other care centers can reduce their costs by moving less critically ill patients from the ICU to the general care areas where these patients can be continuously and accurately monitored in a more cost-effective manner. |
Upgradeable rainbow® SET® Platform
In 2005, we introduced our Masimo rainbow® SET® platform, leveraging our Masimo SET® technology and incorporating licensed rainbow® technology to enable reliable, real-time monitoring of additional measurements beyond arterial blood oxygen saturation and pulse rate. The Masimo rainbow® SET® platform has the unique ability to measure and distinguish oxygenated hemoglobins from certain dyshemoglobins, hemoglobins incapable of transporting oxygen, and allows for the rapid, noninvasive monitoring of hemoglobin, carboxyhemoglobin, methemoglobin, which together we refer to as Pulse CO-Oximetry. Along with the release of our rainbow® Pulse CO-Oximetry products, we have developed multi-wavelength sensors that have the ability to monitor multiple measurements with a single sensor. We believe that the use of Masimo rainbow® Pulse CO-Oximetry products will become widely adopted for the noninvasive monitoring of these measurements. We believe the addition of RRa® with rainbow Acoustic® Monitoring technology for noninvasive and continuous monitoring will strengthen the clinical demand for the rainbow® platform, especially in the growing general floor market.
Products with our MX circuit board contain our Masimo SET® pulse oximetry technology as well as circuitry to support rainbow® measurements. At the time of purchase, or at any time in the future, our customers and our OEMs’ customers will have the option of purchasing a software measurement, which will allow the customer to expand their patient monitoring systems to monitor additional measurements with a cost-effective solution.
Our rainbow® SET® technologies and products offer multiple clinical and financial benefits, including:
Hemoglobin (SpHb®)
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• | Helping clinicians reduce the risk and cost associated with red blood cell transfusions |
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• | Helping clinicians identify undetected bleeding earlier in surgical, intensive care, trauma, and obstetric patients |
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• | Helping clinicians identify unexpected low hemoglobin for further testing |
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• | In developing health care systems around the world, laboratory testing is often unavailable. In these countries, SpHb® can provide previously unavailable information to help assess patients for low hemoglobin levels and monitor the effects of low hemoglobin treatment. |
Carboxyhemoglobin (SpCO®)
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• | Helping clinicians identify unsuspected and deadly carbon monoxide poisoning earlier and more often, reducing incorrect diagnoses |
Methemoglobin (SpMet®)
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• | Helping clinicians identify dangerous methemoglobinemia earlier and more often, reducing incorrect diagnoses |
Pleth Variability Index (PVI®)
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• | Helping clinicians assess fluid responsiveness and improve fluid management in surgical and intensive care patients who are mechanically ventilated |
Respiration Rate (RRa®)
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• | Helping clinicians identify respiratory depression and respiratory distress earlier and more often to potentially enable earlier interventions |
Fractional Arterial Oxygen Saturation (SpfO2™)
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• | Allowing more precise arterial oxygenation assessment in patients with elevated dyshemoglobins, common throughout the hospital and pre-hospital setting, compared to functional oxygen saturation (SpO2) |
Halo Index™
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• | Potentially helping clinicians identify patient distress earlier, more effectively, more easily, and more efficiently |
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• | Potentially identifying patients at low risk, even in the presence of individual physiologic alarms |
Noninvasive Specialty Measurements
Masimo’s new noninvasive specialty measurements provide differentiated and cost-effective solutions in existing monitoring modalities and offer multiple clinical and financial benefits, including:
SedLine® Brain Function Monitoring
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• | Simultaneous monitoring of both sides of the brain to identify asymmetry |
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• | Performance in challenging conditions such as the use of electrocautery |
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• | Digital spectral array for enhanced ability to assess depth of anesthesia with multiple agents and agent combinations |
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• | Cost-effective consumables |
Capnography and Gas Monitoring
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• | Allowing continuous monitoring of ventilation in mechanically ventilated patients, monitoring ventilation during cardiopulmonary resuscitation, and monitoring gas concentrations to help titrate anesthesia |
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• | Quick start up time to avoid waiting for valid measurements, especially important during emergency resuscitation efforts |
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• | Cost-effective consumables through Nomoline™ for both single and multi-patient use |
Third-party Measurement Expansion
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• | Enabling multiple additional measurements through the MOC-9™ ports in Root™ |
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• | Offers companies a desirable platform to deploy new measurements, reducing the need for multiple standalone monitors |
Third-party Device Connectivity
Despite medical technology advances, the lack of device communication and integration creates risks to patient safety in hospitals around the world. Without device interoperability, critical patient information can go unnoticed - leaving clinicians unaware and patients at risk. Existing approaches for device interoperability require separate hardware, software, and/or network infrastructure, which can clutter the patient room, increase complexity, burden IT management, and increase costs. To address these challenges, each Root™ can also be used as a connectivity gateway to integrate multiple standalone devices such-as IV pumps, ventilators, hospital beds, and other patient monitors - when used as part of the optional Iris™ connectivity package in Masimo Patient SafetyNet™.
Masimo’s addition of Iris™ connectivity in Root™ and Patient SafetyNet™ provides multiple advantages to hospitals:
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• | Allows standalone device information to be remotely viewed with Patient SafetyNet™, transmitted through notification systems or sent to electronic health record systems to facilitate better patient care and meaningful use. |
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• | Designed to leverage existing network infrastructures and reduce costs while enhancing clinical workflows and decision support to improve patient safety, wherever the clinician is located. |
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• | Flexible and cost-effective platform, avoiding installation of costly, separate systems. |
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• | Brings all the data together to facilitate assessment and decision support. |
Our Strategy
Since inception, our mission has been to develop noninvasive monitoring solutions that improve patient outcomes and reduce the cost of patient care. We intend to continue to grow our business and to improve our market position by pursuing the following strategies:
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• | Continue to Expand Our Market Share in Pulse Oximetry. We grew our product revenue to $517.4 million in 2013 from $356.4 million in 2010, representing a three year CAGR of 13.2%. This growth can be attributed to the increased access to pulse oximetry customers through our agreements with group purchasing organizations, or GPOs, our increased relationships with OEM partners, the expansion of our direct sales force, and strong, independent clinical evidence that demonstrates the benefits of our technology. We supplement our direct sales |
with sales through our distributors. Direct and distributor sales increased to $438.8 million, or 84.8%, of product revenue in 2013, from $283.6 million, or 79.6%, of product revenue in 2010.
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• | Expand the Pulse Oximetry Market to Other Patient Care Settings. We believe the ability to continuously and accurately monitor patients outside of critical care settings, including the general, medical and surgical floors of the hospital, are currently unmet medical needs and have the potential to significantly improve patient care and increase the size of the pulse oximetry market. We believe the ability of Masimo SET® to accurately monitor and address the limitations of conventional pulse oximetry has enabled, and will continue to enable, us to expand into non-critical care settings and thus significantly expand the market for our products. To further support our expansion into the general care areas, we market Patient SafetyNet™, which enables continuous monitoring of up to 80 patients’ oxygen saturation, pulse rate, and with rainbow® SET®, noninvasive hemoglobin and respiration rate. |
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• | Expand the Use of rainbow® Technology in the Hospital Setting. We believe the noninvasive measurement of rainbow® Pulse CO-Oximetry (SpHb®, SpCO®, SpMet®), rainbow Acoustic Monitoring™ (RRa®), and the Halo Index™, as well as future measurements, will provide an excellent opportunity to leverage existing customer relationships into new opportunities to improve patient care and our revenues, directly and through a greater ability to convert non-Masimo hospitals to Masimo hospitals due to our expanded measurement capabilities. |
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• | Expand the Use of rainbow® Technology in the Non-Hospital Setting. We believe the noninvasive measurement of hemoglobin creates a significant opportunity in markets such as the physician office, emergency departments, and blood donation centers, and noninvasive carboxyhemoglobin in the fire/alternate care market. |
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• | Utilize Our Customer Base and OEM Relationships to Market Our Masimo rainbow® SET Products Incorporating Licensed rainbow® Technology. We sold our first Masimo rainbow® Pulse CO-Oximetry products in September 2005. We are currently selling our rainbow® SET products through our direct sales force and distributors. In addition, we plan to sell our MX circuit boards in our own pulse oximeters and to our OEM partners, equipped with circuitry to support rainbow® Pulse CO-Oximetry measurements which can be activated at time of sale or through a subsequent software upgrade. We believe that the clinical need of these measurements along with our installed customer base will help drive the adoption of our rainbow® Pulse CO-Oximetry products. |
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• | Continue to Innovate and Maintain Our Technology Leadership Position. We invented and pioneered what we believe is the first pulse oximeter to accurately measure arterial blood oxygen saturation level and pulse rate in the presence of motion artifact and low perfusion. In addition, we launched our rainbow® SET® platform that enabled what we believe is the first noninvasive monitoring of carboxyhemoglobin, methemoglobin and hemoglobin, as well as PVI®, which all previously were only available with invasive and/or complicated testing. With our introduction of RRa® with rainbow Acoustic Monitoring™ technology, we believe we have launched the first platform to enable noninvasive and continuous monitoring through an easy to use single patient adhesive acoustic sensor. Halo Index™ is a dynamic indicator that facilitates continuous global trending and assessment of multiple physiological measurements to quantify changes in patient status. We plan to continue to innovate and develop new technologies and products, internally and through our collaboration with Cercacor, from whom we currently license certain noninvasive monitoring of other measurements. |
Our future growth strategy is also closely tied to our focus on international expansion opportunities. Since 2007, we have been aggressively expanding our sales and marketing presence in Europe, Asia, Canada and Latin America. We have accomplished this through both additional staffing and by adding or expanding sales offices in many of these territories. During the fourth quarter of 2008, we established a new international business structure designed to better serve and support our growing international business. By centralizing our international operations, including sales management, marketing, customer support, planning, logistics and administrative functions, we believe we have developed a more efficient and scalable international organization-capable of being even more responsive to the business needs of our international customers-all under one centralized management structure. As a result of these investments and focus on our international operations, we believe that our international product revenues, as a percent of total product revenues, will continue to increase.
Our Products
We develop, manufacture and market patient monitoring technologies that incorporate a monitor or circuit board and sensors including proprietary single-patient use, reusable and ReSposable sensors and patient cables. In addition, we offer remote alarm/monitoring solutions, software, and connectivity solutions.
The following chart summarizes our principal product components and principal markets and methods of distribution: |
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Product Components | | Description | | Markets and Methods of Distribution |
Patient Monitoring Solutions: | | | | |
Circuit Boards (e.g., MX-1®, MX-3, MS-2011, MS-2040, uSpO2®, SedLine®, ISA™, and IRMA™)
| | • Signal processing apparatus for all Masimo technology platforms
• Mainstream and sidestream capnography and gas monitors | | Incorporated and sold to OEM partners who incorporate our circuit boards into their patient monitoring systems |
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Monitors / Devices (e.g., Radical-7®, Pronto-7®, Rad-57® and EMMA™)
| | • Bedside and handheld monitoring devices that incorporate Masimo SET® with and without licensed Masimo rainbow® SET® technology
• Compact and self-contained capnometer which monitors CO2 concentration | | Sold directly to end-users and through distributors and in some cases to our OEM partners who sell to end-users |
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Patient Monitoring and Connectivity Platform (Root™) | | • Multi-specialty measurement monitor
• Ability to connect third-party devices such as IV pumps, ventilators, beds, and other patient monitors to the electronic health record | | Sold directly to end-users and through distributors |
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Sensors (e.g., SET®, rainbow® Pulse CO-Oximetry, rainbow Acoustic™ Sensors, and SedLine®)
| | • Extensive line of both single-patient, reusable and ReSposable sensors
• Patient cables, as well as adapter cables that enable the use of our sensors on certain competitive monitors | | Sold directly to end-users and through distributors and to OEM partners who sell to end-users |
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Line filters, cannulas, and mainstream adapters (e.g., capnography and gas disposables) | | • Line of disposables to measure mainstream and sidestream capnography and gas parameters
| | Sold directly to end-users and through distributors and to OEM partners who sell to end-users |
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Remote Alarm and Monitoring Solutions (e.g., Patient SafetyNet™)
| | • Network-linked, wired or wireless, multiple patient floor monitoring solutions
• Standalone wireless alarm notification solutions | | Sold directly to end-users |
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Software (e.g., SpHb®, SpCO®, SpMet®, PVI®, RRa®, 3D Alarms, Adaptive Threshold Alarm and Halo Index™)
| | • Rainbow® measurements and other proprietary features sold to installed monitors
| | Sold directly to end-users and through OEM partners who sell to end-users |
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Connectivity (e.g., Root™, Patient SafetyNet™)
| | • Software and hardware enabling third-party devices to connect through Patient SafetyNet™ to clinicians and for documentation to the electronic health record
| | Sold directly to end-users
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Consumer product (e.g., iSpO2®)
| | • Pulse oximeter cable and sensor for use with an iPhone, iPad or iPod touch
| | Sold directly to consumers through on-line websites |
Circuit Boards
Masimo SET® MS Circuit Boards. Our Masimo SET® MS circuit boards perform all signal processing and other pulse oximetry functions incorporating the Masimo SET® platform. Our MS circuit boards are included in our proprietary monitors for direct sale or sold to our OEM partners for incorporation into their monitors. Once incorporated into a pulse oximeter, the MS circuit
boards perform all data acquisition processing and report the pulse oximetry levels to the host monitor. The circuit boards and related software interface directly with our proprietary sensors to calculate arterial blood oxygen saturation level and pulse rate. Our latest generation boards include the MS-2003, MS-2011, MS-2013 and the new MS-2040, with a typical power consumption of less than 45 milliwatts.
Masimo rainbow® SET® MX Circuit Boards. Our next-generation circuit board is the foundation for our Masimo rainbow® Pulse CO-Oximetry and rainbow Acoustic Monitoring™ platform, utilizing technology licensed from Cercacor. The MX circuit boards measure arterial blood oxygen saturation levels and pulse rate, and have the circuitry to enable the measurement of hemoglobin, oxygen content, carboxyhemoglobin, methemoglobin, PVI®, respiration rate and Halo Index™, along with other potential measurements in the future. Customers can choose to buy additional measurements beyond arterial blood oxygen saturation levels and pulse rate at the time of sale or at any time in the future through a field-installed software upgrade. As additional measurements are developed, each new measurement may be available as a software upgrade to the existing system.
uSpO2® Cable/Board. Our new SET® technology-in-a-cable contains the low power (MS-2040) technology in a reduced size, allowing it to be embedded into patient cables as part of the sensor connector. This allows for the ability to interface the uSpO2® cable/board to monitoring devices externally via an existing communications port in instances where internal integration of a traditional Masimo SET® technology board is not feasible. The uSpO2® cable/board provides full Masimo SET® Measure-Through Motion and Low Perfusion pulse oximetry found in our other products, with a typical power consumption of less than 45 milliwatts.
Monitors / Devices
Radical-7®. We believe that the Radical-7® offers features that do not exist in any other pulse oximeter. The Radical-7® incorporates the MX circuit board, which enables rainbow® SET measurements, and offers three-in-one capability to be used as:
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• | a standalone device for bedside monitoring; |
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• | a detachable, battery-operated handheld unit for easy portable monitoring; and |
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• | a monitor interface via SatShare®, a proprietary technology allowing our products to work with certain competitor products, to upgrade existing conventional multiparameter patient monitors to Masimo SET® while displaying rainbow® measurements on the Radical-7® itself. |
The Radical-7® is a wireless, touch screen device, which is on an upgradeable rainbow® SET platform. With its wide-ranging flexibility, Radical-7® can continuously monitor a patient from the ambulatory environment, to the emergency room, to the operating room, to the general floor and on, until the patient is discharged. Radical-7® delivers the accuracy and reliability of Masimo rainbow® SET with multi-functionality, ease of use and a convenient upgrade path for existing monitors.
Root™. We believe that Root™ is a powerful new patient monitoring and connectivity platform that integrates our breakthrough rainbow® and SET® measurements with multiple additional specialty measurements through Masimo Open Connect™ (MOC-9™) in an integrated, clinician-centric platform. The first two MOC-9™ technologies for Root™ are SedLine® brain function monitoring and Phasein™ capnography. Iris™ connectivity in Root™ enables 3rd party devices such as intravenous pumps and ventilators to connect through Root™ and enables display, notification, and documentation to the electronic medical record through Masimo Patient SafetyNet™. In combination with a Radical-7® handheld monitor, Root™ will instantly interpret and display other measurements thus simplifying patient care workflows, empowering caregivers to help make quicker patient assessments, earlier interventions and better clinical decisions throughout the continuum of care.
SatShare®. Our SatShare® technology enables a conventional monitor to upgrade to Masimo SET® through a simple cable connection from the back of Radical-7® to the sensor input port of the conventional monitor. No software upgrades or new modules are necessary for the upgrade, which can be completed in minutes. SatShare® allows hospitals to standardize the technology and sensors used throughout the hospital while allowing them to gain more accurate monitoring capabilities and additional multi-functionality in a cost-effective manner. This technology has facilitated many hospital-wide conversions of previously installed competitor monitors to Masimo SET®. In addition, Masimo rainbow® SET® measurements such as hemoglobin are available to clinicians on the Radical-7® itself while the device is being used in SatShare® mode.
Rad-87™. The Rad-87™, which also contains Masimo rainbow® SET technology, is a compact, lightweight and easy-to-use device designed specifically for use in less acute settings than the Radical-7®. The Rad-87® is available with a built-in bi-directional wireless radio for use as part of the Patient SafetyNet™ remote monitoring and clinician notification system.
Pronto®. The Pronto® is a handheld noninvasive multiparameter testing device that uses Masimo rainbow® SET technology to provide oxygen saturation, pulse rate, perfusion index and spot-checking of hemoglobin levels for both hospitals (i.e., emergency departments) and remote settings such as physician offices.
Pronto-7®. The Pronto-7® is a noninvasive multiparameter device utilizing rainbow 4D™ that provides spot-check hemoglobin testing along with oxygen saturation, pulse rate and perfusion index results. With a touch screen for easy operation and wireless 802.11 and Bluetooth for printing and communication, the Pronto-7® is well-suited for hemoglobin spot-check testing in almost any environment.
Rad-8®. The Rad-8® is a bedside pulse oximeter featuring Masimo SET® (but without rainbow® capability) with a low cost design and streamlined feature set, allowing it to be offered at a lower price point than the Radical-7® or Rad-87®.
Rad-5®. In addition to the bedside monitors, we have developed handheld pulse oximeters using Masimo SET® (but without rainbow® capability). Our Rad-5® and Rad-5v™ handheld oximeters were the first dedicated handhelds with Masimo SET®.
Rad-57®. The Rad-57® is a fully featured handheld Pulse CO-Oximeter® that provides continuous, noninvasive measurement of hemoglobin, carboxyhemoglobin and methemoglobin in addition to oxygen saturation, pulse rate, and perfusion index. Its rugged and lightweight design makes it applicable for use in hospital and field settings, specifically for fire departments and emergency medical service units.
SedLine® MOC-9™ Module. The SedLine® monitor measures brain function on a continuous basis. The SedLine® MOC-9™ module for Root™ is an EEG-based brain function monitor that provides information about a patient’s response to anesthesia.
Capnography and Gas Monitoring. In July 2012, we acquired Phasein™, a developer and manufacturer of ultra-compact mainstream and sidestream capnography, gas analyzers and handheld capnometry solutions. The gas analyzers, IRMA™ and ISA™, and emergency capnometer (EMMA™) enable our customers to benefit from CO2, N2O, O2, and anesthetic agent monitoring in many hospital environments.
uSpO2™ Cable/Board. Our new SET® technology-in-a-cable contains our low power (MS-2040) technology in a reduced size, allowing it to be embedded into patient cables as part of the sensor connector.
iSpO2® pulse oximeter for use with an iPhone, iPad or iPod touch. The iSpO2® uses Masimo SET® for Measure-Through Motion and Low Perfusion performance, for consumers to check their own arterial blood oxygen saturation (SpO2), pulse rate, and perfusion index measurements for short-term sports and aviation use. This version is not intended for medical use.
Sensors
Sensors and Cables. We have developed one of the broadest lines of single-patient use (disposable), reusable and ReSposable sensors and cables. In total, we have over 100 different types of sensors to meet virtually every clinical need. Masimo SET® sensors are uniquely designed to reduce interference from physiological and non-physiological noise. Our proprietary technology platforms operate only with our proprietary sensor lines. However, through the use of adapter cables, we can connect our sensors to certain competitor pulse oximetry monitors. We sell our sensors and cables to end-users through our direct sales force and our distributors and OEM partners.
Our single-patient use sensors offer several advantages over reusable sensors, including improved performance, cleanliness, increased comfort and greater reliability. Our reusable sensors are primarily used for short-term, spot-check monitoring. Our rainbow ReSposable® sensors are expected to provide performance advantages for customers currently using reusable and reprocessed sensors.
SofTouch Sensors. We have developed SofTouch sensors, designed with less adhesive or no adhesive at all for compromised skin conditions. These include single-patient sensors for newborns and multi-site reusable sensors for pediatrics and adults.
Trauma and Newborn Sensors. We believe we were the first to develop two specialty sensor lines, specifically designed for trauma and resuscitation situations, as well as for newborns. These sensors contain an identifier which automatically sets the oximeter to monitor with maximum sensitivity and the shortest-averaging mode and allows for quick application, even in wet and slippery environments. Additionally, we introduced low-profile sensors to monitor oxygen saturation in newborns. The newly enhanced low-profile LNCS®, M-LNCS™ Neo, NeoPt, and Inf Sensors™ are smaller and thinner, making them significantly more comfortable for patients and easier to apply for healthcare workers.
Blue Sensors. In 2005, we introduced what we believe to be the first FDA-cleared sensor to accurately monitor arterial blood oxygen saturation levels in cyanotic infants and children with abnormally low oxygen saturation levels.
E1® Ear Sensor. In 2011, we introduced the first ever, single-patient-use ear sensor that is placed securely in the ear conchae, so clinicians can combine Masimo SET® performance and central monitoring to provide quick access and responsive assessment of oxygenation. The E1® Sensor is ideal for field emergency medical services utilization.
Rainbow® Sensors. We believe we were the first to develop proprietary, multi-wavelength sensors for use with our rainbow® Pulse CO-Oximetry products. As opposed to traditional sensors that only have the capability to monitor arterial blood oxygen
saturation levels and pulse rate, our rainbow® sensors can also monitor carboxyhemoglobin, methemoglobin and hemoglobin. Our licensed rainbow® SET® sensors are the only sensors that are compatible with our licensed rainbow® SET® products. Rainbow® sensors are available in single-patient use, ReSposable, and reusable spot-check sensor types.
Rainbow Acoustic™ Sensors. We believe we were the first to develop a continuous respiration rate monitoring technology based on an acoustic sensor placed on the patient’s neck. Our rainbow Acoustic™ Sensors detect the sounds associated with breathing, and convert the sounds into continuous respiration rate using proprietary signal processing that is based on Masimo SET®.
SedLine® sensor. Used exclusively with the SedLine® monitor, the SedLine® sensor is a disposable sensor that collects a high volume of brain function data from key areas of the frontal lobe.
Rainbow® Universal ReSposable SuperSensor™. This sensor, which is not currently available for sale in the U.S., is the first noninvasive sensor to provide simultaneous monitoring of SpHb®, SpCO®, SpMet®, SpfO2™, SpOC™, Perfusion Index, PVI®, and Measure-Through Motion and Low Perfusion SpO2 and pulse rate.
We offer our customers choices for reducing pollution and waste in our world while also reducing costs, including Masimo Reprocessed Sensors, the only reprocessing solution that maintains new Masimo sensor performance, and rainbow ReSposable® Sensors, offering unprecedented sustainability with a lower carbon footprint and greater waste reduction than reprocessing or new sensors. Rainbow ReSposable® Sensors offer equivalent performance and comfort to single-patient use sensors and a similar sensor price-per-patient to mixed third-party reprocessed and new sensors.
Remote Alarm and Monitoring Solutions
Masimo Patient SafetyNet™. Patient SafetyNet™ is a remote monitoring and clinician notification system. It instantly routes bedside-generated alarms through a server to a qualified clinician’s handheld paging device in real-time. Each system can support up to 80 bedside monitors and can either be integrated into a hospital’s existing IT infrastructure or operate as a stand-alone wireless network.
Software
All of our monitors, including Radical-7® and certain future OEM products, which incorporate the MX board, will allow purchases of software for rainbow® measurements as well as other future measurements or features that can be field installed. In October 2010, we debuted Halo Index™, which is CE marked but is not currently available for sale in the U.S. Halo Index™ is a dynamic indicator that facilitates continuous global trending and assessment of multiple physiological measurements to quantify changes in patient status. Currently, clinicians monitor multiple clinical measurements on each patient and respond independently to each of the measurements. Halo Index™ is a single displayed value on the Patient SafetyNet™ remote monitoring and notification system, which facilitates simple and comprehensive assessment within a single index. In the future, subject to receipt of regulatory clearance, we expect Halo Index™ will also be available as part of our standalone devices and OEM boards. As more clinical evidence is collected on Halo Index™, its clinical utility in a variety of care areas and patient types will become more specific.
X-Cal™
In 2011, we implemented a technology called X-Cal™ in our sensors, cables and instruments to enhance patient safety and improve clinician efficiency. X-Cal™ preserves system quality, performance and reliability by reducing imitation sensor and cable use and monitoring component life. The technical benefit of X-Cal™ is based on the fact that the Masimo sensors, patient cables and instruments work as an integrated system to provide the physiologic measurements that have advanced the standard of care.
X-Cal™ addresses three common problems experienced by clinicians using an integrated Masimo system, including:
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• | Patient safety may be severely compromised by using imitation Masimo sensors and cables because they are not produced with comparable components, do not provide proper shielding from ambient interferences, create electrostatic noise caused by motion, do not have our quality and performance controls, and are not tested or warranted to work within a Masimo system; |
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• | We design our sensors and cables to last well beyond their warranty and customer feedback indicates our sensors and cables last significantly longer than competing products, but cable and sensor reliability may still be compromised when used beyond the life they were reliably designed for, affecting patient care and causing clinicians and biomedical engineers to spend time troubleshooting intermittent cable and sensor issues; and |
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• | We believe that third-party reprocessed pulse oximetry sensors introduce challenges in the clinical environment due to potential quality issues. Internal Masimo testing indicates that 91% of a leading third-party reprocessor’s sensors tested failed to meet our performance specifications. In fact, most third-party reprocessed sensors do not indicate that they are capable of performing in measure through motion or low perfusion conditions or neonatal |
applications, key performance requirements available with Masimo SET® sensors. Also, no third-party company has attempted to reprocess rainbow® SET sensors.
Sales and Marketing
We have sales and marketing employees in the U.S. and abroad. We expect to continue to increase our worldwide sales and sales support organizations as we continue to expand our presence throughout both the U.S. and throughout the world including Europe, the Middle East, Asia, Latin America, Canada and Australia. We currently sell all of our medical products both directly to hospitals and the alternate care market via our sales force, and certain distributors. We sell our non-medical/consumer products through e-commerce Internet sites such as Amazon.com.
The primary focus of our sales representatives is to facilitate the conversion of competitor accounts to our Masimo SET® pulse oximetry products, expand the use of Masimo SET® and Patient SafetyNet™ on the general floor, and create new use of rainbow® measurements in both critical care and non-critical care areas. In addition to sales representatives, we employ clinical specialists to work with our sales representatives to educate end-users on the benefits of Masimo SET® and assist with the introduction and implementation of our technology and products to their sites. Our sales and marketing strategy for pulse oximetry has been and will continue to be focused on building end-user awareness of the clinical and cost-saving benefits of our Masimo SET® platform. More recently, we have expanded this communication and educational role to include our Masimo rainbow® Pulse CO-Oximetry and rainbow Acoustic Monitoring™ products, including hemoglobin, carboxyhemoglobin, methemoglobin, PVI®, acoustic respiration rate, and Halo Index™. During 2013, we began to build a new dedicated worldwide blood management sales force whose primary focus is working with hospitals to identify new opportunities to deploy our life-saving and cost-reducing SpHb® technology. Our direct and distributor revenue accounted for 85% of our total product revenue in 2013. For the year ended December 28, 2013, two just-in-time distributors, Owens & Minor and Cardinal Health, represented approximately 13% and 11%, respectively, of our total revenue. These were the only customers that represented 10% or more of our revenue for the year ended December 28, 2013. Importantly, distributors take and fulfill orders from our direct customers, many of whom have signed long-term sensor purchase agreements with us. As a result, in the event a specific just-in-time distributor is unable to fulfill these orders, the orders will be redirected to other distributors or fulfilled directly by us.
Additionally, we sell certain of our products through our OEM partners who both incorporate our boards into their monitors and resell our sensors to their customers’ installed base of Masimo SET® products. Our OEM agreements allow us to expand the availability of Masimo SET® through the sales and distribution channels of each OEM partner. To facilitate clinician awareness of Masimo SET® installations, all of our OEM partners have agreed to place the Masimo SET® logo prominently on their instruments.
In order to facilitate our direct sales to hospitals, we have signed contracts with companies that we believe to be the five largest GPOs, based on the total volume of negotiated purchases. In return for the GPOs putting our products on contract, we have agreed to pay the GPOs a percentage of our revenue from their member hospitals. In 2013 and 2012, revenue from the sale of our pulse oximetry products to hospitals that are associated with GPOs amounted to $287.9 million and $253.7 million, respectively.
Our marketing efforts are designed to build end-user awareness through digital and print advertising, direct mail and trade shows. In addition, we distribute published clinical studies, sponsor accredited educational seminars for doctors, nurses, biomedical engineers, and respiratory therapists and conduct clinical evaluations. During 2014, we expect to modestly increase the size of our field force worldwide, as we continue to establish and expand our sales channels on a global basis.
Competition
The medical device industry is highly competitive and many of our competitors have substantially greater financial, technical, marketing and other resources than we do. While we regard any company that sells pulse oximeters as a potential customer, we also recognize that the companies selling pulse oximeters on an OEM basis and/or pulse oximetry sensors are also potential competitors. Our primary competitor, Covidien Ltd. and its subsidiary Nellcor Puritan Bennett, Inc., currently hold a substantial share of the pulse oximetry market. Covidien sells its own brand of Nellcor pulse oximeters to end-users, sells pulse oximetry modules to other monitoring companies on an OEM basis, and licenses to certain OEMs the right to make their pulse oximetry platforms compatible with Nellcor sensors. We face substantial competition from larger medical device companies, including companies that develop products that compete with our proprietary Masimo SET®. We believe that a number of companies have announced products that claim to offer Measure-Through Motion accuracy. Based on those announcements and our investigations, we further believe that many of these products include technology that infringes our intellectual property rights. We have settled claims against some of these companies and intend to vigorously enforce and protect our proprietary rights with respect to the others whom we believe are infringing our technology. Some of the remaining companies, including GE Medical Systems, are also currently OEM partners of ours.
We believe that the principal competitive factors in the market for pulse oximetry products include:
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• | accurate monitoring during both patient motion and low perfusion; |
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• | ability to introduce other clinically beneficial measurements related to oxygenation and respiration, such as noninvasive and continuous hemoglobin and acoustic respiration rate; |
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• | competitive pricing, including bundling practices; |
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• | brand recognition and perception of innovation abilities; |
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• | sales and marketing capability; |
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• | access to hospitals which are members of GPOs; |
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• | recent proliferation of integrated delivery networks; |
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• | access to OEM partners; and |
Cercacor Laboratories, Inc.
Cercacor Laboratories, Inc., (Cercacor) is an independent entity spun-off from us to our stockholders in 1998. Joe Kiani and Jack Lasersohn, members of our board of directors, are also members of the board of directors of Cercacor. Joe Kiani, our Chairman and Chief Executive Officer, is also the Chairman and Chief Executive Officer of Cercacor.
We have a cross-licensing agreement, (Cross-Licensing Agreement) with Cercacor for certain technologies. The following table outlines our rights under the Cross-Licensing Agreement relating to specific end user markets and the related technology applications of specific measurements.
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| | End User Markets |
Measurements | | Professional Caregiver and Alternate Care Market | | Patient and Pharmacist |
Vital Signs(1) | | Masimo (owns) | | Cercacor (non-exclusive license) |
Non-Vital Signs(2) | | Masimo (exclusive license) | | Cercacor (owns or exclusive license) |
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(1) | Vital Signs measurements include, but are not limited to, SpO2, peripheral venous oxygen saturation, mixed venous oxygen saturation, fetal oximetry, sudden infant death syndrome, ECG, blood pressure (noninvasive blood pressure, invasive blood pressure and continuous noninvasive blood pressure), temperature, respiration rate, CO2, pulse rate, cardiac output, EEG, perfusion index, depth of anesthesia, cerebral oximetry, tissue oximetry and/or EMG, and associated features derived from these measurements, such as 3-D alarms, PVI® and other features. |
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(2) | Non-Vital Signs measurements include the body fluid constituents other than vital signs measurements and include, but are not limited to, carbon monoxide, methemoglobin, blood glucose, hemoglobin and bilirubin. |
Our License to Cercacor. We granted Cercacor an exclusive, perpetual and worldwide license, with sublicense rights, to use Masimo SET® for the monitoring of non-vital signs measurements and to develop and sell devices incorporating Masimo SET® for monitoring non-vital signs measurements in the Cercacor Market. We also granted Cercacor a non-exclusive, perpetual and worldwide license, with sublicense rights, to use Masimo SET® for the measurement of vital signs in the Cercacor Market. In exchange, Cercacor pays us a 10% royalty on the amount of vital signs sensors and accessories sold by Cercacor.
The Cercacor Market is defined as any product market in which a product is intended to be used by a patient or pharmacist rather than a professional medical caregiver regardless of the particular location of the sale, including sales to doctors, hospitals, alternate care market professionals or otherwise, provided the product is intended to be recommended, or resold, for use by the patient or pharmacist.
Cercacor’s License to us. We exclusively licensed from Cercacor the right to make and distribute products in the Masimo Market that utilize rainbow® technology for the measurement of carbon monoxide, methemoglobin, fractional arterial oxygen saturation, and hemoglobin, which includes hematocrit. In December 2013, we exercised our option to license five additional measurements pursuant to the existing Cross-Licensing Agreement. Additionally, we make and distribute products that monitor respiration rate via rainbow Acoustic Monitoring™, which is not required to be licensed from Cercacor. To date, we have developed and commercially released devices that measure carbon monoxide, methemoglobin and hemoglobin using licensed rainbow® technology. We also have the option to obtain exclusive licenses to make and distribute products in the Masimo Market that utilize rainbow® technology for the monitoring of other non-vital signs measurements, including blood glucose.
These licenses are exclusive until the later of 20 years from the grant of the applicable license or the expiration of the last patent included in the rainbow® technology related to the applicable measurements.
The Masimo Market is defined as those product markets where the product is intended to be used by a professional medical caregiver, including hospital caregivers, surgicenter caregivers, paramedic vehicle caregivers, doctor’s offices caregivers, alternate care facility caregivers and vehicles where alternative care services are provided.
Our license to rainbow® technology for these measurements in these markets is exclusive on the condition that we continue to pay Cercacor royalties on our products incorporating rainbow® technology, subject to certain minimum aggregate royalty thresholds, and that we use commercially reasonable efforts to develop or market products incorporating the licensed rainbow® technology. The royalty is up to 10% of the rainbow® royalty base, which includes handhelds, tabletop and multiparameter devices. Handheld products incorporating rainbow® technology will carry a 10% royalty rate. For other products, only the proportional amount attributable for that portion of our devices used to monitor non-vital signs measurements, rather than for monitoring vital signs measurements, and sensors and accessories for measuring only non-vital sign parameters will be included in the 10% rainbow® royalty base. For multiparameter devices, the rainbow® royalty base will include the percentage of the revenue based on the number of rainbow® enabled measurements. For hospital contracts where we place equipment and enter into a sensor contract, we pay a royalty to Cercacor on the total sensor contract revenue based on the ratio of rainbow® enabled devices to total devices. During the year ended December 28, 2013 and going forward, we are subject to certain specific annual minimum aggregate royalty payment obligations of $5.0 million per year.
We have 180 days after proof of feasibility to exercise the above-referenced option to obtain a license for the measurement of blood glucose for an additional $2.5 million and licenses for the remaining non-vital signs measurements for an additional $0.5 million each. During the year ended December 28, 2013, we exercised our right to license five new non-vital sign measurements for $0.5 million each, or $2.5 million. As of December 28, 2013, we are evaluating the feasibility of a number of other measurements. Pending the results of our evaluations, we may or may not exercise our right to license any or all of these additional measurements. During the year ended December 28, 2013, Cercacor incurred a total of $6.3 million in operating expenses.
Change in Control. The Cross-Licensing Agreement provides that, upon a change in control:
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• | if the surviving or acquiring entity ceases to use “Masimo” as a company name and trademark, all rights to the “Masimo” trademark will be assigned to Cercacor; |
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• | the option to license technology developed by Cercacor for use in blood glucose monitoring will be deemed automatically exercised and a $2.5 million license fee for this technology will become immediately payable to Cercacor; |
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• | per product minimum royalties, to the extent less than the annual minimums, will be payable to Cercacor; and, |
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• | the minimum aggregate annual royalties payable to Cercacor for carbon monoxide, methemoglobin, fractional arterial oxygen saturation, hemoglobin, and/or glucose is $15.0 million per year until the exclusive period of the agreement ends, plus up to $2.0 million for each additional measurement. |
A change in control includes any of the following with respect to us or Cercacor:
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• | the sale of all or substantially all of either company’s assets to a non-affiliated third-party; |
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• | the acquisition by a non-affiliated third-party of 50% or more of the voting power of either company; |
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• | Joe Kiani, our Chief Executive Officer and the Chief Executive Officer of Cercacor, resigns or is terminated from his position with either company; and |
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• | the merger or consolidation of either company with a non-affiliated third-party. |
Ownership of Improvements. Any improvements to Masimo SET® or rainbow® technology made by Cercacor, by us, or jointly by Cercacor with us or with any third-party that relates to non-vital signs monitoring, and any new technology acquired by Cercacor, is and will be owned by Cercacor. Any improvements to the Masimo SET® platform or rainbow® technology made by Cercacor, by us, or jointly by Cercacor with us or with any third-party that relates to vital signs monitoring, and any new technology acquired by us, is and will be owned by us. However, for both non-vital signs and vital signs monitoring, any improvements to the technology, excluding acquired technology, will be assigned to the other party and be subject to the terms of the licenses granted under the Cross-Licensing Agreement. Any new non-vital signs monitoring technology utilizing Masimo SET® that we develop will be owned by Cercacor and will be subject to the same license and option fees as if it had been developed by Cercacor. Also, we will not be reimbursed by Cercacor for our expenses relating to the development of any such technology.
Cercacor Services Agreement (Services Agreement). We have also entered into a services agreement with Cercacor. Under this Services Agreement, we provide Cercacor with accounting, human resources and legal services, which we collectively refer to as indirect expenses. We expect Cercacor to continue to engage us for these services. However, pursuant to the Services Agreement, Cercacor may terminate the agreement by providing us a 30 day notice, while we may terminate with a 180 day notice to Cercacor.
Cercacor’s Expenses related to Pronto-7®. In February 2009, we and Cercacor agreed that in order to accelerate the development of the technology supporting this product, Cercacor would re-direct a substantial amount of its engineering development activities to focus on this project for our benefit. Accordingly, we and Cercacor agreed that from April 2009 through June 2010, the completion of this product development effort, 50% of Cercacor’s engineering and engineering related expenses and all third-party engineering supply expenses related to Pronto-7® development would be charged to us. Since July 2010, Cercacor has continued to assist us with other product development efforts and charged us accordingly. Beginning in 2012, due to a revised estimate of the support required by us to complete the various Pronto-7® related projects, our Board of Directors approved an increase in the percentage of Cercacor’s total engineering and engineering related payroll expenses funded by us from 50% to 60%. For the year ended December 28, 2013, the total funding for these additional Cercacor expenses was $4.1 million. Both companies have agreed to maintain this arrangement until we notify Cercacor that we no longer require this engineering support.
Research and Product Development
We believe that ongoing research and development efforts are essential to our success. We expect to increase the size of our research and development staff during 2014. Our research and development efforts focus primarily on continuing to enhance our technical expertise in pulse oximetry, enabling the noninvasive monitoring of other measurements and developing remote alarm and monitoring solutions.
Although we and Cercacor each have separate research and development projects, we collaborate with Cercacor on multiple research and development activities related to rainbow® technology and other technologies. Under the Cross-Licensing Agreement, the parties have agreed to allocate proprietary ownership of technology developed by either party based on the functionality of the technology. We will have proprietary rights to all technology related to the noninvasive measurement of vital signs measurements, and Cercacor will have proprietary ownership of all technology related to the noninvasive monitoring of non-vital signs measurements.
Our total research and development expenditures for 2013 were $55.6 million, which included $3.9 million related to expenses incurred by Cercacor pursuant to the Cross-Licensing Agreement. In 2012, our total research and development expenditures were $47.1 million, which included $3.7 million related to expenses incurred by Cercacor. In 2011, our total research and development expenditures were $38.4 million, which included $3.4 million related to expenses incurred by Cercacor. We expect our research and development expenses to increase in 2014 and beyond as we expand our research and development force, enhance our existing products and technologies and develop new product candidates.
Intellectual Property
We believe that in order to maintain a competitive advantage in the marketplace, we must develop and maintain protection of the proprietary aspects of our technology. We rely on a combination of patent, trademark, trade secret, copyright and other intellectual property rights and measures to protect our intellectual property.
We have developed a patent portfolio internally, and to a lesser extent through acquisitions and licensing, that covers many aspects of our product offerings. As of December 28, 2013, we had 425 issued patents and 249 pending applications in the U.S., Europe, Japan, Australia, Canada and other countries throughout the world. In addition, as of December 28, 2013, technology we licensed from our development partner, Cercacor, was supported by 183 issued patents and 144 pending applications in the U.S. and internationally. Some of our earliest patents began to expire in 2013. Some of Cercacor’s earliest patents also began to expire in 2013. Additionally, as of December 28, 2013, we owned 61 U.S. registered trademarks and 167 foreign registered trademarks, as well as trade names that we use in conjunction with the sale of our products.
Under the Cross-Licensing Agreement, we and Cercacor have agreed to allocate proprietary ownership of technology developed based on the functionality of the technology. We will have proprietary ownership, including ownership of all patents, copyrights and trade secrets, of all technology related to the noninvasive monitoring of vital signs measurements, and Cercacor will have proprietary ownership of all technology related to the noninvasive monitoring of non-vital signs measurements. We also rely upon trade secrets, continuing technological innovations and licensing opportunities to develop and maintain our competitive position. We seek to protect our trade secrets and proprietary know-how, in part, with confidentiality agreements with consultants, vendors and employees, although we cannot be certain that the agreements will not be breached, or that we will have adequate remedies for any breach.
There are risks related to our intellectual property rights. For further detail on these risks, see “Risks Related to Our Intellectual Property” under Item 1A - “Risk Factors” in this on Form 10-K.
Government Regulation
Food and Drug Administration (FDA) Premarket Clearance and Approval Requirements
The FDA, along with other federal, state and local authorities, regulates our products and product-related activities. Pursuant to the U.S. Food, Drug, and Cosmetic Act (FDCA) and the regulations promulgated under that Act, the FDA regulates the design, development, clinical trials, testing, manufacture, packaging, labeling, storage, distribution and promotion of medical devices. We endeavor to ensure that our products and procedures remain in material compliance with all applicable FDA regulations, but the regulations regarding the manufacture and sale of our products are subject to change. We cannot predict the effect, if any, that these changes might have on our business, financial condition and results of operations. Unless an exemption applies, each medical device that we wish to market in the U.S. must first receive from FDA either 510(k) clearance, by filing a 510(k) pre-market notification, or PMA approval, by filing a Premarket Approval application (PMA).
The FDA’s 510(k) clearance process usually takes from four to twelve months, but it can take longer. The process of obtaining PMA approval is much more costly, lengthy and uncertain. It generally takes from one to three years or even longer. We cannot be sure that 510(k) clearance or PMA approval will be obtained for any product we propose to market on a timely basis or at all. In addition, if the FDA discovers that an applicant has submitted false or misleading information, the FDA may refuse to review submissions until certain requirements are met pursuant to its Application Integrity Policy (AIP). Delays in receipt of or failure to receive such clearances or approvals, the loss of previously received clearances or approvals, or the failure to comply with existing or future regulatory requirements could have a material adverse effect on our business, financial condition and results of operations.
The FDA decides whether a device must undergo either the 510(k) clearance or PMA approval process based upon statutory criteria. These criteria include the level of risk that the agency perceives is associated with the device and a determination of whether the product is a type of device that is similar to devices that are already legally marketed. Devices deemed to pose relatively less risk are placed in either Class I or II, which generally requires the manufacturer to submit a pre-market notification requesting 510(k) clearance, unless an exemption applies.
Class I devices are those for which safety and effectiveness can be assured by adherence to the FDA’s general regulatory controls (General Controls) for medical devices, which include compliance with the applicable portions of the FDA’s Quality System Regulation (QSR) facility registration and product listing, reporting of adverse medical events, and appropriate, truthful and non-misleading labeling, advertising, and promotional materials. Some Class I devices also require premarket clearance by the FDA through the 510(k) premarket notification process.
Class II devices are subject to the FDA’s General Controls, the FDA's Quality System Regulation (QSR), including the Design Control regulations, and any other special controls as deemed necessary by the FDA to ensure the safety and effectiveness of the device. Premarket review and clearance by the FDA for Class II devices is accomplished through the 510(k) premarket notification procedure. All of our current devices are regulated as Class II devices.
To obtain 510(k) clearance, a company must submit a premarket notification demonstrating that the proposed device is “substantially equivalent” in intended use and in technological and performance characteristics to a legally marketed “predicate device” that is either in Class I, Class II, or is a Class III device that was in commercial distribution before May 28, 1976, for which the FDA has not yet called for submission of a PMA application. After a device receives 510(k) clearance, any modification that could significantly affect its safety or effectiveness, or that would constitute a major change in its intended use, requires a new 510(k) clearance or could require a PMA approval. The FDA requires each manufacturer to make this determination in the first instance, but the FDA can review any decision. If the FDA disagrees with a manufacturer’s decision not to seek a new 510(k) clearance, the agency may retroactively require the manufacturer to seek 510(k) clearance or PMA approval. The FDA also can require the manufacturer to cease marketing and/or recall the modified device until 510(k) clearance or PMA approval is obtained.
We have modified some of our 510(k) cleared devices, and in some cases, we have determined that new 510(k) clearances or PMA approvals are not required based on FDA guidance regarding when to submit a new 510(k) notification for changes to a cleared device. We cannot be sure that the FDA would agree with any of our decisions not to seek additional 510(k) clearances or even PMA approval for these or future device modifications. If the FDA requires us to seek 510(k) clearance or PMA approval for any modification, we also may be required to cease marketing and/or recall the modified device until we obtain a new 510(k) clearance or PMA approval.
Class III devices are those devices deemed by the FDA to pose the greatest risk, such as life-sustaining, life-supporting or implantable devices, or those devices deemed not substantially equivalent to a legally marketed predicate device. The safety and effectiveness of Class III devices cannot be assured solely by the General Controls and the other requirements described
above. These devices almost always require formal clinical studies to demonstrate safety and effectiveness and must be approved through the premarket approval process described below.
Class III devices are required to undergo the PMA approval process during which the manufacturer must establish the safety and effectiveness of the device to the FDA’s satisfaction. A PMA application must be supported by valid scientific evidence, including extensive preclinical (including bench tests, and laboratory and animal studies) and clinical trial data as well as information about the device and its components regarding, among other things, device design, manufacturing and labeling. Also during the review period, an advisory panel of experts from outside the FDA may be convened to review and evaluate the application and provide recommendations to the FDA as to the approvability of the device. As part of the PMA application review, the FDA will conduct a preapproval inspection of the manufacturing facility to ensure compliance with the QSR. If the FDA approves the PMA, it may place restrictions on the device, the labeling or require additional clinical studies. If the FDA’s evaluation of the PMA application or the manufacturing facility is not favorable, the FDA may deny approval of the PMA application or issue a “not approvable” letter. The FDA may also require additional clinical trials, which can delay the PMA approval process by several years. None of our products are currently approved under the PMA process.
After the PMA is approved, if significant changes are made to a device, its manufacturing or its labeling, a new PMA or a PMA supplement containing additional information must be filed for FDA approval prior to commercialization of the change to the device. A new PMA or a PMA Supplement is required for modifications that affect the safety or effectiveness of the device, including, for example, certain types of modifications to the device’s indications for use, manufacturing process, manufacturing facility, labeling and design. PMA supplements often require submission of the same type of information as an original PMA application, except that the supplement is limited to information needed to support any changes from the device covered by the original PMA application, and may not require as extensive clinical data or the convening of an advisory panel. None of our products are currently approved under the PMA process.
A clinical trial may be required in support of a 510(k) submission and generally is required for a PMA application. These trials generally require an Investigational Device Exemption (IDE) application approved in advance by the FDA for a specified number of patients, unless the proposed study is deemed a non-significant risk study, which is eligible for an exemption from the IDE requirements. The IDE application must be supported by appropriate data, such as animal and laboratory testing results. Clinical trials may begin if the IDE application is approved by the FDA and the appropriate institutional review boards or (IRBs) at the clinical trial sites. Submission of an IDE application does not give assurance that the FDA will issue the IDE. If the IDE application is approved, there can be no assurance the FDA will determine that the data derived from the trials support the safety and effectiveness of the device or warrant the continuation of clinical trials. An IDE supplement must be submitted to and approved by the FDA before a sponsor or investigator may make a change to the investigational plan that may affect its scientific soundness, study indication or the rights, safety or welfare of human subjects. The trial must also comply with the FDA’s regulations, including the requirement that informed consent be obtained from each subject. Even if a trial is completed, the results of clinical testing may not adequately demonstrate the safety and efficacy of the device or may otherwise not be sufficient to obtain FDA clearance to market the product in the U.S.
We believe that our OEM partners may be required to obtain 510(k) premarket clearance from the FDA for certain of their products that incorporate Masimo SET® or Masimo rainbow® SET® circuit boards and sensors. In order to facilitate our OEM partners in obtaining 510(k) clearance for their products that incorporate Masimo SET® or Masimo rainbow® SET® boards and sensors, we grant our OEM partners a right to cross-reference the files from our cleared Masimo SET® circuit boards, sensor, cable and notification system 510(k) submissions.
We recently launched iSpO2®, a non-medical use pulse oximeter intended for sports and aviation use. We are marketing this product in accordance with the FDA’s current policy and enforcement discretion which indicates that pulse oximeters that are not intended for medical purposes can be marketed directly to consumers without first obtaining clearance of a 510(k). We cannot assure you that the FDA will not change its policy regarding the regulation of these products. If the FDA changes its policy, we may be required to seek 510(k) clearance to market this pulse oximeter. We also may be required to cease marketing and/or recall the product until we obtain a new 510(k) clearance.
User Fees
Pursuant to the Medical Device User Fee and Modernization Act of 2002 (MDUFMA) and the Medical Device User Fee Amendments of 2012 (MDUFA III) provisions of the Food and Drug Administration Safety and Innovation Act (FDASIA), unless a specific exemption applies, both 510(k) submissions and PMA applications are subject to user fees. The PMA user fees are significantly higher.
Pervasive and Continuing FDA Regulation
After a device is placed on the market, it continues to be subject to the FDA’s regulatory authority. FDA regulatory requirements include:
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• | product listing and establishment registration, which helps facilitate FDA inspections and other regulatory action; |
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• | QSR and current good manufacturing practices, which requires manufacturers, including third-party manufacturers, to follow stringent design control, testing, change control, documentation and other quality assurance procedures during all aspects of the development and manufacturing process; including requirements for packaging, labeling and record keeping, complaint handling, corrective and preventive actions and internal auditing; |
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• | labeling control and advertising regulations, including FDA prohibitions against the promotion of products for uncleared, unapproved or off-label uses or indications; |
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• | clearance of product modifications that could significantly affect safety or efficacy or that would constitute a major change in intended use of one of our cleared devices; |
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• | approval of product modifications that affect the safety or effectiveness of one of our future approved devices; |
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• | medical device reporting, or MDR, regulations, which require that manufacturers comply with FDA requirements to report if their device may have caused or contributed to a death or serious injury, or has malfunctioned in a way that would likely cause or contribute to a death or serious injury if the malfunction of the device or a similar device were to recur; |
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• | post-approval restrictions or conditions, including post-approval study commitments; |
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• | post-market surveillance requirements, which apply when necessary to protect the public health or to provide additional safety and effectiveness data for the device; |
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• | the FDA’s recall authority, whereby it can ask, or under certain conditions order, device manufacturers to recall from the market a product that is in violation of its conditions of approval, governing laws and/or regulations; |
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• | regulations pertaining to voluntary recalls; and |
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• | notices of corrections or removals. |
We must also register with the FDA as a medical device manufacturer, list all products placed in commercial distribution and obtain all necessary state permits or licenses to operate our business. As a manufacturer, we are subject to announced and unannounced inspections by the FDA to determine our compliance with FDA’s QSR and other regulations.
Our OEM partners also are subject to inspection and market surveillance by the FDA to determine compliance with regulatory requirements. If the FDA finds that we or one of our OEM partners have failed to comply, the agency can institute a wide variety of enforcement and other regulatory actions, including:
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• | an FDA Form 483, which is issued by the FDA at the conclusion of an inspection when an investigator has observed any conditions that may constitute violations of the FDCA and related Acts; |
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• | a public warning letter outlining potential violations of the FDCA; |
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• | fines and civil penalties, against us and/or OEM partners; |
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• | unanticipated expenditures to address or defend such actions; |
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• | delays in clearing or approving, or refusal to clear or approve, our products; |
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• | withdrawal or suspension of clearances and/or approvals of our products or those of our third-party suppliers by the FDA or other regulatory bodies; |
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• | product detention or seizure; |
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• | interruption of production; |
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• | refusal to provide export certificates, which may be necessary to permit the export of devices from the U.S. to other countries; |
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• | injunctions of future violations (including those agreed to in a consent decree); and |
The FDA also has the authority to request repair, replacement or refund of the cost of any medical device manufactured or distributed by us. Our failure or the failure of our OEM partners to comply with applicable requirements could lead to an enforcement action that may have an adverse effect on our business, financial condition and results of operations.
Advertising and Promotion
Advertising and promotion of medical devices, in addition to being regulated by the FDA, are also regulated by the Federal Trade Commission (FTC) and by federal and state regulatory and enforcement authorities, including the FDA, the Department of Justice, the Office of Inspector General of the Department of Health and Human Services, and various state attorneys general. Although physicians are permitted to use their medical judgment to use medical devices for indications other than those cleared or approved by the FDA, we may not promote our products for such “off-label” uses, and can only market our products for cleared or approved uses. Recently, promotional activities for FDA-regulated products of other companies have been the subject of enforcement actions brought under healthcare reimbursement laws and consumer protection statutes. In addition, under the federal Lanham Act and similar state laws, competitors and others can initiate litigation relating to advertising claims. If the FDA determines that our promotional materials or training constitute promotion of an uncleared or unapproved use, it could request that we modify our training or promotional materials or subject us to regulatory or enforcement actions, including the issuance of an untitled letter, a notice of violation, a warning letter, injunction, seizure, civil fine or criminal penalties. FTC enforcement actions often result in consent decrees that constrain future actions. If an enforcement action is brought by the FDA or the FTC, our reputation could be damaged and adoption of the products would be impaired.
Import and Export Requirements
To import a device, the importer must file an entry notice and bond with the United States Bureau of Customs and Border Protection (CBP). All devices are subject to FDA examination before release from CBP. Any article that appears to be in violation of the FDCA may be refused admission and a notice of detention and hearing may be issued. If the FDA ultimately refuses admission, the CBP may issue a notice for redelivery and assess liquidated damages for up to three times the value of the lot. The CBP also imposes its own regulatory requirements on the import of our products, including inspection and possible sanctions for noncompliance.
Products exported from the United States are subject to foreign countries’ import requirements and the exporting requirements of the FDA or European regulating bodies, as applicable. In particular, international sales of medical devices manufactured in the United States that are not approved or cleared by the FDA for use in the United States, or are banned or deviate from lawful performance standards, are subject to FDA export requirements.
Foreign countries often require, among other things, an FDA certificate for products for export, also called a Certificate for Foreign Government. To obtain this certificate from the FDA, the device manufacturer must apply to the FDA. The FDA certifies that the product has been granted clearance or approval in the United States and that the manufacturing facilities were in compliance with QSR regulations at the time of the last FDA inspection. If FDA determines that our facilities or procedures do not comply with the QSR regulations, it may refuse to provide such certificates until we resolve the issues to the FDA’s satisfaction.
Foreign Regulation Regarding Clearance and Approval
Many foreign countries in which we market or may market our products have regulatory bodies and restrictions similar to those of the FDA. International sales are subject to foreign government regulation, the requirements of which vary substantially from country to country. The time required to obtain approval by a foreign country may be longer or shorter than that required for FDA clearance and the requirements may differ.
In particular, marketing of medical devices in the European Economic Area (EEA) is subject to compliance with European Medical Device Directives. Under this regime, a medical device may be placed on the market within the EEA if it conforms to certain “essential requirements” and bears the European Conformity (CE) mark. The most fundamental and essential requirement is that a medical device must be designed and manufactured in such a way that it will not compromise the clinical condition or safety of patients, or the safety and health of users and others. In addition, the device must achieve the essential performance(s) intended by the manufacturer and be designed, manufactured and packaged in a suitable manner.
Manufacturers must demonstrate that their devices conform to the relevant essential requirements through a conformity assessment procedure. The nature of the assessment depends upon the classification of the device. The classification rules are mainly based on three criteria: the length of time the device is in contact with the body, the degree of invasiveness and the extent to which the device affects the anatomy. Conformity assessment procedures for all but the lowest risk classification of device involve a notified body. Notified bodies are often private entities and are authorized or licensed to perform such assessments by government authorities. Manufacturers usually have some flexibility to select conformity assessment procedures for a particular class of device and to reflect their circumstances, e.g., the likelihood that the manufacturer will make frequent modifications to its products. Conformity assessment procedures require an assessment of available clinical evidence, literature data for the product and post-market experience in respect of similar products already marketed. Notified bodies also may review the manufacturer’s quality systems. If satisfied that the product conforms to the relevant essential requirements, the notified body issues a certificate of conformity, which the manufacturer uses as a basis for its own declaration of conformity
and application of the CE mark. Application of the CE mark allows the product to be distributed throughout the EEA. We do have CE marking on all of our products that require such markings.
We cannot assure you that we or our OEM partners will be able to obtain necessary foreign government approvals or successfully comply with foreign regulations. Our failure to do so could hurt our business, financial condition and results of operations.
Other U.S. and Foreign Regulation
We and our OEM partners also must comply with numerous federal, state and local laws relating to matters such as safe working conditions, manufacturing practices, environmental protection, fire hazard control and hazardous substance disposal. We cannot be sure that we will not be required to incur significant costs to comply with these laws and regulations in the future or that these laws or regulations will not hurt our business, financial condition and results of operations. Unanticipated changes in existing regulatory requirements or adoption of new requirements could hurt our business, financial condition and results of operations.
The Physician Payment Sunshine Act (Sunshine Act) which was enacted by Congress as part of the Patient Protection and Affordable Care Act on March 23, 2010, requires medical device companies to track and publicly report, with limited exception, all payments and transfers of value to physicians and teaching hospitals in the U.S. Implementing regulations for these tracking and reporting obligations were finalized in 2013, and companies are now required to track payments made since August 1, 2013. Masimo is required to report payments to the government by March 31, 2014, and annually thereafter. If we fail to comply with the data collection and reporting obligations imposed by the Sunshine Act, we may be subject to substantial civil monetary penalties. In addition, in December 2005 the International Electrotechnical Commission published a revised version of its standard for medical electrical equipment, IEC, 60601-1:2005 (3rd edition). In this publication, standards are listed as general requirements concerning basic safety and the essential performance of equipment. These new standards were required to be in place by June 1, 2012 in Europe and by December 31, 2013 in the U.S. for new submissions. Failure to adhere to this regulation will prevent us from using our equipment in our clinical trials. As a result, we could be found in breach of existing customer contracts and/or unable to obtain new contracts, both of which could adversely affect our business, financial condition and results of operations.
Medical Device Tax
In March 2010, the U.S. Congress adopted and President Obama signed into law comprehensive health care reform legislation. Among other initiatives, these laws impose significant new taxes on medical device makers in the form of a 2.3% excise tax on U.S. medical device sales, with certain exemptions, beginning on January 1, 2013. For the year ended December 28, 2013, we recorded $6.3 million in medical device taxes that are included in our selling, general and administrative expenses.
Conflict Minerals and Supply Chain
We are subject to SEC rules adopted pursuant to the Dodd-Frank Wall Street Reform and Consumer Protection Act concerning “conflict minerals” (generally tin, tantalum, tungsten and gold). Certain of these conflict minerals are used in the manufacture of our products. Although the rules are being challenged in court, in their present form they require us to investigate the source of any conflict minerals necessary to the production or functionality of our products. If any such conflict minerals originated in the Democratic Republic of the Congo or adjoining countries (the “DRC region”), we must undertake comprehensive due diligence to determine whether such minerals financed or benefited armed groups in the DRC region. The rules also require us to file conflict mineral reports with the SEC annually, beginning in May 2014.
We have incurred, and expect to continue to incur additional costs to comply with these rules, including costs related to determining the source of origin of conflict minerals used in our products. Our supply chain is complex and we may not be able to verify the origin of all conflict minerals used in our products. Further, our ongoing compliance with these rules could affect the pricing, sourcing and availability of minerals used in the manufacture of our products. We may also encounter challenges with our customers and stockholders if we are unable to certify that our products are free of conflict minerals.
We may become subject to similar rules regarding conflict minerals under consideration in the European Union, and we are also subject to disclosure requirements regarding abusive labor practices in portions of our supply chain under the California Transparency in Supply Chains Act, each of which could increase our costs of doing business and adversely affect our results of operations.
Environmental
Our manufacturing processes involve the use, generation and disposal of solid wastes, hazardous materials and hazardous wastes, including silicone adhesives, solder and solder paste, sealants, epoxies and various solvents such as methyl ethyl ketone, acetone and isopropyl alcohol. As such, we are subject to stringent federal, state and local laws relating to the protection
of the environment, including those governing the use, handling and disposal of hazardous materials and wastes. Products that we sell in Europe are subject to regulation in European Union, or EU, markets under the Restriction of the Use of Hazardous Substances Directive, or RoHS. RoHS prohibits companies from selling products which contain certain hazardous materials, including lead, mercury, cadmium, chromium, polybrominated biphenyls and polybrominated diphenyl ethers, in EU member states. In addition, the EU’s Registration, Evaluation, Authorization, and Restriction of Chemicals Directive also restricts substances of very high concern in products.
Future environmental laws may require us to alter our manufacturing processes, thereby increasing our manufacturing costs. We believe that our products and manufacturing processes at our facilities comply in all material respects with applicable environmental laws and worker health and safety laws; however, the risk of environmental liabilities cannot be completely eliminated.
Health Care Fraud and Abuse
In the U.S., there are federal and state anti-kickback laws that generally prohibit the payment or receipt of kickbacks, bribes or other remuneration in exchange for the referral of patients or other health-related business. For example, the Federal Health Care Programs’ Anti-Kickback Law (42 U.S.C. § 1320a-7b(b)) prohibits anyone from, among other things, knowingly and willfully offering, paying, soliciting or receiving any bribe, kickback or other remuneration intended to induce the referral of patients for, or the purchase, order or recommendation of, health care products and services reimbursed by a federal health care program, including Medicare and Medicaid. Recognizing that the federal anti-kickback law is broad and potentially applicable to many commonplace arrangements, Congress and the Office of Inspector General within the Department of Health and Human Services, or OIG, have created statutory “exceptions” and regulatory “safe harbors.” Exceptions and safe harbors exist for a number of arrangements relevant to our business, including, among other things, payments to bona fide employees, certain discount and rebate arrangements, and certain payment arrangements involving GPOs. Although an arrangement that fits into one or more of these exceptions or safe harbors is immune from prosecution, arrangements that do not fit squarely within an exception or safe harbor do not necessarily violate the law, but the OIG or other government enforcement authorities may examine the practice to determine whether it involves the sorts of abuses that the statute was designed to combat. Violations of this federal law can result in significant penalties, including imprisonment, monetary fines and assessments, and exclusion from Medicare, Medicaid and other federal health care programs. Exclusion of a manufacturer, like us, would preclude any federal health care program from paying for its products. In addition to the federal anti-kickback law, many states have their own laws that parallel and implicate anti-kickback restrictions analogous to the federal anti-kickback law, but may apply regardless of whether any federal health care program business is involved. Federal and state anti-kickback laws may affect our sales, marketing and promotional activities, educational programs, pricing and discount practices and policies, and relationships with health care providers by limiting the kinds of arrangements we may have with hospitals, alternate care market providers, GPOs, physicians and others in a position to purchase or recommend our products.
Federal and state false claims laws prohibit anyone from presenting, or causing to be presented, claims for payment to third-party payers that are false or fraudulent. For example, the Federal Civil False Claims Act (31 U.S.C. § 3729 et seq.) imposes liability on any person or entity who, among other things, knowingly and willfully presents, or causes to be presented, a false or fraudulent claim for payment by a federal health care program, including Medicaid and Medicare. Some suits filed under the False Claims Act, known as “qui tam” actions, can be brought by a “whistleblower,” or “relator” on behalf of the government and such individuals may share in any amounts paid by the entity to the government in fines or settlement. Manufacturers, like us, can be held liable under false claims laws, even if they do not submit claims to the government, where they are found to have caused submission of false claims by, among other things, providing incorrect coding or billing advice about their products to customers that file claims, or by engaging in kickback arrangements with customers that file claims. A number of states also have false claims laws, and some of these laws may apply to claims for items or services reimbursed under Medicaid and/or commercial insurance. Sanctions under these federal and state laws may include civil monetary penalties, exclusion from government health care programs, and imprisonment.
The Health Insurance Portability and Accountability Act of 1996 (HIPAA) created new federal crimes, including health care fraud and false statements related to health care matters. The health care fraud statute prohibits, among other things, knowingly and willfully executing a scheme to defraud any health care benefit program, including private payers. The false statements statute prohibits, among other things, knowingly and willfully falsifying, concealing or covering up a material fact or making any materially false, fictitious or fraudulent statement in connection with the delivery of or payment for health care benefits, items or services. A violation of either statute is a felony and may result in fines, imprisonment and exclusion from government health care programs.
The Foreign Corrupt Practices Act of 1977 and similar worldwide anti-bribery laws in non-U.S. jurisdictions generally prohibit companies and their intermediaries from making improper payments to non-U.S. officials for the purpose of obtaining or retaining business.
Due to the breadth of some of these laws, it is possible that some of our current or future practices might be challenged under one or more of these laws. In addition, there can be no assurance that we would not be required to alter one or more of our practices to be in compliance with these laws. Evolving interpretations of current laws or the adoption of new federal or state laws or regulations could adversely affect many of the arrangements we have with customers and physicians. Our risk of being found in violation of these laws is increased by the fact that some of these laws are broad and open to interpretation. If our past or present operations are found to be in violation of any of these laws, we could be subject to civil and criminal penalties which could hurt our business, financial condition and results of operations.
Privacy and Security of Health Information
Numerous federal, state and international laws and regulations, including HIPAA, govern the collection, use, and disclosure of patient-identifiable health information, or PHI. HIPAA applies to covered entities, which include most healthcare facilities that purchase and use our products. The HIPAA Privacy Rule restricts the use and disclosure of PHI, and requires covered entities to safeguard that information and to provide certain rights to individuals with respect to that information. The HIPAA Security Rule establishes detailed requirements for safeguarding PHI transmitted or stored electronically. We are not a covered entity but due to activities that we perform for or on behalf of covered entities, we are sometimes deemed to be a business associate of covered entities.
In certain circumstances, the HIPAA rules require covered entities to contractually bind us, as a business associate, to protect the privacy and security of PHI we may encounter during activities such as training customers on the use of our products or investigating product performance. The Health Information Technology for Economic and Clinical Health Act (HITECH) enacted in February 2009, made significant amendments to the HIPAA Privacy and Security Rules. Under HIPAA and HITECH, business associates must comply with a number of HIPAA Privacy Rule requirements and all of HIPAA Security Rule provisions, and business associates are directly subject to HIPAA civil and criminal enforcement and the associated penalties for violation of the Privacy and Security Rule requirements. If our past or present operations are found to be in violation of any of these laws, we could be subject to civil and criminal penalties, which could hurt our business, financial condition and results of operations.
The HIPAA standards also apply to the use and disclosure of PHI for research, and generally require the covered entity performing the research to obtain the written authorization of the research subject (or an appropriate waiver) before providing that subject’s PHI to sponsors like us for purposes related to the research. These covered entities also typically impose contractual limitations on our use and disclosure of the PHI they disclose to us. We may be required to make costly system modifications to comply with the privacy and security requirements that will be imposed on us and our failure to comply may result in liability and adversely affect our business.
Numerous other federal and state laws protect the confidentiality of PHI, including state medical privacy laws and federal and state consumer protection laws. These various laws in many cases are not preempted by the HIPAA rules and may be subject to varying interpretations by the courts and government agencies, creating complex compliance issues for us and our customers and potentially exposing us to additional expense, adverse publicity and liability. Other countries also have, or are developing, laws governing the collection, use and transmission of health information and these laws could create liability for us or increase our cost of doing business.
New standards protecting health information, whether implemented pursuant to HIPAA, congressional action or otherwise, could have a significant effect on the manner in which we must handle health care related data, and the cost of complying with these standards could be significant. If we do not properly comply with existing or new laws and regulations related to the protection of health information we could be subject to criminal or civil sanctions.
Third-Party Reimbursement
Health care providers, including hospitals, that purchase our products generally rely on third-party payers, including the Medicare and Medicaid programs and private payers, such as indemnity insurers and managed care plans, to cover and reimburse all or part of the cost of the products and the procedures in which they are used. As a result, demand for our products is dependent in part on the coverage and reimbursement policies of these payers. No uniform coverage or reimbursement policy for medical technology exists among all third-party payers, and coverage and reimbursement can differ significantly from payer to payer.
The Centers for Medicare and Medicaid Services, or CMS, the federal agency responsible for administering the Medicare program, along with its contractors, establish coverage and reimbursement policies for the Medicare program. Because a large percentage of the hospitals using our products treat elderly or disabled individuals who are Medicare beneficiaries, Medicare’s coverage and reimbursement policies are particularly significant to our business. In addition, private payers often follow the coverage and reimbursement policies of Medicare. We cannot assure you that government or private third-party payers will cover and reimburse the procedures using our products in whole or in part in the future or that payment rates will be adequate.
In general, Medicare will cover a medical product or procedure when the product or procedure is reasonable and necessary for the diagnosis or treatment of an illness or injury, or to improve the functioning of a malformed body part. Even if the medical product or procedure is considered medically necessary and coverage is available, Medicare may place restrictions on the circumstances where it provides coverage. For example, several Medicare local contractors have issued policies that restrict coverage for pulse oximetry in hospital inpatient and outpatient settings to a limited number of conditions, including limiting coverage to patients who (i) exhibit signs of acute respiratory dysfunction, (ii) have chronic lung disease, severe cardiopulmonary disease or neuromuscular disease involving the muscles of respiration, (iii) are under treatment with a medication with known pulmonary toxicity, or (iv) have sustained multiple trauma or complaints of acute chest pain.
Reimbursement for our products may vary not only by the type of payer involved but also based upon the setting in which the product is furnished and utilized. For example, Medicare payment may be made, in appropriate cases, for patient stays in the hospital inpatient and outpatient settings involving the use of our products. Medicare generally reimburses hospitals based upon prospectively determined amounts. For hospital inpatient stays, the prospective payment generally is determined by the patient’s condition and other patient data and procedures performed during the inpatient stay, using a classification system known as Medicare Severity Diagnosis-Related Groups, or MS-DRGs. Prospective rates are adjusted for, among other things, regional differences, co-morbidity, and complications. Hospitals generally do not receive separate Medicare reimbursement for the specific costs of purchasing our products for use in the inpatient setting. Rather, Medicare reimbursement for these costs is deemed to be included within the prospective payments made to hospitals for the inpatient services in which the products are utilized.
In contrast, some differences may be seen in the reimbursement for use of our products in hospital outpatient departments. In this setting, Medicare payments also are generally made under a prospective payment system based on the ambulatory payment classifications (APCs) under which individual items and procedures are categorized. Hospitals receive the applicable APC payment rate for the procedure regardless of the actual cost for such treatment. Some outpatient services such as oximetry services do not receive separate reimbursement. Rather, their reimbursement is deemed packaged into the APC for an associated procedure, and the payment for that APC does not vary depending on whether the packaged procedure is performed. Some procedures also are paid through Composite APCs, which are APCs that establish a payment rate that applies when a specific combination of services is provided. Reimbursement for certain pulse oximetry monitoring services, including those using our products, may be separately payable when they are the only service provided to the patient on that day, packaged if provided with certain critical care services, or reimbursed through a composite APC when provided in connection with certain other services.
Because payments through the Prospective Payment System in both the hospital inpatient and outpatient settings are based on predetermined rates and may be less than a hospital’s actual costs in furnishing care, hospitals have incentives to lower their operating costs by utilizing products that will reduce the length of inpatient stays, decrease labor or otherwise lower their costs. We cannot be certain that a hospital will purchase our products, despite the clinical benefits and opportunity for cost savings that we believe can be derived from their use. If hospitals cannot obtain adequate coverage and reimbursement for our products, or the procedures in which they are used, our business, financial condition and results of operations could suffer.
Our success with rainbow® SET® technologies in U.S. care areas with reimbursable monitoring procedures, such as hospital emergency departments, hospital procedure labs, and the physician office will largely depend on the ability of providers to receive reimbursement for such procedures. Effective January 1, 2013, the maximum rates for noninvasive carboxyhemoglobin, methemoglobin and hemoglobin testing under the Medicare laboratory fee schedule were $6.90 per service. Effective January 1, 2014, the maximum fee schedule rates for these services is $6.84 per service. While private insurance payers generally follow Medicare coding and payment, we cannot be certain of this and in many cases, cannot control the coverage or payment rates that private insurance payers put in place. In addition, the PPACA could affect future Medicare payment for services involving the use of our products. Moreover, the sequestration order required by the Budget Control Act of 2011 has reduced Medicare payments for procedures using our products after January 2, 2013, and it is not clear if or when the sequestration reduction will expire.
Our success in non-U.S. markets depends largely upon the availability of coverage and reimbursement from the third-party payers through which health care providers are paid in those markets. Health care payment systems in non-U.S. markets vary significantly by country, and include single-payer government managed systems as well as systems in which private payers and government managed systems exist side-by-side. Our ability to achieve market acceptance or significant sales volume in international markets we enter will be dependent in large part on the availability of reimbursement for procedures performed using our products under health care payment systems in such markets. There can be no assurance that reimbursement for our products, or the procedures in which our products are used, will be obtained or that such reimbursement will be adequate.
Manufacturing
Our strategy is to manufacture products in-house when it is efficient and cost-effective for us to do so. We currently internally manufacture our bedside and handheld pulse oximeters, our full line of disposable and reusable sensors and most of our patient cables. We maintain a 15,000 square foot manufacturing area in our facility in Irvine, California, and a 149,400 square foot facility in Mexicali, Mexico, both of which are International Organization for Standardization (ISO) 13485:2012 certified. We also maintain a 90,000 square foot facility in Hudson, New Hampshire, a portion of which is used to manufacture advanced light emitting diodes and other advanced component-level technologies. In addition, we maintain an ISO Certified, 10,000 square foot facility in Danderyd, Sweden, a portion of which is used to manufacture ultra-compact mainstream and sidestream capnography and gas monitoring technologies. We will continue to utilize third-party contract manufacturers for products and subassemblies that can be more efficiently manufactured by these parties, such as our circuit boards. We monitor our third-party manufacturers and perform inspections and product tests at various steps in the manufacturing cycle to ensure compliance with our specifications. We also do full functional testing of our circuit boards.
For raw materials, we and our contract manufacturers rely on sole source suppliers for some components, including digital signal processor chips and analog to digital converter chips. We and our contract manufacturers have taken steps to minimize the impact of a shortage or stoppage of shipments of digital signal processor chips or analog to digital converter chips, including maintaining a safety stock of inventory and designing software that may be easily ported to another digital signal processor chip. We believe that our sources of supply for components and raw materials are adequate. In the event of a delay or disruption in the supply of sole source components, we believe that we and our contract manufacturers will be able to locate additional sources of these sole source components on commercially reasonable terms and without experiencing material disruption in our business or operations.
We have agreements with certain major suppliers and each agreement provides for varying terms with respect to contract expiration, termination and pricing. Some of these agreements have expired, however, and in each case the parties have either continued to perform under the agreement or the agreement provides for automatic renewal. Most of these agreements allow for termination upon specified notice, ranging from four to six months, to the non-terminating party. Certain of these agreements with our major suppliers allow for pricing adjustments, each agreement provides for annual pricing negotiation, and one agreement also guarantees Masimo the most favorable pricing offered by the supplier to any of its other customers.
Seasonality
The healthcare business in the United States and overseas is typically subject to quarterly fluctuations in hospital and other alternative care admissions. Over the past three years, our fiscal third quarter revenues have experienced a sequential decline from our second fiscal quarter revenues. We believe this is due primarily to the summer vacation season in which people throughout the world tend to shift their elective procedures out of the summer holiday season. Another factor affecting quarterly revenues is the traditional “flu season” that often increases hospital and acute care facility admissions. Because our non-sales variable operating expenses often do not fluctuate in the same manner as our quarterly product sales, this may cause fluctuations in our quarterly operating income that are disproportionate to fluctuations in our quarterly revenue.
Operating Segment and Geographic Information
We operate in one business segment, using one measurement of profitability to manage our business. Sales and other financial information by geographic area is provided in Note 14 to our consolidated financial statements that are included in this Form 10-K.
Employees
As of December 28, 2013, we had 3,139 full-time employees and contract employees worldwide.
Address
Our principal executive offices are located at 40 Parker, Irvine, California 92618, and our telephone number at that address is (949) 297-7000. Our website address is www.masimo.com. Any information contained in, or that can be accessed through, our website is not incorporated by reference into, nor is it in any way a part of, this Form 10-K.
The following risk factors and other information included in this Form 10-K should be carefully considered. The risks and uncertainties described below are not the only ones we face. Additional risks and uncertainties not presently known to us or that we presently deem less significant may also impair our business operations. If any of the following risks come to fruition, our business, financial condition, results of operations and future growth prospects would likely be materially and adversely affected. In these circumstances, the market price of our stock could decline, and you could lose all or part of your investment.
Risks Related to Our Revenues
We currently derive substantially all of our revenue from our Masimo SET® platform, Masimo rainbow® SET platform and related products. If this technology and the related products do not continue to achieve market acceptance, our business, financial condition and results of operations would be adversely affected.
We are dependent upon the success and market acceptance of our proprietary Masimo SET®. Currently, our primary product offerings are based on the Masimo SET® platform. Continued market acceptance of products incorporating Masimo SET® will depend upon our ability to continue to provide evidence to the medical community that our products are cost-effective and offer significantly improved performance compared to conventional pulse oximeters. Health care providers that currently have significant investments in competitive pulse oximetry products may be reluctant to purchase our products. If hospitals and other health care providers do not believe our Masimo SET® platform is cost-effective, safe or more accurate or reliable than competitive pulse oximetry products, they may not buy our products in sufficient quantities to enable us to be profitable. In addition, allegations regarding the safety and effectiveness of our products, whether or not substantiated, may impair or impede the acceptance of our products. If we are unable to achieve additional market acceptance of our core technology or products incorporating Masimo SET®, we will not generate significant revenue growth from the sale of our products.
Some of our products, including those based on licensed rainbow® technology, are in development or have been recently introduced into the market and may not achieve market acceptance, which could limit our growth and adversely affect our business, financial condition and results of operations.
Products that we have recently introduced into the market, including, but not limited to, those based on rainbow® technology, a technology that we license, may not be accepted in the market. If our products do not gain market acceptance or if our customers prefer our competitors’ products, our potential growth would be limited, which would adversely affect our business, financial condition and results of operations.
Given that certain rainbow® technology products are new to the marketplace, we do not know to what degree the market will accept these products, if at all. Even if our customers recognize the benefits of our products, we cannot assure you that our customers will purchase them in quantities sufficient for us to be profitable or successful. We will need to invest in significant sales and marketing resources to achieve market acceptance of these products with no assurance of success. The degree of market acceptance of these products will depend on a number of factors, including:
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• | perceived advantages of our products and their sales prices; |
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• | perceived safety and effectiveness of our products; |
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• | reimbursement available through Centers for Medicare and Medicaid Services, or CMS, programs for using our products; and |
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• | introduction and acceptance of competing products or technologies. |
In general, our recent noninvasive measurement technologies are considered disruptive. These recent technologies have performance levels that we believe are acceptable for many clinical environments but may be insufficient in others. In addition, these technologies may perform better in some patients and settings than others. Over time, we hope to continue to improve the performance of these technologies and, if we do, we expect them to become more useful in more environments and to become more widely adopted. While this is the adoption pattern experienced historically with other new noninvasive measurements, such as oxygen saturation, we are unable to guarantee that such adoption pattern will apply to our recent and future technologies.
Our ability to commercialize new products, new or improved technologies and additional applications for Masimo SET® and our right to use rainbow® technology are each limited to certain markets by our Cross-Licensing Agreement with Cercacor, which may impair our growth and adversely affect our financial condition and results of operations.
In May 1998, we spun off a newly-formed entity, Cercacor, and provided it rights to use Masimo SET® to commercialize non-vital signs monitoring applications while we retained the rights to Masimo SET® to commercialize vital signs monitoring applications. On May 2, 1998, we entered into a cross-licensing agreement with Cercacor, which has been amended several
times, most recently in an Amended and Restated Cross-Licensing Agreement, effective January 1, 2007, or the Cross-Licensing Agreement. Under the Cross-Licensing Agreement, we granted Cercacor:
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• | an exclusive, perpetual and worldwide license, with sublicense rights, to use all Masimo SET® owned by us, including all improvements on this technology, for the monitoring of non-vital signs parameters and to develop and sell devices incorporating Masimo SET® for monitoring non-vital signs parameters in any product market in which a product is intended to be used by a patient or pharmacist rather than by a professional medical caregiver, which we refer to as the Cercacor Market, and |
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• | a non-exclusive, perpetual and worldwide license, with sublicense rights, to use all Masimo SET® for measurement of vital signs in the Cercacor Market. |
Non-vital sign measurements consist of body fluid constituents other than vital sign measurements, including, but not limited to, carbon monoxide, methemoglobin, blood glucose, hemoglobin and bilirubin. Under the Cross-Licensing Agreement, we are only permitted to sell devices utilizing Masimo SET® for the monitoring of non-vital signs parameters in markets where the product is intended to be used by a professional medical caregiver, including, but not limited to, hospital caregivers and alternate care facility caregivers, rather than by a patient or pharmacist, which we refer to as the Masimo Market. Accordingly, our ability to commercialize new products, new or improved technologies and additional applications for Masimo SET® is limited. In particular, our inability to expand beyond the Masimo Market may impair our growth and adversely affect our financial condition and results of operations.
Pursuant to the Cross-Licensing Agreement, we have licensed from Cercacor the right to make and distribute products in the Masimo Market that utilize rainbow® technology for certain non-invasive measurements. As a result, the opportunity to expand the market for our products incorporating rainbow® technology is limited, which could limit our ability to maintain or increase our revenue and impair our growth.
We face competition from other companies, many of which have substantially greater resources than we do. If we do not successfully develop and commercialize enhanced or new products that remain competitive with new products or alternative technologies developed by others, we could lose revenue opportunities and customers, and our ability to grow our business would be impaired.
A number of our competitors have substantially greater capital resources, larger customer bases and larger sales forces, have established stronger reputations with target customers, and have built relationships with GPOs that are more effective than ours. We face substantial competition from companies developing products that compete with our Masimo SET® platform for use with third-party monitoring systems. We also face competition from companies currently marketing pulse oximetry monitors.
The medical device industry is characterized by rapid product development and technological advances, which places our products at risk of obsolescence. Our long-term success depends upon the development and successful commercialization of new products, new or improved technologies and additional applications for Masimo SET® and licensed rainbow® technology. The research and development process is time-consuming and costly and may not result in products or applications that we can successfully commercialize. In particular, we may not be able to successfully commercialize our products for applications other than arterial blood oxygen saturation and pulse rate monitoring, including respiration rate, hemoglobin, carboxyhemoglobin and methemoglobin monitoring. If we do not successfully adapt our products and applications both within and outside these measurements, we could lose revenue opportunities and customers. Furthermore, one or more of our competitors may develop products that are substantially equivalent to our FDA-cleared products, or those of our original equipment manufacturer, or OEM, partners, whereby they may be able to use our products or those of our OEM partners, as predicate devices to more quickly obtain FDA clearance of their competing products. Competition could result in reductions in the price of our products, fewer orders for our products, a reduction of our gross margins and a loss of our market share.
We depend on our domestic and international OEM partners for a portion of our revenue. If they do not devote sufficient resources to the promotion of products that use Masimo SET® and licensed rainbow® technology, our business would be harmed.
We are, and will continue to be, dependent upon our domestic and international OEM partners for a portion of our revenue through their marketing, selling and distribution of certain of their products that incorporate Masimo SET® and licensed rainbow® technology. Although we expect that our OEM partners will accept and actively market, sell and distribute products that incorporate licensed rainbow® technology, they may not elect, and they have no contractual obligation, to do so. Because products that incorporate our technologies may represent a relatively small percentage of business for some of our OEM partners, they may have less incentive to promote these products rather than other products that do not incorporate these technologies. In addition, some of our OEM partners offer products that compete with ours. Therefore, we cannot guarantee that our OEM partners, or any company that might acquire any of our OEM partners, will vigorously promote products incorporating Masimo SET® and licensed rainbow® technology. The failure of our OEM partners to successfully market, sell or distribute products incorporating these technologies, the termination of OEM agreements, the loss of OEM partners or the
inability to enter into future OEM partnership agreements would have a material adverse effect on our business, financial condition and results of operations.
If we fail to maintain or develop relationships with GPOs, sales of our products would decline.
Our ability to sell our products to U.S. hospitals depends, in part, on our relationships with GPOs. Many existing and potential customers for our products become members of GPOs. GPOs negotiate beneficial pricing arrangements and contracts, which are sometimes exclusive, with medical supply manufacturers and distributors.
These negotiated prices are made available to a GPO’s affiliated hospitals and other members. If we are not one of the providers selected by a GPO, the GPO’s affiliated hospitals and other members may be less likely or unlikely to purchase our products. If a GPO has negotiated a strict sole source, market share compliance or bundling contract for another manufacturer’s products, we may be prohibited from making sales to members of the GPO for the duration of the contractual arrangement. For the years ended December 28, 2013, December 29, 2012, and December 31, 2011, shipments of our pulse oximetry products to customers that are members of GPOs represented approximately $288 million, $254 million and $224 million, respectively, of our revenue from sales to U.S. hospitals. Our failure to renew our contracts with GPOs may cause us to lose market share and could have a material adverse effect on our sales, financial condition and results of operations. In addition, if we are unable to develop new relationships with GPOs, our competitive position would likely suffer and our business would be harmed.
We have learned that certain GPOs are creating, coordinating, and facilitating regional purchasing coalition (RPC) supply chain networks that include anti-competitive practices such as sole sourcing and bundling. These RPCs circumvent, and potentially violate rules of conduct for GPOs and have the effect of reducing product purchasing decisions available to the hospitals that belong to the regional organizations. If the GPOs and RPCs are permitted to continue practices that limit, reduce or eliminate competition, we could lose customers who are no longer able to choose or purchase our products, resulting in lower market share and an adverse effect on our sales, financial condition and results of operations.
Inadequate levels of coverage or reimbursement from governmental or other third-party payers for our products, or for procedures using our products, may cause our revenue to decline.
Sales of our products depend in part on the reimbursement and coverage policies of governmental and private health care payers. The ability of our health care provider customers, including hospitals, to obtain adequate coverage and reimbursement for our products, or for the procedures in which our products are used, may impact our customers’ purchasing decisions. Therefore, our customers’ inability to obtain adequate coverage and reimbursement for our products would have a material adverse effect on our business.
Third-party payers have adopted, and are continuing to adopt, health care policies intended to curb rising health care costs. These policies include, among others:
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• | controls on reimbursement for health care services and price controls on medical products and services; |
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• | limitations on coverage and reimbursement for new medical technologies and procedures; and |
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• | the introduction of managed care and prospective payment systems in which health care providers contract to provide comprehensive health care for a fixed reimbursement amount per person or per procedure. |
We cannot guarantee a governmental or third-party payer will reimburse, or continue to reimburse, a customer for the cost of our products. Some payers have indicated that they are not willing to reimburse for certain of our products or for the procedures in which our products are used. For example, some insurance carriers have issued policies denying coverage for transcutaneous hemoglobin measurement on the grounds that the technology is investigational in the outpatient setting. Other payers are continuing to investigate our products to determine if they will provide reimbursement to our customers. We are working with these payers to obtain reimbursement, but may not be successful. These trends could lead to pressure to reduce prices for our current products and product candidates and could cause a decrease in the size of the market or a potential increase in competition that could adversely affect our business, financial condition and results of operations.
Our customers may reduce, delay or cancel purchases due to a variety of factors, such as lower hospital census levels or third-party guidelines, which could adversely affect our business, financial condition and results of operations.
Our customers are facing a growing level of uncertainties, such as lower overall hospital census for paying patients and the impact of that lower census on hospital budgets.
In addition, there are specific portions of our business, such as our OEM customers, that, due to their capital equipment sales model, could be impacted by the ongoing economic uncertainties and the resulting constraints on hospital budgets. These hospital budget constraints could cause our OEMs more difficulty in selling their large, relatively high priced multiparameter devices which, in turn, could reduce our board sales to our OEM customers. In addition, certain of our products, including our
rainbow® measurements such as carbon monoxide, methemoglobin and hemoglobin, are sold with upfront license fees and more complex, and therefore, more expensive sensors could be impacted by hospital budget reductions.
In addition, states and other local regulatory authorities may issue guidelines regarding the appropriate scope and use of our products from time to time. For example, our SpCO® monitoring devices may be subject to authorization by individual states as part of Emergency Medical Services, or EMS, scope of practice procedures. The State of California recently categorized SpCO® as a laboratory test and therefore outside the scope of practice for EMS providers. Although a lack of inclusion into scope of practice procedures does not prohibit usage, it may limit adoption.
The loss of any large customer, or distributor, or any cancellation or delay of a significant purchase by a large customer could reduce our net sales and harm our operating results.
We have a concentration of OEM, distribution and direct customers. If for any reason we were to lose our ability to sell to a specific group or class of customers, or through a distributor, we could experience a significant reduction in revenue, which would adversely impact our operating results. Also, we cannot provide any assurance that we will retain our current customers or groups of customers, or distributors, or that we will be able to attract and retain additional customers in the future. For the years ended December 28, 2013, December 29, 2012 and December 31, 2011, we had sales through two just-in-time distributors, which in total represented approximately 24%, 25% and 25% of our total revenue, respectively. The loss of any large customer or distributor could have a material adverse effect on our financial condition and results of operations.
Organizations that manufacture imitation Masimo sensors and third-party medical device reprocessors that reprocess our single-patient-use sensors and then resell them to hospitals at a cost lower than our new sensors may harm our reputation and cause our revenue to decline. Our development of a new technology designed to provide hospitals, clinicians and their patients with sensors that reflect true Masimo quality and performance may not be accepted by all of our customers, which may adversely affect our business, financial condition and results of operations.
We are aware that other organizations are manufacturing imitation Masimo sensors. In addition, we are aware that certain medical device reprocessors have been collecting our used single-patient-use sensors from hospitals and then reprocessing, repackaging and reselling those sensors to hospitals for other patients. Over the past two years, there has been an increase in our customers’ awareness of these imitation sensors and reprocessing programs. Our experience with both these imitation sensors and reprocessed sensors is that they provide inferior performance, increased sensor utilization, reduced comfort and a number of monitoring problems. Notwithstanding these limitations and despite our customers’ acknowledged preference for genuine Masimo single-patient-use adhesive sensors due to performance and risk of contamination, some of our customers have indicated a willingness to consider purchasing some of their sensor requirements from these imitation manufacturers and third-party reprocessors in an effort to reduce their overall operating costs. These imitation and reprocessed sensors have led to and may continue to lead to confusion with our genuine Masimo products, have reduced and may continue to reduce our revenue, and in some cases have harmed and may continue to harm our reputation, if customers conclude incorrectly that these imitation or reprocessed sensors are original Masimo sensors. In addition, we have expended a significant amount of time and expense investigating issues caused by imitation and reprocessed sensors, troubleshooting problems stemming from such sensors, educating customers about why imitation and reprocessed sensors do not perform up to our performance level and to their expectations, and enforcing our proprietary rights against the imitation manufacturers and reprocessors and under our customer contracts.
We have developed a new technology that is designed to ensure our customers get the performance they expect by using genuine Masimo sensors. This new technology has been included in sensors shipped since the fourth quarter of 2011. While most customers will not observe any difference when compared to our prior sensors, we believe this technology will help ensure that hospitals, clinicians and, ultimately, their patients, receive true Masimo measurement quality and performance, and will curtail some of the harm to us that results when customers experience performance and other problems with imitation and reprocessed sensors. Although we believe that this technology will be viewed favorably by the overwhelming majority of hospitals and clinicians, there are no assurances that all of our customers will view it positively, which may reduce certain customer demand for our new sensors and, as a result, have a material adverse effect on our business, financial condition and results of operations.
From time to time we may carry out strategic initiatives that are not viewed favorably by our customers, which may reduce demand for our products.
We expect to continue to implement new technologies and take action to protect and enforce our contractual, intellectual property and other rights. For example, during fiscal 2013, we began to build a new worldwide blood management sales force, whose primary focus is working with hospitals to identify new opportunities for our noninvasive hemoglobin measurement, SpHb®. Although we believe implementing new technologies and taking these actions are, and will continue to be, in the best interest of patient care, the company and our stockholders, there are no assurances that the market will perceive their benefits or
that these actions will yield favorable results for us, which may result in reduced customer demand for our products, cause our revenue to decline and have a material adverse effect on our operating results.
Covidien may seek to avoid paying any royalties to us after March 15, 2014, which would significantly reduce our royalty revenue, total revenues and adversely affect our business, financial condition and results of operations.
We are party to a settlement agreement with Covidien. Under the current settlement agreement, we earn royalties on Covidien’s total U.S. based pulse oximetry sales. For the years ended December 28, 2013, December 29, 2012 and December 31, 2011, our royalties from the Covidien settlement agreement totaled approximately $30 million, $28 million and $33 million, respectively. Because these royalty payments do not carry any significant cost, they result in significant improvements to our reported gross profit, operating income levels and earnings per share. As a result, an elimination of royalties that we earn under the settlement agreement in the future will have a significant impact on our revenue, gross margins, operating income and earnings per share.
On January 28, 2011, we entered into a second amendment to this settlement agreement with Covidien. As part of this amendment, which became effective on March 15, 2011, Covidien agreed to pay us a royalty at a rate of 7.75% of its U.S. pulse oximetry revenue, as that term is defined in the January 28, 2011 second amendment, from March 15, 2011 through at least March 15, 2014. In exchange for this royalty payment, we have provided Covidien with a covenant not to sue for its current pulse oximetry products, but not for any other technologies that Covidien may add, pursuant to the second amendment. After March 15, 2014, and subject to certain notice requirements, Covidien may stop paying us royalties, which would have a material adverse impact on our total revenue, gross margins, operating income and earnings per share.
Risks Related to Our Intellectual Property
If the patents we own or license, or our other intellectual property rights, do not adequately protect our technologies, we may lose market share to our competitors and be unable to operate our business profitably.
Our success depends significantly on our ability to protect our rights to the technologies used in our products, including Masimo SET® and licensed rainbow® technology. We rely on patent protection, trade secrets, as well as a combination of copyright and trademark laws and nondisclosure, confidentiality and other contractual arrangements to protect our technology and rights. However, these legal means afford only limited protection and may not adequately protect our rights or permit us to gain or maintain any competitive advantage. In addition, we cannot be assured that any of our pending patent applications will result in the issuance of a patent to us. The U.S. Patent and Trademark Office, or PTO, may deny or require significant narrowing of claims in our pending patent applications, and patents issued as a result of the pending patent applications, if any, may not provide us with significant commercial protection or be issued in a form that is advantageous to us. We could also incur substantial costs in proceedings before the PTO. Our issued and licensed patents and those that may be issued or licensed in the future, may expire or may be challenged, invalidated or circumvented, which could limit our ability to stop competitors from marketing related technologies. Some of our patents related to our Masimo SET® algorithm technology began to expire in March 2011. Additionally, upon expiration of other issued or licensed patents, we may lose some of our rights to exclude competitors from making, using, selling or importing products using the technology based on the expired patents. While we seek to offset potential losses relating to important expiring patents by securing additional patents on commercially desirable improvements, there can be no assurance that we will be successful in securing such additional patents, or that such additional patents will adequately offset the effect of expiring patents. We also must rely on contractual rights with the third parties that license technology to us to protect our rights in the technology licensed to us. There is no assurance that competitors will not be able to design around our patents. We also rely on unpatented proprietary technology. We cannot assure you that we can meaningfully protect all our rights in our unpatented proprietary technology or that others will not independently develop substantially equivalent proprietary products or processes or otherwise gain access to our unpatented proprietary technology.
We seek to protect our know-how and other unpatented proprietary technology with confidentiality agreements and intellectual property assignment agreements with our employees, our OEM partners, independent distributors and consultants. However, such agreements may not be enforceable or may not provide meaningful protection for our proprietary information in the event of unauthorized use or disclosure or other breaches of the agreements or in the event that our competitors discover or independently develop similar or identical designs or other proprietary information. In addition, we rely on the use of registered and common law trademarks with respect to the brand names of some of our products. Common law trademarks provide less protection than registered trademarks. Loss of rights in our trademarks could adversely affect our business, financial condition and results of operations.
Furthermore, the laws of foreign countries may not protect our intellectual property rights to the same extent as the laws of the U.S. If we fail to apply for intellectual property protection or if we cannot adequately protect our intellectual property rights in these foreign countries, our competitors may be able to compete more effectively against us, which could adversely affect our competitive position, as well as our business, financial condition and results of operations.
If third parties claim that we infringe their intellectual property rights, we may incur liabilities and costs and may have to redesign or discontinue selling certain products.
Companies in the medical device industry have used intellectual property litigation to gain a competitive advantage in the marketplace. We face the risk of claims that we have infringed on third parties’ intellectual property rights. Searching for existing intellectual property rights may not reveal important intellectual property and our competitors may also have filed for patent protection, which is not publicly-available information, or claimed trademark rights that have not been revealed through our availability searches. In addition, many of our employees were previously employed at other medical device companies. We may be subject to claims that our employees have disclosed, or that we have used, trade secrets or other proprietary information of our employees’ former employers. Our efforts to identify and avoid infringing on third parties’ intellectual property rights may not always be successful. Any claims of patent or other intellectual property infringement against us, even those without merit, could:
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• | increase the cost of our products; |
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• | be expensive and time consuming to defend; |
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• | result in us being required to pay significant damages to third parties; |
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• | force us to cease making or selling products that incorporate the challenged intellectual property; |
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• | require us to redesign, reengineer or rebrand our products, product candidates and technologies; |
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• | require us to enter into royalty or licensing agreements in order to obtain the right to use a third-party’s intellectual property on terms that may not be favorable or acceptable to us; |
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• | require us to indemnify third parties pursuant to contracts in which we have agreed to provide indemnification for intellectual property infringement claims; |
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• | divert the attention of our management and other key employees; |
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• | result in our customers or potential customers deferring or limiting their purchase or use of the affected products impacted by the claims until the claims are resolved; and |
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• | otherwise have a material adverse effect on our business, financial condition and results of operations. |
In addition, new patents obtained by our competitors could threaten the continued commercialization of our products in the market even after they have already been introduced. Philips Electronics North America Corporation and Shenzhen Mindray Bio-Medical Electronics Co., Ltd. have filed antitrust and patent infringement counterclaims against us, as further explained in Part 1, Item 3 of this on Form 10-K.
We believe competitors may currently be violating and may in the future violate our intellectual property rights, and we may bring additional litigation to protect and enforce our intellectual property rights, which may result in substantial expense and may divert our attention from implementing our business strategy.
We believe that the success of our business depends, in significant part, on obtaining patent protection for our products and technologies, defending our patents and preserving our trade secrets. We were previously involved in significant litigation to protect our patent position and may be required to engage in further litigation. In 2006, we settled a costly, six-year lawsuit against Mallinckrodt, Inc., part of Tyco Healthcare (currently Covidien Ltd.), and one of its subsidiaries, Nellcor Puritan Bennett, Inc., in which we claimed that Covidien was infringing some of our pulse oximetry signal processing patents.
In February 2009, we filed a patent infringement suit against Philips Electronics North America Corporation and Philips Medizin Systeme Böblingen GmbH related to Philips’ FAST pulse oximetry technology and certain of Philips’ patient monitors. In December 2012, we filed a patent infringement and breach of contract suit against Mindray DS USA, Inc. and Shenzhen Mindray Bio-Medical Electronics Co, Ltd., which is an OEM partner of ours. Both of these suits are described in Part 1, Item 3 of this Form 10-K, and Note 13 to our accompanying consolidated financial statements. Both Philips Electronics North America Corporation and Philips Medizin Systeme Böblingen GmbH are associated with Philips Medical Systems, another OEM partner of ours. There is no guarantee that we will prevail in either suit or receive any damages or other relief if we do prevail.
Our ongoing and future litigation could result in significant additional costs and further divert the attention of our management and key personnel from our business operations and the implementation of our business strategy and may not be adequate to protect our intellectual property rights.
Risks Related to Our Regulatory Environment
Our failure to obtain and maintain FDA clearances or approvals on a timely basis, or at all, would prevent us from commercializing our current or upgraded products in the United States, which could severely harm our business.
Each medical device that we wish to market in the U.S. generally must first receive either 510(k) clearance from the FDA pursuant to the Federal Food, Drug, and Cosmetic Act by filing a 510(k) pre-market notification, or PMA, through submitting a PMA application. Even if regulatory clearance or approval of a product is granted, the clearance or approval may be subject to limitations on the indicated uses for which the product may be marketed. We cannot guarantee that the FDA will grant 510(k) clearance on a timely basis, if at all, for new products or uses that we propose for Masimo SET® or licensed rainbow® technology. The FDA’s 510(k) clearance process of our products and uses has historically taken approximately four to six months. However, over the past year we have experienced a significantly longer 510(k) clearance review process. Our more recent experience in seeking FDA 510(k) clearance, along with information we have received from other medical device manufacturers, suggests that the FDA may have modified its 510(k) review protocol and process. Specifically, it appears that the FDA’s medical device product reviews currently require applicants to provide much more information and data than in prior periods, the FDA is not consistently relying upon prior precedents thereby leading to more review cycles or, in some cases, to non-substantially equivalent decisions, and that the FDA has broadened the scope of its reviews. As a result, we have experienced lengthier FDA 510(k) review periods over the past two years, which has delayed the 510(k) clearance process for our products and uses over this period compared to prior periods.
We have received FDA 510(k) clearance for the Pronto® and Pronto-7® for noninvasive spot-checking of hemoglobin and other measurements in clinical and non-clinical settings, including blood donation facilities for Pronto®. Before commercializing either device in U.S. blood donation centers, we are also pursuing specific regulatory clearance from the FDA Center for Biologics Evaluation and Research, which regulates the collection of blood and blood components used for transfusion or for the manufacture of pharmaceuticals derived from blood and blood components.
To date, the FDA has regulated pulse oximeters incorporating Masimo SET® and licensed rainbow® technology, and our sensors, cables and other products incorporating Masimo SET® and licensed rainbow® technology for pulse oximetry under the 510(k) process. Although 510(k) clearances have been obtained for all of our current products, these clearances may be withdrawn by the FDA at any time if substantial safety or effectiveness problems develop with our devices. Furthermore, our new products or significantly modified marketed products could be denied 510(k) clearance and be required to undergo the more burdensome PMA process. The process of obtaining PMA is much more costly, lengthy and uncertain than the process for obtaining 510(k) clearance and generally takes one to three years, but may be longer.
The failure of our OEM partners to obtain required FDA clearances or approvals for products that incorporate our technologies could have a negative impact on our revenue.
Our OEM partners will be required to obtain their own FDA clearances for products incorporating Masimo SET® and licensed rainbow® technology to market these products in the U.S. We cannot guarantee that the FDA clearances we have obtained will make it easier for our OEM partners to obtain clearances of products incorporating these technologies, or that the FDA will ever grant clearances on a timely basis, if at all, for any future product incorporating Masimo SET® and licensed rainbow® technology that our OEM partners propose to market.
If we or our suppliers fail to comply with ongoing regulatory requirements, or if we experience unanticipated problems with our products, these products could be subject to restrictions or withdrawal from the market.
Our products, along with the manufacturing processes and promotional activities for such products, are subject to continual review and periodic inspections by the FDA and other regulatory bodies. In particular, we and our suppliers are required to comply with the FDA’s Quality System Regulation, or QSR, which covers the methods and documentation of the design, control testing, production, component suppliers control, quality assurance, labeling control, packaging, storage and shipping of our products. The FDA enforces the QSR through announced and unannounced inspections. We are also subject to similar state requirements and licenses. Failure by us or one of our suppliers to comply with statutes and regulations administered by the FDA and other regulatory bodies, discovery of previously unknown problems with our products (including unanticipated adverse events or adverse events of unanticipated severity or frequency), manufacturing problems, or failure to comply with regulatory requirements, or failure to adequately respond to any FDA observations concerning these issues, could result in, among other things, any of the following actions:
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• | warning letters or untitled letters issued by the FDA; |
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• | fines, civil penalties, injunctions and criminal prosecution; |
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• | unanticipated expenditures to address or defend such actions; |
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• | delays in clearing or approving, or refusal to clear or approve, our products; |
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• | withdrawal or suspension of clearance or approval of our products or those of our third-party suppliers by the FDA or other regulatory bodies; |
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• | product recall or seizure; |
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• | orders for physician notification or device repair, replacement or refund; |
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• | interruption of production; and |
If any of these actions were to occur, it would harm our reputation and adversely affect our business, financial condition and results of operations.
Failure to obtain regulatory approval in foreign jurisdictions will prevent us from marketing our products abroad.
We currently market and intend to continue to market our products internationally. Outside of the U.S., we can market a product only if we receive a marketing authorization and, in some cases, pricing approval, from the appropriate regulatory authorities. The regulatory registration/licensing process varies among international jurisdictions and may require additional testing. The time required for international registration of new products may differ from that required for obtaining FDA clearance. The foreign registration/licensing process may include all of the risks associated with obtaining FDA clearance in addition to other risks. We may not obtain foreign regulatory registration/licensing on a timely basis, if at all. FDA clearance does not ensure new product registration/licensing by foreign regulatory authorities. Approval by one foreign regulatory authority does not ensure approval by any other foreign regulatory authority or by the FDA. If we fail to receive necessary approvals to commercialize our products in foreign jurisdictions on a timely basis, or at all, our business, financial condition and results of operations could be adversely affected.
Modifications to our marketed devices may require new regulatory clearances or premarket approvals, or may require us to cease marketing or recall the modified devices until clearances or approvals are obtained.
We have made modifications to our devices in the past and we may make additional modifications in the future. Any modifications to an FDA-cleared device that could significantly affect its safety or effectiveness or that would constitute a major change in its intended use would require a new 510(k) clearance or possibly a PMA approval. We may not be able to obtain such clearances or approvals in a timely fashion, or at all. Delays in obtaining future clearances would adversely affect our ability to introduce new or enhanced products in a timely manner, which in turn would have an adverse effect on our business, financial condition and results of operations. If the FDA disagrees with our conclusion and requires new clearances or approvals for the modifications, we may be required to recall and to stop marketing the modified devices, which could have an adverse effect on our business, financial conditions and results of operations.
Federal regulatory reforms may reduce the profit we are able to earn on the sale of our products.
From time to time, legislation is drafted and introduced in Congress that could significantly change the statutory provisions governing the clearance or approval, manufacture and marketing of medical devices. In addition, FDA regulations and guidance are often revised or reinterpreted by the FDA in ways that may significantly affect our business and our products. It is impossible to predict whether legislative changes will be enacted or FDA regulations, guidance or interpretations changed, and what the impact of such changes, if any, may be. However, any future regulatory changes could make it more difficult for us to maintain or attain approval to develop and commercialize our products and technologies.
If our products cause or contribute to a death or serious injury, we will be subject to medical device reporting regulations, which can result in voluntary corrective actions or agency enforcement actions, including recall of our products.
Under the FDA medical device reporting regulations, we are required to report to the FDA any incident in which a product of ours may have caused or contributed to a death or serious injury or in which a product of ours malfunctioned and, if the malfunction were to recur, would likely cause or contribute to death or serious injury. In addition, all manufacturers placing medical devices in European Union markets are legally required to report to the relevant authority in whose jurisdiction any serious or potentially serious incidents involving devices produced or sold by the manufacturer occurred.
The FDA and similar foreign governmental authorities have the authority to require the recall of our commercialized products in the event of material deficiencies or defects in, for example, design, labeling or manufacture. In the case of the FDA, the authority to require a recall generally must be based on an FDA finding that there is a reasonable probability that the device would cause serious injury or death. Manufacturers may, under their own initiative, recall a product if any material deficiency in a device is found or we become aware of a safety issue involving a marketed product. A government-mandated or voluntary recall by us or by one of our distributors could occur as a result of component failures, manufacturing errors, design or labeling defects or other deficiencies and issues. We may initiate certain voluntary recalls involving our products in the future. Recalls
of any of our products would divert managerial and financial resources and have an adverse effect on our financial condition and results of operations.
From our inception through December 28, 2013, we initiated six voluntary recalls of our products, none of which was material to our operating results. Each of these recalls was reported to the FDA and other foreign regulatory agencies within the appropriate regulatory timeframes. Because of our dependence upon patient and physician perceptions, any negative publicity associated with these or any future voluntary recalls could materially and adversely affect our business, financial condition, results of operations and growth prospects.
Off-label promotion of our products or promotional claims deemed false or misleading could subject us to substantial penalties.
We must have adequate substantiation for our product performance claims. Obtaining 510(k) clearance only permits us to promote our products for the uses specifically cleared by the FDA. Use of a device outside its cleared or approved indications is known as “off-label” use. Physicians may use our products off-label because the FDA does not restrict or regulate a physician’s choice of treatment within the practice of medicine. Although we may request additional cleared indications for our current products, the FDA may deny those requests, require additional expensive clinical data to support any additional indications or impose limitations on the intended use of any cleared product as a condition of clearance. If the FDA determines that we or our OEM partners have promoted our products for off-label use or have made false or misleading or inadequately substantiated promotional claims, it could request that we or our OEM partners modify those promotional materials or take regulatory or enforcement actions, including the issuance of an untitled letter, a warning letter, injunction, seizure, civil fine and criminal penalties. It is also possible that other federal, state or foreign enforcement authorities might take action if they consider our promotional or training materials to constitute promotion of an uncleared or unapproved use, which could also result in significant fines or penalties under other statutory authorities, such as laws prohibiting false claims for reimbursement. In either event, in addition to potential extensive fines and penalties, our reputation could be damaged and adoption of our products would be impaired. Although our policy is to refrain from statements that could be considered off-label promotion of our products, the FDA or another regulatory agency could conclude that we have engaged in off-label promotion. In addition, the off-label use of our products may increase the risk of injury to patients, and, in turn, the risk of product liability claims. Product liability claims are expensive to defend and could divert our management’s attention and result in substantial damage awards against us.
We may be subject to or otherwise affected by federal and state health care laws, including fraud and abuse and health information privacy and security laws, and could face substantial penalties if we are unable to fully comply with these laws.
Although we do not provide health care services or receive payments directly from Medicare, Medicaid or other third-party payers for our products or the procedures in which our products are used, health care regulation by federal and state governments will impact our business. Health care fraud and abuse laws potentially applicable to our operations include, but are not limited to:
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• | the Federal Health Care Programs’ Anti-Kickback Law, which prohibits, among other things, knowingly and willfully offering, paying, soliciting, or receiving any bribe, kickback or other remuneration intended to induce the purchase, order or recommendation of an item or service reimbursable under a federal health care program (such as the Medicare or Medicaid programs); |
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• | federal false claims laws which prohibit, among other things, knowingly and willfully presenting, or causing to be presented, claims for payment from Medicare, Medicaid, or other third-party payers that are false or fraudulent; |
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• | the federal provisions of the HIPAA established federal crimes for knowingly and willfully executing a scheme to defraud any health care benefit program or making false statements in connection with the delivery of or payment for health care benefits, items or services; and |
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• | state laws analogous to each of the above federal laws, such as state anti-kickback and false claims laws that may apply to items or services reimbursed by non-governmental third-party payers, including commercial insurers, and state laws governing the privacy of certain PHI. |
Federal and state false claims laws prohibit anyone from presenting, or causing to be presented, claims for payment to third-party payers that are false or fraudulent. For example, the federal Civil False Claims Act imposes liability on any person or entity who, among other things, knowingly and willfully presents, or causes to be presented, a false or fraudulent claim for payment by a federal health care program, including Medicaid and Medicare. Some suits filed under the Civil False Claims Act, known as “qui tam” actions, can be brought by a private individual, referred to as a “whistleblower” or “relator,” on behalf of the government and such individuals may share in any amounts paid by the entity to the government in fines or settlement. Such complaints are filed under seal and remain sealed until the applicable court orders otherwise. In recent years, the number or suits brought by private individuals has increased dramatically. Manufacturers, like us, can be held liable under false claims
laws, even if they do not submit claims to the government, if they are found to have caused medical care providers to have submitted claims to the government for payment for a service or the use of a device that is not properly covered for government reimbursement. A number of states also have false claims laws, and some of these laws may apply to claims for items or services reimbursed under Medicaid and/or commercial insurance. Sanctions under these federal and state laws may include civil monetary penalties, exclusion of a manufacturer’s products from reimbursement under government programs and imprisonment. In particular, when an entity is determined to have violated the federal Civil False Claims Act, it may be required to pay up to three times the actual damages sustained by the government, plus civil penalties of $5,500 to $11,000 for each separate false claim.
As previously disclosed, in November 2010, we voluntarily notified the FDA that we received allegations regarding the safety and efficacy of our Pronto® and Pronto-7® products from certain former physician office sales representatives of ours. In April 2011, we were informed by representatives of the U.S. Department of Justice, or DOJ, that the former physician office sales representatives had filed a qui tam complaint against us in the U.S. District Court for the Central District of California. In 2011, the former physician office sales representatives also filed employment-related claims against us in arbitration stemming from their allegations regarding the safety and efficacy of our Pronto® and Pronto-7® products. In October 2013, the District Court granted summary judgment in the qui tam matter in our favor. The former sales representatives are appealing the decision. On January 16, 2014, we were notified that the arbitrator awarded approximately $5.4 million in damages to the plaintiffs with respect to one of the employment-related claims. Although we intend to challenge this award, there is no guarantee that we will prevail. In the third quarter of 2013, we were notified that the FDA and the DOJ are continuing to investigate the allegations made by the former physician office sales representatives. We will continue to cooperate fully with the FDA and the DOJ in connection with their investigation. Although we believe that our business practices comply in all material respects with applicable laws and regulations, no conclusions can be drawn at this time as to the outcome of the investigation or the timing of any outcome, and government investigations may be a distraction to management and cause us to incur significant expenses.
We have certain arrangements with hospitals that may be affected by health care fraud and abuse laws. For instance, under our standard customer arrangements, we provide hospitals with free pulse oximetry monitoring devices in exchange for their agreement to purchase future pulse oximetry sensor requirements from us. In addition, we occasionally provide our customers with rebates in connection with their annual purchases. While we believe that these arrangements are structured such that we are currently in compliance with applicable federal and state health care laws, one or more of these arrangements may not meet the Federal Anti-Kickback Law’s safe harbor requirements, which may result in increased scrutiny by government authorities that are responsible for enforcing these laws.
There can be no assurance that we will not be found to be in violation of any of such laws or other similar governmental regulations to which we are directly or indirectly subject, and as a result we may be subject to penalties, including civil and criminal penalties, damages, fines, exclusion of our products from reimbursement under Medicare, Medicaid and other federal health care programs, and the curtailment or restructuring of our operations. Any penalties could adversely affect our ability to operate our business and our financial results. Any action against us for violation of these laws, even if we successfully defend against them, could cause us to incur significant legal expenses and divert our management’s attention from the operation of our business.
Further, we are required to comply with federal and state laws governing the transmission, security and privacy of individually identifiable PHI that we may obtain or have access to in connection with the manufacture and sale of our products. We may be required to make costly system modifications to comply with the HIPAA privacy and security requirements. Our failure to comply may result in criminal and civil liability because the potential for enforcement action against business associates is greater as a result of the Health Information Technology for Economic and Clinical Health Act.
Numerous other federal and state laws protect the confidentiality of PHI including state medical information privacy laws, state social security number protection laws and state and federal consumer protection laws. In some cases, more protective state privacy and security laws are not preempted by HIPAA and may be subject to interpretation by various governmental authorities and courts resulting in potentially complex compliance issues for us and our customers.
In addition, state and federal human subject protection laws apply to our receipt of individually identifiable PHI in connection with clinical research. These laws could create liability for us if one of our research collaborators uses or discloses research subject information without authorization and in violation of applicable laws.
We may incur significant costs and potential liabilities in defending our new products and technologies in various legal and other proceedings.
Our breakthrough noninvasive measurement technologies are new and not yet widely understood or accepted. These new technologies may become the subject of various legal and other proceedings. We may incur significant costs in explaining and defending our new products and technologies in these proceedings, often to non-technical audiences. The outcomes of the
proceedings are unpredictable and may result in significant liabilities, regardless of the merits of the claims made in the proceedings.
Legislative and regulatory changes in the health care industry could have a negative impact on our financial performance. Furthermore, our business, financial condition, results of operations and cash flows could be significantly and adversely affected by health care reform legislation in the U.S. or if reform programs are adopted in our key markets.
Changes in the health care industry in the U.S. and elsewhere could adversely affect the demand for our products as well as the way in which we conduct our business. In recent years, President Obama signed health care reform legislation into law that required most individuals to have health insurance, established new regulations on health plans, created insurance pooling mechanisms and reduced Medicare spending on services provided by hospitals and other providers. Beginning on January 1, 2013, this legislation also imposed significant new taxes on medical device makers in the form of a 2.3% excise tax on U.S. medical device sales, as well as related compliance and reporting obligations. As a result, we recorded medical device taxes of approximately $6.3 million for fiscal 2013.
Moreover, the Physician Payment Sunshine Act (Sunshine Act) which was enacted by Congress as part of the Patient Protection and Affordable Care Act on March 23, 2010, required medical device companies to track and publicly report, with limited exception, all payments and transfers of value to physicians and teaching hospitals in the U.S. Implementing regulations for these tracking and reporting obligations were finalized in 2013, and companies are now required to track payments made since August 1, 2013. In addition, medical device companies are also be required to report payments to the government by March 31, 2014, and annually thereafter. If we fail to comply with the data collection and reporting obligations imposed by the Sunshine Act, we may be subject to substantial civil monetary penalties.
In general, an expansion in government’s role in the U.S. health care industry may lower reimbursements for our products, reduce demand for innovative products, reduce medical procedure volumes and adversely affect our business and results of operations, possibly materially. In addition, as a result of the continued focus on health care reform, there is risk that Congress may implement changes in laws and regulations governing health care service providers, including measures to control costs, or reductions in reimbursement levels. We cannot predict the effect any future legislation or regulation will have on us or what health care initiatives, if any, will be implemented at the state level. Furthermore, many private payers look to Medicare’s coverage and reimbursement policies in setting their coverage policies and reimbursement amounts such that federal reforms could influence the private sector as well. Finally, many states also may attempt to reform their Medicaid programs such that either coverage for certain items or services may be narrowed or reimbursement for them could be reduced. These health care reforms may adversely affect our business.
Consistent with or in addition to Congressional or state reforms, the CMS, the federal agency that administers the Medicare and Medicaid programs, could change its current policies that affect coverage and reimbursement for our products. CMS determined in 2007 that certain uses of pulse oximetry monitoring are eligible for separate Medicare payment in the hospital outpatient setting when no separately payable hospital outpatient services are reported on the same date of service. Each year, however, CMS re-examines the reimbursement rates for hospital inpatient and outpatient and physician office settings and could either increase or decrease the reimbursement rate for procedures utilizing our products. We are unable to predict when legislation or regulation that affects our business may be proposed or enacted in the future or what effect any such legislation or regulation would have on our business. Any such legislation, regulation or policies that affect the coverage and reimbursement of our current or future products, or the procedures utilizing our current or future products, could cause our sales to decrease and our revenue to decline.
Our success in international markets also may depend upon the eligibility of reimbursement for our products through government-sponsored health care payment systems and other third-party payers. Outside of the U.S., reimbursement systems vary by country. These systems are often subject to the same pressures to curb rising health care costs and control health care expenditures as those in the U.S. In addition, as economies of emerging markets develop, these countries may implement changes in their health care delivery and payment systems. If adequate levels of reimbursement from third-party payers outside of the U.S. are not obtained, sales of our products outside of the U.S. may be adversely affected.
In addition, the requirements or restrictions imposed on us or our products may change, either as a result of administratively adopted policies or regulations or as a result of the enactment of new laws. Our medical devices and business activities are subject to rigorous regulation by the FDA and other federal, state and international governmental authorities. These authorities and members of Congress have been increasing their scrutiny over the medical device industry. In recent years, the U.S. Congress, Department of Justice, the Office of Inspector General of the Department of Health and Human Services, and the Department of Defense have issued subpoenas and other requests for information to medical device manufacturers, primarily related to financial arrangements with health care providers, regulatory compliance and product promotional practices. We anticipate that the government will continue to scrutinize our industry closely, and any new regulations or statutory provisions
could result in delays or increased costs during the period of product development, clinical trials, and regulatory review and approval, as well as increased costs to assure compliance.
Risks Related to Our Business and Operations
Cercacor has conducted most of the research and development of rainbow® technology and we are largely dependent upon Cercacor to develop improvements to certain rainbow® technologies.
Cercacor has conducted the substantial majority of the research and development activities related to certain rainbow® technologies. Although we expect Cercacor to continue its research and development activities related to certain rainbow® technology and specific noninvasive monitoring measurements, including blood glucose and hemoglobin, we have no assurance that it will do so. In the event Cercacor does not continue to develop and improve selected rainbow® technologies, our business, financial condition and results of operations could be adversely affected.
We may experience conflicts of interest with Cercacor with respect to business opportunities and other matters.
Prior to our initial public offering in August 2007, our stockholders owned 99% of the outstanding shares of capital stock of Cercacor and we believe that as of December 28, 2013, a number of stockholders of Cercacor continued to own shares of our stock. Joe Kiani, our Chairman and Chief Executive Officer, is also the Chairman and Chief Executive Officer of Cercacor.
Jack Lasersohn, another member of our board of directors, also serves on the board of directors of Cercacor. Due to the interrelated nature of Cercacor with us, conflicts of interest will arise with respect to transactions involving business dealings between us and Cercacor, potential acquisitions of businesses or products, development of products and technology, the sale of products, markets and other matters in which our best interests and the best interests of our stockholders may conflict with the best interests of the stockholders of Cercacor. We cannot guarantee that any conflict of interest will be resolved in our favor, or that with respect to our transactions with Cercacor we will negotiate terms that are as favorable to us as if such transactions were with another third-party.
We will be required to pay Cercacor for the right to use certain improvements to Masimo SET® that we develop.
Under the Cross-Licensing Agreement, if we develop improvements to Masimo SET® for the noninvasive monitoring of non-vital signs parameters, we would be required to assign these developments to Cercacor and then license the technology back from Cercacor in consideration for royalty obligations to Cercacor. Therefore, any improvement to this technology would be treated as if it had been developed exclusively by Cercacor. In addition, we will not be reimbursed by Cercacor for our expenses relating to the development of any such technology. As a result of these terms, we may not generate any revenue from the further development of Masimo SET® for the monitoring of non-vital signs parameters, which could adversely affect our business, financial condition and results of operations.
We are required to pay royalties to Cercacor for all products sold that contain rainbow® technology, including certain annual minimum royalty payments, and this may impact our reported gross margins if we discontinue consolidating Cercacor within our financial statements.
The Cross-Licensing Agreement requires us to pay Cercacor a royalty for all products that we sell which include their proprietary rainbow® technology. This includes handheld, table-top and multiparameter products that incorporate licensed rainbow® technology. Beginning in 2009, for hospital contracts where we place equipment and enter into a sensor contract, we pay a royalty to Cercacor on the total sensor contract revenue based on the ratio of rainbow® enabled devices to total devices. The agreement also requires that we make available to Cercacor, at its request, up to 10% of our annual board and sensor production volume at our total manufactured cost. In addition to these specific royalty and product obligations, our Cross-Licensing Agreement requires that we pay Cercacor specific annual minimum royalty payments.
Currently, we are required to consolidate Cercacor within our financial statements. Accordingly, the royalties that we owe to Cercacor are eliminated in our consolidated financial statements presented within this Form 10-K and our other periodic reports and the gross profit margins reported in our consolidated financial results do not include the royalty expense that we pay to Cercacor. We are also obligated to include, and have included, Cercacor’s engineering and administrative expenses in our reported engineering and administrative expenses. If our financial statements were not consolidated with Cercacor, our reported cost of goods sold would increase and our reported engineering and administrative expenses would decrease. To date, the amount of royalty expense has approximated the amount of engineering and administrative expense. In the future, depending upon the success of rainbow® products and the royalties earned by Cercacor on those revenues, it is possible that the royalty expense will grow at a rate higher than the growth of engineering and administrative expenses. Should this occur, and if we were not required to consolidate Cercacor’s financial results within our financial statements, then our unconsolidated cost of sales could grow at a faster rate than our unconsolidated engineering expenses.
Despite describing and reflecting this Cercacor consolidation requirement within our financial statements, failure to understand or appreciate the significance of our consolidation of Cercacor’s financial statements may lead current and prospective investors to draw inaccurate perspectives and conclusions regarding our historical and future financial condition and results of operations.
In the event that the Cross-Licensing Agreement is terminated for any reason, or Cercacor grants a license to rainbow® technology to a third-party, our business would be materially and adversely affected.
Cercacor owns all of the proprietary rights to rainbow® technology developed with our proprietary Masimo SET® for products intended to be used in the Cercacor Market, and all rights for any non-vital signs measurement for which we do not exercise an option pursuant to the Cross-Licensing Agreement. In addition, Cercacor has the right to terminate the Cross-Licensing Agreement or grant licenses covering rainbow® technology to third parties if we breach certain terms of the agreement, including any failure to meet our minimum royalty payment obligations or failure to use commercially reasonable efforts to develop or market products incorporating licensed rainbow® technology. If we lose our exclusive license to rainbow® technology, we would lose the ability to prevent others from making, using, selling or importing products using rainbow® technology in our market. As a result, we would likely be subject to increased competition within our market, and Cercacor or competitors who obtain a license to rainbow® technology from Cercacor would be able to offer related products.
We may not be able to commercialize our products incorporating licensed rainbow® technology cost-effectively or successfully.
As a result of the royalties that we must pay to Cercacor, it is generally more expensive for us to make products that incorporate licensed rainbow® technology than products that do not include licensed rainbow® technology, We cannot assure you that we will be able to sell products incorporating licensed rainbow® technology at a price the market is willing to accept. If we cannot commercialize our products incorporating licensed rainbow® technology successfully, we may not be able to generate sufficient product revenue from these products to be profitable, which could adversely affect our business, financial condition and results of operations.
Rights provided to Cercacor in the Cross-Licensing Agreement may impede a change in control of our company.
Under the Cross-Licensing Agreement, a change in control includes, but is not limited to, the resignation or termination of Joe Kiani from his position of Chief Executive Officer of either Masimo or Cercacor. In the event we undergo a change in control, we are required to immediately pay a $2.5 million fee to exercise an option to license technology developed by Cercacor for use in blood glucose monitoring. Additionally, our per product royalties payable to Cercacor will become subject to specified minimums, and the minimum aggregate annual royalties for all licensed rainbow® measurements payable to Cercacor is $15.0 million for carbon monoxide, methemoglobin, fractional arterial oxygen saturation, hemoglobin and blood glucose, plus up to $2.0 million per other rainbow® measurements. Also, if the surviving or acquiring entity ceases to use “Masimo” as a company name and trademark following a change in control, all rights to the “Masimo” trademark will automatically be assigned to Cercacor. This could delay or discourage transactions involving an actual or potential change in control of us, including transactions in which our stockholders might otherwise receive a premium for their shares over our then-current trading price. In addition, our requirement to assign all future improvements for non-vital signs to Cercacor could impede a change in control of our company.
We may experience significant fluctuations in our quarterly results in the future, we may not maintain our current levels of profitability, and changes to existing accounting pronouncements or taxation rules may affect how we conduct our business and affect our reported results of operations.
Our operating results have fluctuated in the past and are likely to fluctuate in the future. We may experience fluctuations in our quarterly results of operations as a result of:
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• | delays or interruptions in manufacturing and shipping of our products; |
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• | varying demand for and market acceptance of our technologies and products; |
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• | delayed acceptance of our new products, negatively impacting the carrying value of our inventory; |
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• | design, technology or other market changes that could negatively impact the carrying value of our inventory; |
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• | the effect of competing technological and market developments resulting in lower selling prices or significant promotional costs; |
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• | changes in the timing of product orders and the volume of sales to our OEM partners; |
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• | delays in hospital conversions to our products and declines in hospital patient census; |
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• | our legal expenses, particularly those related to litigation matters; |
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• | changes in our product or customer mix; |
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• | market seasonality of our sales; |
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• | ability to renew existing long-term sensor contract commitments; |
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• | changes in the total dollar amount of annual contract renewal activities; |
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• | changes in the mix, and therefore, the related costs of products that we supply at no upfront costs to our customers as part of their long-term sensor commitments; |
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• | changes in hospital and other alternative care admission levels; |
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• | inability to efficiently scale operations and establish processes to accommodate business growth; |
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• | unanticipated delays or problems in the introduction of new products, including delays in obtaining clearance or approval from the FDA; |
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• | high levels of returns and repairs; and |
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• | change in reimbursement rates for SpHb®, SpCO® and SpMet® parameters. |
In addition, a change in accounting pronouncements or taxation rules or practices, or the interpretation of them by the SEC or other regulatory bodies, can have a significant effect on our reported results and may even affect our reporting of transactions completed before the change is effective. New accounting pronouncements or taxation rules and varying interpretations of accounting pronouncements or taxation practice have occurred and may occur in the future. Changes to existing rules, the adoption of new rules, changes in tax laws, or the expiration of existing favorable tax holidays may adversely affect our reported financial results or the way we conduct our business.
If our operating results fail to meet or exceed the expectations of securities analysts or investors, our stock price could drop suddenly and significantly. Our expense levels are based, in part, on our expectations regarding future revenue levels and are relatively fixed in the short term. As a result, if our revenue for a particular period was below our expectations, we would not be able to proportionately reduce our operating expenses for that period. Any revenue shortfall would have a disproportionately negative effect on our operating results for the period. Due to these and other factors, you should not rely on our results for any one quarter as an indication of our future performance.
Our results of operations could vary as a result of the methods, estimates, and judgments that we use in applying our accounting policies.
The methods, estimates, and judgments that we use in applying our accounting policies have a significant impact on our results of operations. Such methods, estimates, and judgments are, by their nature, subject to substantial risks, uncertainties, and assumptions, and factors may arise over time that lead us to change our methods, estimates, and judgments. Changes in those methods, estimates, and judgments could significantly affect our results of operations. See “Critical Accounting Estimates” contained in Part II, Item 7 of this Form 10-K.
If we lose the services of our key personnel, or if we are unable to attract and retain other key personnel, we may not be able to manage our operations or meet our growth objectives.
We are highly dependent on our senior management, especially Joe Kiani, our Chief Executive Officer, and other key officers. We are also heavily dependent on our engineers and field sales team, including sales representatives and clinical specialists. Our success will depend on our ability to retain our current management, engineers and field sales team, and to attract and retain qualified personnel in the future, including scientists, clinicians, engineers and other highly skilled personnel. Competition for senior management, engineers and field sales personnel is intense and we may not be able to retain our personnel. In addition, some of our key personnel hold stock options with an exercise price that is greater than our recent closing prices, which may minimize the retention value of these options. The loss of the services of members of our key personnel could prevent the implementation and completion of our objectives, including the development and introduction of our products. In general, our officers may terminate their employment at any time without notice for any reason.
Existing or future acquisitions of businesses could negatively affect our business, financial condition and results of operations if we fail to integrate the acquired businesses successfully into our existing operations or if we discover previously undisclosed liabilities.
We have acquired six businesses since our inception and we may acquire additional businesses in the future. Successful acquisitions depend upon our ability to identify, negotiate, complete and integrate suitable acquisitions and to obtain any necessary financing. Even if we complete acquisitions, we may experience:
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• | difficulties in integrating any acquired companies, personnel, products and other assets into our existing business; |
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• | delays in realizing the benefits of the acquired company, products or other assets; |
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• | diversion of our management’s time and attention from other business concerns; |
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• | limited or no direct prior experience in new markets or countries we may enter; |
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• | higher costs of integration than we anticipated; |
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• | difficulties in retaining key employees of the acquired business who are necessary to manage these acquisitions; and |
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• | changes in the overall financial model as certain acquired companies may have a different revenue, gross profit margin or operating expense profile. |
In addition, an acquisition could materially impair our operating results by causing us to incur debt or requiring us to amortize acquisition expenses and acquired assets. We may also discover deficiencies in internal controls, data adequacy and integrity, product quality, regulatory compliance and product liabilities that we did not uncover prior to our acquisition of such businesses, which could result in us becoming subject to penalties or other liabilities. Any difficulties in the integration of acquired businesses or unexpected penalties or liabilities in connection with such businesses could have a material adverse effect on our business, financial condition and results of operations.
The risks inherent in operating internationally and the risks of selling and shipping our products and of purchasing our components and products internationally may adversely impact our business, financial condition and results of operations.
We derive a portion of our net sales from international operations. In each of the years ended December 28, 2013, December 29, 2012 and December 31, 2011, approximately 30%, 30%, and 29%, respectively, of our product revenue was derived from our international operations. In addition, we purchase a portion of our raw materials and components on the international market. The sale and shipping of our products across international borders, as well as the purchase of materials and components from international sources, subject us to extensive U.S. and foreign governmental trade regulations. Compliance with such regulations is costly and we would be exposed to potentially significant penalties for non-compliance. Any failure to comply with applicable legal and regulatory obligations could impact us in a variety of ways that include, but are not limited to, significant criminal, civil and administrative penalties, including imprisonment of individuals, fines and penalties, denial of export privileges, seizure of shipments, restrictions on certain business activities, and exclusion or debarment from government contracting. Also, the failure to comply with applicable legal and regulatory obligations could result in the disruption of our shipping, manufacturing and sales activities. Any material decrease in our international sales would adversely affect our business, financial condition and results of operations.
In addition, our international sales operations expose us and our representatives, agents and distributors to risks inherent in operating in foreign jurisdictions. These risks include, but are not limited to:
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• | the imposition of additional U.S. and foreign governmental controls or regulations; |
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• | the imposition of costly and lengthy new export licensing requirements; |
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• | a shortage of high-quality sales people and distributors; |
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• | loss of any key personnel that possess proprietary knowledge, or who are otherwise important to our success in certain international markets; |
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• | changes in duties and tariffs, license obligations and other non-tariff barriers to trade; |
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• | the imposition of new trade restrictions; |
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• | the imposition of restrictions on the activities of foreign agents, representatives and distributors; |
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• | scrutiny of foreign tax authorities which could result in significant fines, penalties and additional taxes being imposed on us; |
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• | pricing pressure that we may experience internationally; |
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• | laws and business practices favoring local companies; |
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• | political instability and actual or anticipated military or political conflicts; |
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• | financial and civil unrest worldwide; |
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• | longer payment cycles; and |
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• | difficulties in enforcing or defending intellectual property rights. |
In addition, the U.S. Foreign Corrupt Practices Act and similar worldwide anti-bribery laws in non-U.S. jurisdictions generally prohibit companies and their intermediaries from making improper payments to non-U.S. officials for the purpose of obtaining or retaining business. Because of the predominance of government-sponsored health care systems around the world, many of
our customer relationships outside of the U.S. are with governmental entities and are therefore subject to such anti-bribery laws. Our policies mandate compliance with these anti-bribery laws. Despite our training and compliance programs, our internal control policies and procedures may not always protect us from reckless or criminal acts committed by our employees or agents. Violations of these laws, or allegations of such violations, could subject us to cash and non-cash penalties, disrupt our operations, involve significant management distraction and result in a material adverse effect on our business, financial condition and results of operations.
Our operations may be adversely impacted by our exposure to risks related to foreign currency exchange rates.
We market our products in certain foreign markets through our subsidiaries and other international distributors. The related sales agreements may provide for payments in a foreign currency. While a majority of our sales and expenditures are transacted in U.S. Dollars, some of our sales agreements with foreign customers provide for payment in currencies other than the U.S. Dollar. These foreign currency revenues, when converted into U.S. Dollars, can vary depending on average exchange rates during a respective period. In addition, we are exposed to foreign currency gains or losses on outstanding foreign currency denominated receivables. When converted to U.S. Dollars, these receivables can vary depending on the monthly exchange rates at the end of the period. Similarly, certain of our foreign sales support subsidiaries transact business in their respective country’s local currency, which is also their functional currency. As a result, expenses of these foreign subsidiaries when converted into U.S. Dollars can vary depending on average monthly exchange rates during a respective period. In addition, certain intercompany transactions may give rise to realized and unrealized foreign currency gains or losses. Accordingly, our operating results are subject to fluctuations in foreign currency exchange rates.
The balance sheets of our foreign subsidiaries whose functional currency is not the U.S. Dollar are translated into U.S. Dollars at the rate of exchange at the balance sheet date and the statements of comprehensive income and cash flows are translated into U.S. Dollars using the average monthly exchange rate during the period. Any foreign exchange gain or loss as a result of translating the balance sheets of our foreign subsidiaries whose functional currency is not the U.S. Dollar is included in equity as a component of accumulated other comprehensive income.
We currently do not hedge our foreign currency exchange rate risk. Should we decide in the future to hedge such rate risk by entering into forward contracts, these contracts may not mitigate the potential adverse impact on our financial results due to the variability of timing and amount of payments under these contracts. In addition, our failure to sufficiently hedge, forecast or otherwise manage such foreign currency risks properly could have a material adverse effect on our business, financial condition and results of operations.
We currently manufacture our products at several locations and any disruption in or expansion of our manufacturing operations could adversely affect our business, financial condition and results of operations.
We rely on our manufacturing facilities in Mexicali, Mexico; Irvine, California; Hudson, New Hampshire; and Danderyd, Sweden. These facilities and the manufacturing equipment we use to produce our products would be difficult to replace and could require substantial time to repair. Our facilities may be affected by natural or man-made disasters. Earthquakes are of particular significance since some of our facilities are located in an earthquake-prone area. We are also vulnerable to damage from other types of disasters, including power loss, attacks from extremist or terrorist organizations, epidemics, communication failures, fire, floods and similar events. In the event that one of our facilities was affected by a natural or man-made disaster, we would be forced to rely on third-party manufacturers if we could not shift production to our other manufacturing facilities. Furthermore, our insurance for damage to our property and the disruption of our business from casualties may not be sufficient to cover all of our potential losses and may not continue to be available to us on acceptable terms, or at all. If we are forced to seek alternative facilities, or if we voluntarily expand one or more of our manufacturing operations to new locations, we may incur additional transition costs and we may experience a disruption in the supply of our products until the new facilities are available and operating. We are also vulnerable to disruptions which may occur as a result of local, regional and worldwide health risks. Such disruptions may include the inability to manufacture and distribute our products due to the direct effects of illness on individuals or due to constraints on supply and distribution that may result from either voluntary or government imposed restrictions. Any disruption or delay at our manufacturing facilities and any expansion of our operations to additional locations could create operational hurdles and have an adverse impact on our ability to produce sufficient inventory of our products or may require us to incur additional expenses in order to produce sufficient inventory. In addition, any disruption, delay, transition or expansion of our manufacturing operations could impair our ability to meet the demand of our customers and our customers may cancel orders or purchase products from our competitors, which could adversely affect our business, financial condition and results of operations.
Our suppliers may not supply us with a sufficient amount of materials and components or materials and components of adequate quality.
We depend on sole or limited source suppliers for key materials and components of our noninvasive blood constituent patient monitoring solutions, and if we are unable to obtain these components on a timely basis, we will not be able to deliver our
noninvasive blood constituent patient monitoring solutions to customers. Also, we cannot guarantee that any of the materials or components that we purchase, if available at all, will be of adequate quality. From time to time, there are industry-wide shortages of several electronic components that we use in our noninvasive blood constituent patient monitoring solutions. We may experience delays in production of our products if we fail to identify alternate vendors for materials and components, or any parts supply is interrupted or reduced or there is a significant increase in production costs, each of which could adversely affect our business, financial condition and results of operations.
If we fail to comply with the reporting obligations of the Securities Exchange Act of 1934 and Section 404 of the Sarbanes-Oxley Act of 2002, or if we fail to maintain adequate internal control over financial reporting, our business, results of operations and financial condition and investors’ confidence in us could be materially and adversely affected.
As a public company, we are required to comply with the periodic reporting obligations of the Securities Exchange Act of 1934, as amended, or the Exchange Act, including preparing annual reports, quarterly reports and current reports. Our failure to prepare and disclose this information in a timely manner and meet our reporting obligations in their entirety could subject us to penalties under federal securities laws and regulations of The NASDAQ Stock Market LLC, expose us to lawsuits and restrict our ability to access financing on favorable terms, or at all.
In addition, pursuant to Section 404 of the Sarbanes-Oxley Act of 2002, as amended, or the Sarbanes-Oxley Act, we are required to evaluate and provide a management report of our systems of internal control over financial reporting and our independent registered public accounting firm is required to attest to our internal control over financial reporting. During the course of the evaluation of our internal control over financial reporting, we may identify areas requiring improvement and may be required to design enhanced processes and controls to address issues identified through this review. This could result in significant delays and costs to us and require us to divert substantial resources, including management time from other activities. In addition, if we fail to maintain the adequacy of our internal controls over financial reporting, we may not be able to ensure that we can conclude on an ongoing basis that we have effective internal control over financial reporting in accordance with the Sarbanes-Oxley Act. Moreover, effective internal controls are necessary for us to produce reliable financial reports and are important to help prevent fraud. Any failure to maintain compliance with the requirements of Section 404 could result in the loss of investor confidence in the reliability of our financial statements, which in turn could harm our business, negatively impact the trading price of our stock, and adversely affect investors’ confidence in our company and our ability to access capital markets for financing.
Changing laws and increasingly complex corporate governance and public disclosure requirements could have an adverse effect on our business and operating results.
Changing laws, regulations and standards relating to corporate governance and public disclosure, including the Sarbanes-Oxley Act, the Dodd-Frank Wall Street Reform and Consumer Protection Act, and new regulations of the SEC and The NASDAQ Stock Market LLC, have and will create additional compliance requirements for companies such as ours. To maintain high standards of corporate governance and public disclosure, we have invested in, and intend to continue to invest in, reasonably necessary resources to comply with evolving standards. These investments have resulted in increased general and administrative expenses and a diversion of management time and attention from revenue-generating activities and may continue to do so in the future. For example, the Dodd-Frank Wall Street Reform and Consumer Protection Act included provisions regarding certain minerals and metals, known as conflict minerals, mined from the Democratic Republic of Congo and adjoining countries. These provisions require companies to undertake due diligence procedures and report on the use of conflict minerals in their products, including products manufactured by third parties. Compliance with these provisions will cause us to incur costs to certify that our supply chain is conflict free and we may face difficulties if our suppliers are unwilling or unable to verify the source of their materials. Our ability to source these minerals and metals may also be adversely impacted. In addition, our OEM customers may require that we provide them with a certification and any inability to do so may disqualify us as a supplier.
To maintain high standards of corporate governance and public disclosure, we have invested in, and intend to continue to invest in, reasonably necessary resources to comply with such evolving standards. These investments have resulted in increased general and administrative expenses and a diversion of management time and attention from revenue-generating activities and may continue to do so in the future.
If product liability claims are brought against us, we could face substantial liability and costs.
The manufacture and sale of products using Masimo SET® and licensed rainbow® technology expose us to product liability claims and product recalls, including but not limited to, those that may arise from unauthorized off-label use, which is use of a device in a manner outside the measurement or measurements cleared by the FDA, malfunctions, design flaws or manufacturing defects related to, our products or the use of our products with incompatible components or systems. We cannot be certain that our product liability insurance will be sufficient to cover any or all damages or claims. Furthermore, we may not be able to obtain or maintain insurance in the future at satisfactory rates or in adequate amounts to protect us against any
product liability claims. Any losses that we may suffer from product liability claims, and the effect that any product liability litigation may have upon the reputation and marketability of our technology and products, together with the corresponding diversion of the attention of our key employees, may subject us to significant damages and could adversely affect our business, financial condition and results of operations.
We may incur environmental and personal injury liabilities related to certain hazardous materials used in our operations.
Our manufacturing processes involve the use, generation and disposal of certain hazardous materials and wastes, including silicone adhesives, solder and solder paste, sealants, epoxies and various solvents such as methyl ethyl ketone, acetone and isopropyl alcohol. As a result, we are subject to stringent federal, state and local laws relating to the protection of the environment, including those governing the use, handling and disposal of hazardous materials and wastes. We may incur significant costs to comply with environmental regulations.
Products that we sell in Europe are subject to regulation in European Union, or EU, markets under the Restriction of the Use of Hazardous Substances Directive, or RoHS. RoHS prohibits companies from selling products which contain certain hazardous materials, including lead, mercury, cadmium, chromium, polybrominated biphenyls and polybrominated diphenyl ethers, in EU member states. In addition, the EU’s Registration, Evaluation, Authorization, and Restriction of Chemicals Directive also restricts substances of very high concern in products. Complying with this regulation may result in significant product transition costs including potential risk to the carrying value of the related inventory, or delays in sales of our products in the EU.
From time to time, new regulations are enacted, and it is difficult to anticipate how such regulations will be implemented and enforced. We continue to evaluate the necessary steps for compliance with environmental regulations as they are enacted. Future environmental laws may significantly affect our operations by, for example, requiring our manufacturing processes to be altered or requiring us to use different types of materials in manufacturing our products. Any changes to our operations may increase our manufacturing costs, detrimentally impact the performance of our products, add greater testing lead-times for product introductions or have other similar effects. In our research and manufacturing activities, we use, and our employees, may be exposed to, materials that are hazardous to human health, safety or the environment. These materials and various wastes resulting from their use are stored at our facility pending ultimate use and disposal. The risk of accidental injury to our employees or contamination from these materials cannot be eliminated. In the event of such an accident, we could be held liable for any resulting damages and any such liability could exceed our reserves. Although we maintain general liability insurance, we do not specifically insure against environmental liabilities. If an enforcement action were to occur, our reputation and our business and financial condition may be harmed, even if we were to prevail or settle the action on terms favorable to us.
We rely significantly on information technology and any failure, inadequacy, interruption or security lapse of that technology, including any cybersecurity incidents, could harm our ability to operate our business effectively.
Our ability to effectively manage and maintain our internal business information, and to ship products to customers and invoice them on a timely basis depends significantly on our enterprise resource planning system and other information systems. Portions of our information technology systems may experience interruptions, delays or cessations of service or produce errors in connection with ongoing systems implementation work. Cybersecurity attacks in particular are evolving and include, but are not limited to, malicious software, attempts to gain unauthorized access to data and other electronic security breaches that could lead to disruptions in systems, misappropriation of our confidential or otherwise protected information and corruption of data. The failure of these systems to operate effectively or to integrate with other systems, or a breach in security or other unauthorized access of these systems, may also result in delays in product fulfillment and reduced efficiency of our operations, and could require significant capital investments to remediate any such failure, problem or breach, all of which could adversely affect our business, financial condition and results of operations.
Our operating results may be adversely affected by unfavorable economic and market conditions.
Many of the countries in which we operate, including the United States and several of the members of the European Union, have experienced and continue to experience uncertain economic conditions. Our business or financial results may be adversely impacted by these uncertain economic conditions, including: adverse changes in interest rates, tax laws or tax rates; inflation; contraction in the availability of credit in the marketplace due to legislation or other economic conditions, which may potentially impair our ability to access the capital markets on terms acceptable to us or at all; the effects of government initiatives to manage economic conditions; and reduced demand for our products resulting from a slow-down in the general global economy.
In addition, we cannot predict how current or worsening economic conditions will affect our critical customers, suppliers and distributors and any negative impact on our critical customers, suppliers or distributors may also have an adverse impact on our results of operations or financial condition.
Risks Related to Our Stock
Our stock price may be volatile, and your investment in our stock could suffer a decline in value.
There has been significant volatility in the market price and trading volume of equity securities, which is often unrelated to the financial performance of the companies issuing the securities. These broad market fluctuations may negatively affect the market price of our stock. From January 1, 2013 to December 27, 2013, our closing stock price ranged from $19.04 to $29.61 per share. You may not be able to resell your shares at or above the price you paid for them due to fluctuations in the market price of our stock caused by changes in our operating performance or prospects and other factors.
In addition to the other risk factors previously discussed above, there are many other factors that we may not be able to control that could have a significant effect on our stock market price These include but are not limited to:
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• | actual or anticipated fluctuations in our operating results or future prospects; |
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• | our announcements or our competitors’ announcements of new products; |
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• | the public’s reaction to our press releases, our other public announcements and our filings with the SEC; |
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• | strategic actions by us or our competitors, such as acquisitions or restructurings; |
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• | new laws or regulations or new interpretations of existing laws or regulations applicable to our business; |
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• | changes in accounting standards, policies, guidance, interpretations or principles; |
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• | changes in our growth rates or our competitors’ growth rates; |
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• | developments regarding our patents or proprietary rights or those of our competitors; |
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• | ongoing legal proceedings; |
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• | our inability to raise additional capital as needed; |
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• | concerns or allegations as to the safety or efficacy of our products; |
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• | changes in financial markets or general economic conditions, including the effects of recession or slow economic growth in the U.S. and abroad; |
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• | sales of stock by us or members of our management team, our board of directors or certain institutional stockholders; and |
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• | changes in stock market analyst recommendations or earnings estimates regarding our stock, other comparable companies or our industry generally. |
Concentration of ownership among our existing directors, executive officers and principal stockholders may prevent new investors from influencing significant corporate decisions.
As of December 28, 2013, our current directors and executive officers and their affiliates, in the aggregate, beneficially owned nearly 15% of our outstanding stock. Subject to any fiduciary duties owed to our other stockholders under Delaware law, these stockholders may be able to exercise a significant influence over matters requiring stockholder approval, including the election of directors and approval of significant corporate transactions, and will have some control over our management and policies. Some of these persons or entities may have interests that are different from yours. For example, these stockholders may support proposals and actions with which you may disagree or which are not in your best interests. The concentration of ownership could delay or prevent a change in control of the Company, or otherwise discourage a potential acquirer from attempting to obtain control of the Company, which in turn could reduce the price of our stock. In addition, these stockholders could use their voting influence to maintain our existing management and directors in office or support or reject other management and board proposals that are subject to stockholder approval, such as amendments to our employee stock plans and approvals of significant financing transactions.
You could experience substantial dilution of your investment as a result of subsequent exercises of our outstanding options or the grant of future equity awards by us.
As of December 28, 2013, an aggregate of approximately 15 million shares of our stock were reserved for future issuance under our three equity incentive plans, approximately 9 million of which were subject to options outstanding as of that date at a weighted average exercise price of $22.76 per share. To the extent outstanding options are exercised, our existing stockholders may incur dilution. We rely heavily on equity awards to motivate current employees and to attract new employees. The grant of future equity awards by us to our employees and other service providers may further dilute our stockholders.
Future resales of our stock, including those by our insiders and a few investment funds, may cause our stock price to decline.
A significant portion of our outstanding shares are held by directors, executive officers and a few investment funds. Resale by these stockholders of a substantial number of such shares, announcements of any proposed resale of substantial amounts of our stock or the perception that substantial resales may be made, could significantly reduce the market price of our stock. Some of our directors and executive officers have entered into Rule 10b5-1 trading plans pursuant to which they have arranged to sell shares of our stock from time to time in the future. Generally, these sales require public filings. Actual or potential sales by these insiders, including those under a pre-arranged Rule 10b5-1 trading plan, could be interpreted by the market as an indication that the insider has lost confidence in our stock and reduce the market price of our stock.
We have registered and expect to continue to register shares reserved under our equity plans under a Registration Statement on Form S-8. All shares issued pursuant to a Registration Statement on Form S-8 can be freely sold in the public market upon issuance, subject to restrictions on our affiliates under Rule 144. If a large number of these shares are sold in the public market, the sales could reduce the trading price of our stock.
Our corporate documents and Delaware law contain provisions that could discourage, delay or prevent a change in control of our company, prevent attempts to replace or remove current management and reduce the market price of our stock.
Provisions in our amended and restated certificate of incorporation and amended and restated bylaws may discourage, delay or prevent a merger or acquisition involving us that our stockholders may consider favorable. For example, our amended and restated certificate of incorporation authorizes our board of directors to issue up to five million shares of “blank check” preferred stock. As a result, without further stockholder approval, the board of directors has the authority to attach special rights, including voting and dividend rights, to this preferred stock. With these rights, preferred stockholders could make it more difficult for a third-party to acquire us. In addition, our amended and restated certificate of incorporation provides for a staggered board of directors, whereby directors serve for three year terms, with one third of the directors coming up for reelection each year. A staggered board will make it more difficult for a third-party to obtain control of our board of directors through a proxy contest, which may be a necessary step in an acquisition of us that is not favored by our board of directors.
We are also subject to anti-takeover provisions under Delaware General Corporation Law. Under these provisions, if anyone becomes an “interested stockholder,” we may not enter into a “business combination” with that person for three years without special approval, which could discourage a third-party from making a takeover offer and could delay or prevent a change in control of us. For purposes of these provisions, an “interested stockholder” generally means someone owning 15% or more of our outstanding voting stock or an affiliate of ours that owned 15% or more of our outstanding voting stock during the past three years, subject to certain exceptions as described in the Delaware General Corporation Law.
In addition, we have adopted a stockholder rights plan. Under our stockholder rights plan, if any person becomes the beneficial owner of 15% or more of the outstanding shares of our stock, subject to a number of exceptions set forth in the plan, all of our stockholders other than the acquiring person will receive a right to purchase shares of our stock at a price of $136.00 per share. Our stockholder rights plan could discourage a takeover attempt and make an unsolicited takeover of our company more difficult. As a result, without the approval of our board of directors, you may not have the opportunity to sell your shares to a potential acquirer of us at a premium over prevailing market prices. This could reduce the market price of our stock.
We may elect not to declare cash dividends on our stock, may elect to only pay dividends on an infrequent or irregular basis, or may elect not to make any additional stock repurchases. As a result, any return on your investment may be limited to the value of our stock. In addition, the payment of any future dividends or the repurchase of our stock might limit our ability to pursue other growth opportunities.
Our board of directors (Board) may from time to time declare, and we may pay, dividends on our outstanding shares in the manner and upon the terms and conditions provided by law. However, we may elect to retain all future earnings for the operation and expansion of our business, rather than paying cash dividends on our stock. Any payment of cash dividends on our stock will be at the discretion of our Board and will depend upon our results of operations, earnings, capital requirements, financial condition, business prospects, contractual restrictions and other factors deemed relevant by our board of directors. In the event our Board declares any dividends, there is no assurance with respect to the amount, timing or frequency of any such dividends.
In February 2013, our Board authorized a stock repurchase program, whereby we may purchase up to 6 million shares of our common stock over a period of up to three years. Any repurchase of our common stock will be at the discretion of a committee comprised of our Chief Executive Officer and Chief Financial Officer, and will depend on several factors including, but not limited to, results of operations, capital requirements, financial conditions, available capital from operations or other sources, and the market price of our common stock. Therefore, there is no assurance with respect to the amount, price or timing of any
such repurchases. We may elect to retain all future earnings for the operation and expansion of our business, rather than repurchasing additional outstanding shares. In the event we pay dividends, or make any stock repurchases in the future, our ability to finance any material expansion of our business, including through acquisitions, investments or increased capital spending, or to fund our operations, may be limited. In addition, any repurchases we may make in the future may not prove to be at optimal prices. Our Board may modify or amend our stock repurchase program at any time at its discretion without stockholder approval.
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ITEM 1B. | UNRESOLVED STAFF COMMENTS |
None.
We lease 230,000 square feet of space in Irvine, California, for our corporate headquarters, product manufacturing, research and development, warehousing and distribution operations. The leases covering most of this space expire in September 2014.
We also lease 149,400 square feet of space in Mexicali, Mexico, for the manufacture of our products under a shelter labor agreement with Industrial Vallera de Mexicali, S.A. de C.V., or IVEMSA. IVEMSA is a Mexican maquiladora, which is a shelter services provider incorporated in Mexico that is licensed to operate factories and plants in Mexico. The shelter program allows foreign companies to manufacture products in Mexico without being required to organize and operate their own subsidiary, for example, as a Mexican corporation. As a result, the risks of labor liability, ownership of facilities and legal presence of foreign corporations in Mexico are avoided. We entered into the agreement with IVEMSA to establish and run a facility to manufacture our products. IVEMSA leases the space directly from the owner of the property under an agreement that expires in August 2014. In March 2012, we acquired Spire Semiconductor, LLC and its manufacturing facility, in Hudson, New Hampshire. This 90,000 square foot facility is used to manufacture advanced light emitting diodes and other advanced component-level technologies, as well as warehousing and administrative operations.
For our international headquarters in Neuchatel, Switzerland, we lease 9,900 square feet of office space. This office space is focused on operations including sales, marketing, customer service and other administrative functions. In addition, we currently lease 18,200 square feet of space in Montreal, Canada, which we use primarily for research, development, sales and marketing activities. We also lease 13,400 square feet in Danderyd, Sweden, primarily for manufacturing, research, development and administrative functions related to our capnography and gas monitoring products. We also lease 7,800 square feet of space in Tokyo, Japan, which we use for sales, marketing, customer service and administrative functions, as well as maintaining product inventory. We also maintain small sales offices in Europe, Asia, Australia and the United Kingdom. We believe that our existing facilities are adequate to meet our needs and that existing needs and future growth can be accommodated by leasing alternative or additional space.
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ITEM 3. | LEGAL PROCEEDINGS |
On February 3, 2009, we filed a patent infringement suit against Philips Electronics North America Corporation and Philips Medizin Systeme Böblingen GmbH (collectively, “Philips”) related to Philips’ FAST pulse oximetry technology and certain of Philips’ patient monitors. The suit was brought in the U.S. District Court for the District of Delaware. Two patents originally asserted in this suit, related to our Measure-Through Motion technology, were successfully enforced in our previous suit against Nellcor. On June 15, 2009, Philips answered our complaint and Philips Electronics North America Corporation filed antitrust and patent infringement counterclaims against us as well as counterclaims seeking declaratory judgments of invalidity on the patents asserted by us against Philips. On July 9, 2009, we filed our answer denying Philips’ counterclaims and asserting various defenses. We also asserted counterclaims against Philips for fraud, intentional interference with prospective economic advantage and for declaratory judgments of noninfringement and invalidity with respect to the patents asserted by Philips against us. Philips later added a claim for infringement of one additional patent. Subsequently, the Court bifurcated Philips’ antitrust claims and its patent misuse defense, as well as stayed the discovery phase on those claims pending trial in the patent case. On October 4, 2010, the Court limited the number of patents to be construed to four for us and three for Philips. In addition, on October 6, 2010, the Court denied Philips’ motion to bifurcate and stay damages in the patent case. On January 17, 2012, the District Court Judge issued a claim construction order. In 2012, the parties completed expert reports and discovery on some of the patents. In addition, in 2012, we asserted additional patents, and the Court ordered that these patents and some of the originally asserted patents be tried in a second phase. In 2013, the Magistrate Judge issued reports and recommendations relating to various summary judgment motions filed by the parties. On December 2, 2013, the Court heard oral argument on the parties’ objections to the Magistrate Judge’s reports and recommendations. The objections are currently pending before the District Court Judge, and no order has been issued on the objections. We believe that we have good and substantial defenses to the antitrust and patent infringement claims asserted by Philips. There is no guarantee that we will prevail in this suit or receive any damages or other relief if we do prevail.
On December 21, 2012, we filed suit against Mindray DS USA, Inc. and Shenzhen Mindray Bio-Medical Electronics Co, Ltd. (Shenzhen Mindray) in the U.S. District Court for the Central District of California. The complaint alleges patent infringement, breach of contract and other claims. Mindray DS USA, Inc. was dismissed from this case based on venue. On June 3, 2013, Shenzhen Mindray answered our complaint and filed antitrust and related counterclaims against us, as well as counterclaims seeking declaratory judgments of invalidity and non-infringement on the patents asserted by us against Shenzhen Mindray. On June 24, 2013, we filed our answer denying Shenzhen Mindray’s counterclaims and asserting various defenses. On July 17, 2013, the Court granted Shenzhen Mindray’s motion to dismiss the patent claims without prejudice to allow us to amend the complaint to provide additional detail supporting Shenzhen Mindray’s direct and indirect infringement of our patents. On the same day, the Court denied Shenzhen Mindray’s motion to dismiss our non-patent claims. On August 5, 2013, we filed a first amended complaint. On August 21, 2013, Shenzhen Mindray answered our complaint and reasserted the counterclaims it asserted on June 3, 2013, as well as two additional counterclaims alleging patent infringement. On September 16, 2013, we filed our answer denying Shenzhen Mindray’s counterclaims and asserting various defenses. On October 31, 2013, the Court issued a scheduling order setting a trial date of November 4, 2014. On December 10, 2013, Shenzhen Mindray filed a second amended answer and counterclaims, including a new counterclaim for tortious interference. On January 2, 2014, we filed a motion for judgment on the pleadings as to Shenzhen Mindray’s antitrust counterclaims and inequitable conduct counterclaims and defenses. That motion is pending before the Court. We believe that we have good and substantial defenses to the antitrust patent infringement and other counterclaims asserted by Shenzhen Mindray. There is no guarantee that we will prevail in this suit or receive any damages or other relief if we do prevail.
On December 10, 2013, we filed suit against Mindray DS USA, Inc., Shenzhen Mindray, and Mindray Medical International Ltd. in the Superior Court of New Jersey. The complaint alleges breach of contract and related claims. On January 17, 2014, Mindray DS USA filed a notice of removal removing the case to the U.S. District Court for the District of New Jersey. On January 24, 2014, Mindray DS USA, Inc. filed a motion seeking to dismiss or stay the action in view of Masimo’s action against Shenzhen Mindray in the Central District of California. That motion is pending before the Court and no order from the Court has issued. There is no guarantee that we will prevail in this suit or receive any damages or other relief if we do prevail.
In September 2012, a shareholder derivative lawsuit was filed in the U.S. District Court for the District of Delaware by Joseph Ausikaitis naming our directors, and certain executive officers as defendants and us as the nominal defendant. The lawsuit alleges claims of breach of fiduciary duty and unjust enrichment in connection with the grant or receipt of stock options under our 2007 Stock Incentive Plan and related policies. The lawsuit seeks unspecified money damages on our behalf from the officer and director defendants, various forms of equitable and/or injunctive relief, attorneys’ and other professional fees and costs and various other forms of relief. In November 2012, the defendants filed a motion to dismiss the action, which was denied by the court in July 2013. Although the outcome in this case cannot be determined, we do not expect it to have a material financial impact on our results of operations.
As previously disclosed, in November 2010, we voluntarily notified the FDA that we received allegations regarding the safety and efficacy of our Pronto® and Pronto-7® products from certain former physician office sales representatives of ours. In April 2011, we were informed by representatives of the U.S. Department of Justice (DOJ) that the former physician office sales representatives had filed a qui tam complaint against us in the U.S. District Court for the Central District of California. In 2011, the former physician office sales representatives also filed employment-related claims against us in arbitration stemming from their allegations regarding the safety and efficacy of our Pronto® and Pronto-7® products. In October 2013, the District Court granted summary judgment in the qui tam matter in our favor. The former sales representatives are appealing the decision. On January 16, 2014, we were notified that the arbitrator awarded the plaintiffs approximately $5.39 million in damages in connection with the employment-related claims. We intend to challenge this award, but there is no guarantee that we will prevail.
On January 2, 2014, a putative class action complaint was filed against us by Physicians Healthsource, Inc. in the U.S. District Court for the Central District of California. The complaint alleges that we sent unsolicited facsimile advertisements in violation of the Junk Fax Protection Act of 2005 and related regulations. The complaint seeks $500 for each alleged violation, treble damages if the court finds the alleged violations to be knowing, plus interest, costs, and injunctive relief. We believe we have good and substantial defenses to the claims, but there is no guarantee that we will prevail.
On January 31, 2014, an amended putative class action complaint was filed against us in the United State District Court for the Northern District of Alabama by and on behalf of two participants in the Surfactant, Positive Pressure, and Oxygenation Randomized Trial at the University of Alabama. The complaint alleges product liability and negligence claims in connection with pulse oximeters we provided at the request of study investigators for use in the trial. A previous version of the complaint also alleged a wrongful death claim, which the court dismissed on January 22, 2014. The amended complaint seeks unspecified damages, costs, interest, attorney fees, injunctive and other relief. We believe we have good and substantial defenses to remained claims, but there is no guarantee that we will prevail.
From time to time, we are involved in legal proceedings in the normal course of business. Other than the proceedings described above, we believe that currently we are not a party to any legal proceedings which, individually or in the aggregate, would have a material adverse effect on our consolidated financial position, results of operations or cash flows.
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ITEM 4. | MINE SAFETY DISCLOSURES |
Not applicable.
PART II
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ITEM 5. | MARKET FOR THE REGISTRANT’S COMMON EQUITY, RELATED STOCKHOLDER MATTERS AND ISSUER PURCHASES OF EQUITY SECURITIES |
Market Information
Our stock is traded on the NASDAQ Global Select Market under the symbol “MASI”. The following table sets forth the high and low closing sales price of our stock for the periods indicated.
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| | | | | | | | |
| | Price Range |
| | High | | Low |
Fiscal 2013: | | | |
| First Quarter | $ | 21.33 |
| | $ | 19.51 |
|
| Second Quarter | $ | 22.50 |
| | $ | 19.04 |
|
| Third Quarter | $ | 27.04 |
| | $ | 21.55 |
|
| Fourth Quarter | $ | 29.61 |
| | $ | 25.62 |
|
Fiscal 2012: | | | |
| First Quarter | $ | 23.52 |
| | $ | 18.46 |
|
| Second Quarter | $ | 23.89 |
| | $ | 18.42 |
|
| Third Quarter | $ | 24.87 |
| | $ | 21.00 |
|
| Fourth Quarter | $ | 24.11 |
| | $ | 20.22 |
|
The above quotations reflect inter-dealer prices, without retail markup, markdown or commission and may not necessarily represent actual transactions.
As of January 31, 2014, the closing price of our stock on the NASDAQ Global Select Market was $29.25 per share, and the number of stockholders of record was 45. We believe that the number of beneficial owners is substantially greater than the number of record holders because a large portion of our stock is held of record through brokerage firms in “street name.”
Stock Performance Graph
The following stock performance graph and related information shall not be deemed “soliciting material” or to be “filed” with the SEC, nor shall such information be incorporated by reference into any future filing under the Securities Act or Exchange Act, except to the extent that we specifically incorporate it by reference into such filing.
The following stock performance graph compares total stockholder returns for Masimo Corporation from January 3, 2009 through December 28, 2013 against the NASDAQ Market Composite Index and NASDAQ Medical Equipment Index, assuming a $100 investment made on January 3, 2009. Each of the two comparative measures of cumulative total return assumes reinvestment of dividends. The stock performance shown on the graph below is not necessarily indicative of future price performance.
COMPARISON OF 5 YEAR CUMULATIVE TOTAL RETURN*
Among Masimo Corporation, the NASDAQ Composite Index, and
the NASDAQ Medical Equipment Index
*$100 invested on 01/03/09 in stock or 12/31/08 in index, including reinvestment of dividends. Indexes calculated on month-end basis.
Dividend Policy
Future determination as to the payment of cash (or stock) dividends will depend upon many factors, including our financial condition and results of operations, the capital requirements of our businesses and any other relevant factors deemed relevant by our board of directors (Board). In October 2012, the Board declared a special dividend of $1.00 per share, or $57.3 million, which was paid in December 2012. This dividend was deemed to be a special dividend and there is no assurance, with respect to amount or frequency, that dividends will be declared again in the future.
Stock Repurchase Program
In February 2013, our Board authorized the repurchase of up to 6.0 million shares of common stock under a new repurchase program which is expected to continue for a period of up to 36 months from the effective date of the program unless terminated earlier by the Board. The stock repurchase program may be carried out at the direction of a committee comprised of our Chief Executive Officer and Chief Financial Officer through open market purchases, block trades, one or more trading plans adopted in accordance with Rule 10b5-1 of the Securities and Exchange Commission, and in privately negotiated transactions. Any repurchases will be subject to the availability of stock, general market conditions, the trading price of the stock, available capital, alternative uses for capital and our financial performance. We expect to fund the stock repurchase program through our available cash, future cash from operations, or other potential sources of capital. During the year ended December 28, 2013, 1.0 million shares were repurchased, at an average price of $19.79 per share, totaling $19.8 million. No shares were repurchased during the quarter ended December 28, 2013.
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ITEM 6. | SELECTED FINANCIAL DATA |
The following tables reflect selected financial data derived from our consolidated financial statements for each of the last five years. The consolidated statement of comprehensive income data for the years ended December 28, 2013, December 29, 2012, and December 31, 2011 and the consolidated balance sheet data as of December 28, 2013 and December 29, 2012 are derived from our audited consolidated financial statements included in this Form 10-K. The consolidated statement of comprehensive income data for the years ended January 1, 2011 and January 2, 2010, and the consolidated balance sheet data as of December 31, 2011, January 1, 2011 and January 2, 2010 are derived from our audited consolidated financial statements not included in this Form 10-K. Historical results are not necessarily indicative of future results. The selected financial data set forth below should be read in conjunction with our consolidated financial statements, the related notes and Item 7-“Management’s Discussion and Analysis of Financial Condition and Results of Operations” included elsewhere in this Form 10-K.
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| | | | | | | | | | | | | | | | | | | |
| Year ended December 28, 2013 | | Year ended December 29, 2012 | | Year ended December 31, 2011 | | Year ended January 1, 2011 | | Year ended January 2, 2010 |
| (in thousands, except per share information) | | |
Statement of Comprehensive Income Data(1): | | | | | | | | | |
Revenue: | | | | | | | | | |
Product | $ | 517,429 |
| | $ | 464,928 |
| | $ | 406,487 |
| | $ | 356,422 |
| | $ | 300,143 |
|
Royalty | 29,816 |
| | 28,305 |
| | 32,501 |
| | 48,985 |
| | 48,972 |
|
Total revenue | 547,245 |
| | 493,233 |
| | 438,988 |
| | 405,407 |
| | 349,115 |
|
Cost of goods sold | 188,418 |
| | 166,982 |
| | 144,854 |
| | 119,825 |
| | 100,313 |
|
Gross profit | 358,827 |
| | 326,251 |
| | 294,134 |
| | 285,582 |
| | 248,802 |
|
Operating expenses: |
| | | | | | | | |
Selling, general and administrative | 215,469 |
| | 193,948 |
| | 169,205 |
| | 174,089 |
| | 134,577 |
|
Research and development | 55,631 |
| | 47,077 |
| | 38,412 |
| | 36,000 |
| | 31,701 |
|
Litigation award and defense costs | 8,010 |
| | — |
| | — |
| | — |
| | — |
|
Antitrust litigation expense | — |
| | — |
| | — |
| | (30,728 | ) | | 298 |
|
Total operating expenses | 279,110 |
| | 241,025 |
| | 207,617 |
| | 179,361 |
| | 166,576 |
|
Operating income | 79,717 |
| | 85,226 |
| | 86,517 |
| | 106,221 |
| | 82,226 |
|
Non-operating income (expense) | (3,991 | ) | | (1,405 | ) | | 14 |
| | 1,348 |
| | (46 | ) |
Income before provision for income taxes | 75,726 |
| | 83,821 |
| | 86,531 |
| | 107,569 |
| | 82,180 |
|
Provision for income taxes | 20,005 |
| | 21,883 |
| | 22,478 |
| | 34,164 |
| | 28,158 |
|
Net income including noncontrolling interests | 55,721 |
| | 61,938 |
| | 64,053 |
| | 73,405 |
| | 54,022 |
|
Net (income) loss attributable to noncontrolling interests | 2,660 |
| | 334 |
| | (353 | ) | | 125 |
| | (794 | ) |
Net income attributable to Masimo Corporation stockholders | 58,381 |
| | 62,272 |
| | 63,700 |
| | 73,530 |
| | 53,228 |
|
Other comprehensive income, net of tax: |
| | | | | | | | |
Foreign currency translation adjustments | 453 |
| | 2,268 |
| | 349 |
| | 862 |
| | 70 |
|
Comprehensive income attributable to Masimo Corporation stockholders | $ | 58,834 |
| | $ | 64,540 |
| | $ | 64,049 |
| | $ | 74,392 |
| | $ | 53,298 |
|
Net income per common share attributable to Masimo Corporation stockholders(3): | | | | | | | | | |
Basic | $ | 1.03 |
| | $ | 1.08 |
| | $ | 1.07 |
| | $ | 1.25 |
| | $ | 0.92 |
|
Diluted | $ | 1.02 |
| | $ | 1.07 |
| | $ | 1.05 |
| | $ | 1.21 |
| | $ | 0.88 |
|
Weighted-average number of common shares: | | | | | | | | | |
Basic | 56,690 |
| | 57,445 |
| | 59,659 |
| | 58,769 |
| | 57,603 |
|
Diluted | 57,480 |
| | 58,374 |
| | 60,845 |
| | 60,609 |
| | 60,171 |
|
________________
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(1) | Pursuant to authoritative accounting guidance, Cercacor is consolidated within our financial statements. Accordingly, all intercompany royalties, option and licensing fees, and other charges between us and Cercacor have been eliminated in the consolidation. Also, all direct engineering expenses that have been incurred by us and charged to Cercacor have not been |
eliminated and are included as research and development expense in our consolidated statements of comprehensive income. For additional discussion of accounting for Cercacor, see Note 3 to our accompanying consolidated financial statements.
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(2) | During the year ended January 1, 2011, we completed negotiations to resolve the merits of our antitrust litigation with Covidien. As a result, we retained a total of $30.8 million from Covidien. |
| |
(3) | See Note 2 to our accompanying consolidated financial statements for a description of the method used to compute basic and diluted net income per common share. |
|
| | | | | | | | | | | | | | | | | | | |
| December 28, 2013 | | December 29, 2012 | | December 31, 2011 | | January 1, 2011 | | January 2, 2010 |
| (in thousands, except dividends declared per common share) |
Balance Sheet Data: | | | | | | | | | |
Cash, cash equivalents and short-term investments | $ | 95,466 |
| | $ | 71,554 |
| | $ | 129,882 |
| | $ | 88,305 |
| | $ | 189,043 |
|
Working capital | 168,007 |
| | 129,808 |
| | 186,982 |
| | 147,408 |
| | 229,947 |
|
Total assets | 438,662 |
| | 374,661 |
| | 366,104 |
| | 310,235 |
| | 356,345 |
|
Long term debt, including current portion | 336 |
| | 115 |
| | 122 |
| | 172 |
| | 231 |
|
Total equity | 326,398 |
| | 275,668 |
| | 279,666 |
| | 230,039 |
| | 289,688 |
|
Dividends declared per common share(4) | $ | — |
| | $ | 1.00 |
| | $ | — |
| | $ | 2.75 |
| | $ | — |
|
_____________
| |
(4) | During the years ended December 29, 2012 and January 1, 2011, our board of directors (Board) evaluated a variety of options to return value to stockholders, including acquisition opportunities, stock buy-back programs and dividends. After considering all available options during those periods, the Board concluded that the best and most direct way to reward stockholders for their continued investment and confidence in Masimo was through the declaration of three special cash dividends. In February 2010, the Board declared a special dividend of $2.00 per share, or $117.5 million, which was paid in March 2010. In November 2010, the Board declared a second special dividend of $0.75 per share, or $44.5 million, which was paid in December 2010. In October 2012, the Board declared a third special dividend of $1.00 per share, or $57.3 million, which was paid in December 2012. |
| |
ITEM 7. | MANAGEMENT’S DISCUSSION AND ANALYSIS OF FINANCIAL CONDITION AND RESULTS OF OPERATIONS |
You should read this discussion together with the financial statements, related notes and other financial information included in this Form 10-K. The following discussion may contain predictions, estimates and other forward-looking statements that involve a number of risks and uncertainties, including those discussed under Item 1A—“Risk Factors” and elsewhere in this Form 10-K. These risks could cause our actual results to differ materially from any future performance suggested below.
Executive Overview
We are a global medical technology company that develops, manufactures, and markets noninvasive patient monitoring products. Our mission is to improve patient outcomes and reduce cost of care by taking noninvasive monitoring to new sites and applications. We invented Masimo SET® which provides the capabilities of Measure-Through Motion and Low Perfusion pulse oximetry to address the primary limitations of conventional pulse oximetry. Pulse oximetry is the noninvasive measurement of the oxygen saturation level of arterial blood, or the blood that delivers oxygen to the body’s tissues, and pulse rate. Pulse oximetry is one of the most common measurements made in and out of hospitals around the world. Masimo SET® has been validated in over 100 independent clinical studies and is the only pulse oximetry technology we are aware of that has been proven to help clinicians detect critical congenital heart disease in newborns, reduce retinopathy of prematurity in neonates, and decrease intensive care unit transfers and rapid response activations on the general floor.
Our products consist of a monitor or circuit board, and a “Board-in-Cable” solution, for use with our proprietary single-patient use and reusable sensors and cables. We sell our products to end-users through our direct sales force and certain distributors, and also sell some of our products to our OEM partners, for incorporation into their products. As of December 28, 2013, we estimate that the worldwide installed base of our pulse oximeters and OEM monitors that incorporate Masimo SET® and rainbow® SET was more than 1.2 million units. Our installed base is the primary driver for the recurring sales of our sensors, most notably, single-patient adhesive sensors. Based on industry reports, we estimate that the worldwide pulse oximetry market is nearly $1.5 billion in 2014, the largest component of which is the sale of sensors.
After introducing Masimo SET®, we have continued to innovate by introducing breakthrough noninvasive measurements beyond arterial blood oxygen saturation level and pulse rate, which create new market opportunities in both the hospital and non-hospital care settings. We believe our Masimo rainbow® SET platform, that utilizes both Masimo SET® and licensed rainbow® technology, includes the first devices cleared by the FDA to noninvasively and continuously monitor multiple measurements that previously required invasive or complicated procedures. SpCO®, our noninvasive carboxyhemoglobin sensor, allows measurement of carbon monoxide levels in the blood. Carbon monoxide is the most common cause of poisoning in the world. SpMet®, our noninvasive methemoglobin sensor, allows for the measurement of methemoglobin levels in the blood. Methemoglobin in the blood leads to a dangerous condition known as methemoglobinemia, which occurs as a reaction to some common drugs used in hospitals and outpatient procedures. Masimo PVI® monitors fluid administration, which is critical to optimizing fluid status in surgery and critical care where traditional invasive methods to guide fluid administration often fail to predict fluid responsiveness and newer methods are complicated and costly. Our noninvasive hemoglobin sensor, SpHb®, monitors hemoglobin, the oxygen-carrying component of red blood cells. Hemoglobin measurement is one of the most frequent invasive laboratory measurements in the world, often measured as part of a complete blood count. A low hemoglobin status is called anemia, which is generally caused by bleeding or the inability of the body to produce red blood cells. RRa™ allows for the continuous and noninvasive monitoring of respiration rate, via rainbow Acoustic Monitoring™. Respiration rate is the number of breaths per minute. A low respiration rate is indicative of respiratory depression and high respiration rate is indicative of patient distress. Traditional methods used to measure respiration rate are often considered inaccurate or are not tolerated well by patients. Our Halo Index™ sensor allows continuous global trending and assessment of multiple physiological measurements of a patient with a single number displayed on the Patient SafetyNet™ screen. Halo Index™ is CE Marked, but not currently available for sale in the U.S.
In July 2010, we began selling the SedLine® monitor, which measures the brain’s electrical activity and provides information about a patient’s response to anesthesia. In January 2012, we received FDA clearance for the Pronto-7®, a product designed specifically for spot-checking hemoglobin, along with oxygen saturation and pulse rate. In December 2012, we released iSpO2™, a pulse oximeter cable and sensor with Measure-Through Motion and Low Perfusion Masimo SET® technology for use with an iPhone, iPad or iPod touch. We also offer a remote monitoring and clinician notification solution called Patient SafetyNet™, which includes our Masimo SET® or rainbow® SET monitors at the patient’s bedside along with a central assignment station and wired or wireless server. Patient SafetyNet™ wirelessly notifies clinicians who are taking care of multiple patients in different rooms when one of their patients has an alarm, allowing them to intervene sooner and provide potentially life-saving support.
We offer Masimo SET® and rainbow® SET through our OEMs and our own end-user products, including the Radical-7®, Rad-87™, Rad-57®, Pronto®, Pronto-7®, Rad-8®, Rad-5®, and Rad-5v™. Our solutions and related products are based upon our proprietary Masimo SET® and rainbow® algorithms. This software-based technology is incorporated into a variety of product platforms depending on our customers’ specifications. Our technology is supported by a substantial intellectual property
portfolio that we have built through internal development and, to a lesser extent, acquisitions and license agreements. As of December 28, 2013, we had 674 issued and pending patents worldwide. We have exclusively licensed from our development partner, Cercacor, the right to OEM rainbow® technology and incorporate rainbow® technology into our products intended to be used by professional caregivers, including, but not limited to, hospital caregivers and alternate care facility caregivers.
Dividend Payments
Our board of directors (Board) continuously evaluates a variety of options to return value to stockholders, including acquisition opportunities, stock buy-back programs and dividends. In 2012 and 2010, after considering all available options at those times, the Board concluded that the best and most direct way to reward stockholders for their continued investment and confidence in Masimo was through the declaration of cash dividends. In February 2010, the Board declared a special dividend of $2.00 per share, or $117.5 million, which was paid in March 2010. In November 2010, the Board declared a second special dividend of $0.75 per share, or $44.5 million, which was paid in December 2010. In October 2012, the Board declared another special dividend of $1.00 per share, or $57.3 million, which was paid out on December 11, 2012 to stockholders of record as of the close of business on November 27, 2012. Both the 2012 and 2010 special dividends represented only a portion of our cash reserves, which the Board believed was sufficient to cover our current operational needs, and to fund continued research and development investments and current strategic initiatives. The Board did not declare any dividends during fiscal year 2013 and there is no assurance with respect to the payment of any dividends in the future.
Stock Repurchase Program
In August 2011, our Board authorized the repurchase of up to 3.0 million shares of common stock under a repurchase program, which terminated pursuant to its terms in April 2012. The stock repurchase program was carried out at the discretion of a committee comprised of our Chief Executive Officer and Chief Financial Officer through open market purchases under a Rule 10b5-1 trading plan. We paid for these repurchases with available cash and cash equivalents. During the year ended December 31, 2011, 1.8 million shares were repurchased, at an average price of $19.61 per share, totaling $36.2 million. During the year ended December 29, 2012, 1.2 million shares were repurchased, at an average price of $22.74 per share, totaling $26.3 million, which completed the stock repurchase program.
In February 2013, our Board authorized the repurchase of up to 6.0 million shares of common stock under a new repurchase program which is expected to continue for a period of up to 36 months from the effective date of the program unless it is terminated earlier by the Board. The stock repurchase program may be carried out at the direction of a committee comprised of our Chief Executive Officer and Chief Financial Officer, through open market purchases, block trades, one or more trading plans adopted in accordance with Rule 10b5-1 of the Securities and Exchange Commission, and in privately negotiated transactions. Any repurchases will be subject to the availability of stock, general market conditions, the trading price of the stock, available capital, alternative uses for capital and our financial performance. We expect to fund the stock repurchase program through our available cash, future cash from operations, or other potential sources of capital. During the year ended December 28, 2013, 1.0 million shares were repurchased, at an average price of $19.79 per share, totaling $19.8 million.
Cercacor
Cercacor is an independent entity spun off from us to our stockholders in 1998. Joe Kiani and Jack Lasersohn, members of our board of directors, are also members of the board of directors of Cercacor. Joe Kiani, our Chairman and Chief Executive Officer, is also the Chairman and Chief Executive Officer of Cercacor. We are a party to a cross-licensing agreement with Cercacor, or the Cross-Licensing Agreement, which was amended and restated effective January 1, 2007, that governs each party’s rights to certain intellectual property held by the two companies.
Under the Cross-Licensing Agreement, we granted Cercacor an exclusive, perpetual and worldwide license, with sublicense rights to use all Masimo SET® owned by us, including all improvements on this technology, for the monitoring of non-vital signs measurements and to develop and sell devices incorporating Masimo SET® for monitoring non-vital signs measurements in any product market in which a product is intended to be used by a patient or pharmacist, which we refer to as the Cercacor Market, rather than a professional medical caregiver. We also granted Cercacor a non-exclusive, perpetual and worldwide license, with sublicense rights to use all Masimo SET® for the measurement of vital signs in the Cercacor Market.
We exclusively license from Cercacor the right to make and distribute products in the professional medical caregiver markets, referred to as the Masimo Market, that utilize rainbow® technology for the measurement of carbon monoxide, methemoglobin, fractional arterial oxygen saturation hemoglobin, which includes hematocrit. In December 2013, we exercised our option to license five additional parameters at the pre-established price of $0.5 million per parameter. The license is currently subject to certain specific annual minimum aggregate royalty payment obligations in the amount of $5.0 million per year. To date, we have developed and commercially released devices that measure carbon monoxide, methemoglobin and hemoglobin using licensed rainbow® technology. We also have the option to obtain exclusive licenses to make and distribute products that utilize rainbow® technology for the monitoring of other measurements, including blood glucose, in product markets where the product
is intended to be used by a professional medical caregiver. In February 2009, in order to accelerate the product development of an improved hemoglobin spot-check measurement device, Pronto-7®, we agreed to fund additional Cercacor’s engineering expenses. Specifically, these expenses included third-party engineering materials and supplies expense, as well as 50% of total Cercacor’s engineering and engineering related payroll expenses from April 2009 through June 2010, the original anticipated completion date of this product development effort. Since July 2010, Cercacor has continued to assist us with product development efforts and charged us accordingly. Beginning in 2012, due to a revised estimate of the support required by us to complete the various Pronto-7® related projects, our Board of Directors approved an increase in the percentage of Cercacor’s total engineering and engineering related payroll expenses funded by us from 50% to 60%. During the year ended December 28, 2013, and until both parties agree to end these services, Cercacor has and will continue to assist us with continuing productization efforts of the new handheld noninvasive multiparameter testing device, that provides spot-check hemoglobin testing. During the year ended December 28, 2013, the total expenses for these additional services, material and supplies totaled $4.1 million.
Pursuant to authoritative accounting guidance, Cercacor is consolidated within our financial statements for all periods presented. This determination is based on our ability to direct the activities that most significantly impact Cercacor’s economic performance, and our obligation to absorb Cercacor’s expected losses. For the foreseeable future, we anticipate that we will continue to consolidate Cercacor pursuant to the current authoritative accounting guidance; however, in the event that Cercacor is no longer considered a variable interest entity (VIE), or in the event that we are no longer the primary beneficiary of Cercacor, we may discontinue consolidating the entity. For additional discussion of Cercacor, see Note 3 to our accompanying consolidated financial statements.
Business Combinations
On March 9, 2012, we acquired substantially all of the assets of Spire Semiconductor, LLC, a maker of advanced light emitting diode and other advanced component-level technologies. Masimo Semiconductor, Inc. (Masimo Semiconductor), our wholly-owned subsidiary, operates the business. This acquisition provided us an advanced ability to develop custom components, accelerate development cycles, and optimize future product costs. Masimo Semiconductor specializes in wafer epitaxy, foundry services, and device fabrication for biomedical, telecommunications, consumer products and other markets. For additional information, see Note 4 to our accompanying consolidated financial statements.
On July 27, 2012, we acquired PHASEIN AB (Phasein), a developer and manufacturer of ultra-compact mainstream and sidestream capnography and gas monitoring technologies. The acquisition of Phasein’s technologies complements our breakthrough innovations for patient monitoring with a portfolio of products ranging from OEM solutions for external “plug-in-and-measure” capnography and gas analyzers and integrated modules to handheld capnometer devices. With multiple measurements delivered through either mainstream or sidestream options, our customers can benefit from CO2, N2O, O2, and anesthetic agent monitoring in many hospital environments, such as operating rooms, procedural sedation and intensive care units. For additional information, see Note 4 to our accompanying consolidated financial statements.
Results of Operations
The following table sets forth, for the periods indicated, our results of operations expressed as Dollar amounts and as a percentage of revenue.
|
| | | | | | | | | | | | | | | | | | | | |
| Year ended December 28, 2013 | | Year ended December 29, 2012 | | Year ended December 31, 2011 |
| Amount | | % of Revenue | | Amount | | % of Revenue | | Amount | | % of Revenue |
| (in thousands, except percentages) |
Revenue: | | | | | | | | | | | |
Product | $ | 517,429 |
| | 94.6 | % | | $ | 464,928 |
| | 94.3 | % | | $ | 406,487 |
| | 92.6 | % |
Royalty | 29,816 |
| | 5.4 |
| | 28,305 |
| | 5.7 |
| | 32,501 |
| | 7.4 |
|
Total revenue | 547,245 |
| | 100.0 |
| | 493,233 |
| | 100.0 |
| | 438,988 |
| | 100.0 |
|
Cost of goods sold | 188,418 |
| | 34.4 |
| | 166,982 |
| | 33.9 |
| | 144,854 |
| | 33.0 |
|
Gross profit | 358,827 |
| | 65.6 |
| | 326,251 |
| | 66.1 |
| | 294,134 |
| | 67.0 |
|
Operating expenses: | | | | | | | | | | | |
Selling, general and administrative | 215,469 |
| | 39.4 |
| | 193,948 |
| | 39.3 |
| | 169,205 |
| | 38.5 |
|
Research and development | 55,631 |
| | 10.2 |
| | 47,077 |
| | 9.5 |
| | 38,412 |
| | 8.8 |
|
Litigation award and defense costs | 8,010 |
| | 1.5 |
| | — |
| | — |
| | — |
| | — |
|
Total operating expenses | 279,110 |
| | 51.0 |
| | 241,025 |
| | 48.9 |
| | 207,617 |
| | 47.3 |
|
Operating income | 79,717 |
| | 14.6 |
| | 85,226 |
| | 17.3 |
| | 86,517 |
| | 19.7 |
|
Non-operating income (expense) | (3,991 | ) | | (0.7 | ) | | (1,405 | ) | | (0.3 | ) | | 14 |
| | — |
|
Income before provision for income taxes | 75,726 |
| | 13.8 |
| | 83,821 |
| | 17.0 |
| | 86,531 |
| | 19.7 |
|
Provision for income taxes | 20,005 |
| | 3.7 |
| | 21,883 |
| | 4.4 |
| | 22,478 |
| | 5.1 |
|
Net income including noncontrolling interests | 55,721 |
| | 10.2 |
| | 61,938 |
| | 12.6 |
| | 64,053 |
| | 14.6 |
|
Net (income) loss attributable to noncontrolling interests | 2,660 |
| | 0.5 |
| | 334 |
| | 0.1 |
| | (353 | ) | | (0.1 | ) |
Net income attributable to Masimo Corporation stockholders | $ | 58,381 |
| | 10.7 | % | | $ | 62,272 |
| | 12.6 | % | | $ | 63,700 |
| | 14.5 | % |
Comparison of the Year ended December 28, 2013 to the Year ended December 29, 2012
Revenue. Total revenue increased $54.0 million, or 11.0% to $547.2 million for the year ended December 28, 2013, from $493.2 million for the year ended December 29, 2012. Product revenues increased $52.5 million, or 11.3%, to $517.4 million in the year ended December 28, 2013 from $464.9 million in the year ended December 29, 2012. This increase was primarily due to higher consumable sales resulting from an increase in our installed base of circuit boards and pulse oximeters which we estimate totaled 1,205,000 units at December 28, 2013, up from 1,088,000 units at December 29, 2012. Contributing to the increase in our product revenue was our rainbow® technology product revenues, which increased $8.5 million, or 21.3%, to $48.8 million in the year ended December 28, 2013 from $40.3 million in the year ended December 29, 2012. Product revenue related to our acquisition of Phasein and Masimo Semiconductor businesses approximated $12.8 million and $3.8 million, respectively for the year ended December 28, 2013, compared to $4.4 million and $3.1 million, respectively, for the year ended December 29, 2012. Revenue generated through our direct and distribution sales channels increased $42.6 million, or 10.8%, to $438.8 million for the year ended December 28, 2013, compared to $396.2 million for the year ended December 29, 2012. During the year ended December 28, 2013, revenues from our OEM channel increased $9.9 million, or 14.4%, to $78.6 million from $68.7 million in the year ended December 29, 2012.
Our royalty revenue increased $1.5 million to $29.8 million in the year ended December 28, 2013, from $28.3 million in the year ended December 29, 2012. This increase in revenue was due to an increase in eligible Covidien U.S. pulse oximetry sales.
Cost of Goods Sold. Cost of goods sold increased $21.4 million to $188.4 million in the year ended December 28, 2013, from $167.0 million in the year ended December 29, 2012. Our total gross margin decreased to 65.6% for the year ended December 28, 2013 from 66.1% for the year ended December 29, 2012. Excluding royalties, product gross margin declined to 63.6% for the year ended December 28, 2013 from 64.1% for the year ended December 29, 2012. This slight decline in product gross margin was primarily due to the negative impact of foreign exchange rates, as well as incremental inventory and asset valuation provisions associated with product and sourcing transitions, which were partially offset by other manufacturing cost reductions. We incurred $5.4 million and $5.0 million in Cercacor royalty expenses for the years ended December 28, 2013 and
December 29, 2012, respectively, which have been eliminated in our consolidated financial results for the periods presented. Had these royalty expenses not been eliminated, our reported product gross profit margin would have been 62.6% and 63.0% for the year ended December 28, 2013 and December 29, 2012, respectively.
Selling, General and Administrative. Selling, general and administrative expenses increased $21.5 million, or 11.1%, to $215.5 million for the year ended December 28, 2013 from $193.9 million for the year ended December 29, 2012. Excluding the new medical device excise tax of $6.3 million, selling, general and administrative expenses increased $15.2 million, or 7.9%, to $209.1 million for the year ended December 28, 2013 from $193.9 million for the year ended December 29, 2012. This increase was primarily due to $8.4 million of additional payroll and related costs associated with higher staffing levels related to the establishment of our new worldwide blood management sales team. Included in total selling, general and administrative expenses are $2.5 million of direct expenses incurred by Cercacor for each of the years ended December 28, 2013 and December 29, 2012.
Research and Development. Research and development expenses increased $8.5 million, or 18.2%, to $55.6 million for the year ended December 28, 2013 from $47.1 million for the year ended December 29, 2012. This increase was primarily due to increased payroll and payroll related costs of $4.1 million associated with increased research and development staffing levels due to investment in research and development efforts. In addition, new project costs and engineering supplies increased $1.2 million related to new product development projects and additional clinical trial costs. Included in total research and development expenses are $3.9 million and $3.7 million of engineering expenses incurred by Cercacor for the year ended December 28, 2013 and December 29, 2012, respectively.
Litigation Award and Defense Costs. For the year ended December 28, 2013, we recorded a charge for $5.4 million in damages awarded by an arbitrator on an employment claim filed by certain former physician office sales representatives. In addition, we recorded a charge for $2.6 million in defense costs related to such employment claim that our insurance carrier believes may not be reimbursable. While we intend to challenge the arbitrator award and the insurance carrier’s position, there can be no assurance that we will prevail. We did not record any similar charges in the year ended December 29, 2012.
Non-operating income (expense). Non-operating expense was $4.0 million for the year ended December 28, 2013, as compared to non-operating expense of $1.4 million for the year ended December 29, 2012. This net change of $2.6 million was primarily due to the recognition of $4.0 million of net realized and unrealized losses on foreign currency denominated transactions during the year ended December 28, 2013, as compared to $1.6 million during the year ended December 29, 2012. The net realized and unrealized losses recognized during the year ended December 28, 2013 and December 29, 2012 resulted primarily from the strengthening of the U.S. Dollar against the Japanese Yen, partially offset by the weakening of the U.S. Dollar against the Euro.
Provision for Income Taxes. Our provision for income taxes was $20.0 million for the year ended December 28, 2013 compared to $21.9 million for the year ended December 29, 2012. Our effective tax rate increased slightly to 26.4% for the year ended December 28, 2013, compared to 26.1% for the year ended December 29, 2012. This increase in the effective tax rate was due primarily to the establishment of a valuation allowance against the net deferred tax assets of Cercacor, which was partially offset by the retroactive reinstatement of the federal research tax credit pursuant to the American Taxpayer Relief Act of 2012 (Tax Act). The Tax Act extended the research tax credit retroactively to 2012 and prospectively through the end of 2013. The effects of the change in the tax law were recognized in the first quarter of fiscal 2013, which is the quarter when the law was enacted, and resulted in a rate benefit of approximately 1.4% for the year ended December 28, 2013.
Our effective tax rate was lower than the U.S. federal statutory rate primarily due to research and development tax credits and a portion of our earnings being generated from countries other than the U.S., where such earnings are generally subject to lower tax rates than the U.S. We expect this trend to continue in the future. We have made no provision for U.S. income taxes or foreign withholding taxes on the earnings of our foreign subsidiaries as these amounts are intended to be indefinitely reinvested in operations outside the U.S.
Comparison of the Year ended December 29, 2012 to the Year ended December 31, 2011
Revenue. Total revenue increased $54.2 million, or 12.4%, to $493.2 million for the year ended December 29, 2012 from $439.0 million for the year ended December 31, 2011. Product revenues increased $58.4 million, or 14.4%, to $464.9 million in the year ended December 29, 2012 from $406.5 million in the year ended December 31, 2011. This increase was primarily due to higher consumable sales resulting from an increase in our installed base of circuit boards and pulse oximeters which we estimate totaled 1,088,000 units at December 29, 2012, up from 979,000 units at December 31, 2011. Contributing to the increase in our product revenue was our rainbow® technology product revenues, which increased $6.2 million, or 18.2%, to $40.3 million in the year ended December 29, 2012 from $34.1 million in the year ended December 31, 2011. Product revenue of $464.9 million during the year ended December 29, 2012 included $4.4 million and $3.1 million from the recently acquired Phasein and Masimo Semiconductor businesses, respectively. Revenue generated through our direct and distribution sales channels increased $53.3 million, or 15.6%, to $396.2 million for the year ended December 29, 2012, compared to $342.9 million for the year ended December 31, 2011. During the year ended December 29, 2012, revenues from our OEM channel
increased $5.1 million, or 8.0%, to $68.7 million from $63.6 million in the year ended December 31, 2011. Included in this increase was $3.6 million from the recently acquired Phasein business.
Our royalty revenue decreased $4.2 million to $28.3 million in the year ended December 29, 2012 from $32.5 million in the year ended December 31, 2011. This reduction in revenue was primarily due to a reduction in the royalty rate from 13.0% to 7.75% of Covidien’s U.S. pulse oximetry sales, which became effective on March 15, 2011. This rate reduction was the result of a second amendment to the original settlement agreement with Covidien, which we entered into on January 28, 2011.
Cost of Goods Sold. Cost of goods sold increased $22.1 million to $167.0 million in the year ended December 29, 2012 from $144.9 million in the year ended December 31, 2011. Our total gross margin decreased to 66.1% for the year ended December 29, 2012 from 67.0% for the year ended December 31, 2011. Excluding royalties, product gross margin declined to 64.1% for the year ended December 29, 2012 from 64.4% for the year ended December 31, 2011. This decline in product margin was primarily due to the incremental costs associated with the roll out of a new sensor technology, called X-CalTM, and the impact of lower product margins associated with the recently acquired Masimo Semiconductor and Phasein businesses. These declines were partially offset by decreased amortization costs associated with equipment placed at hospitals, selected inventory charge-offs related to product redesign and transition activities in 2011 that did not reoccur in 2012, and manufacturing efficiency improvements in 2012. Excluding Masimo Semiconductor and Phasein, our product gross margin would have been 65.2% for the year ended December 29, 2012. We incurred $5.0 million in Cercacor royalty expenses for both the year ended December 29, 2012 and December 31, 2011, which have been eliminated in our consolidated financial results for the periods presented. Had these royalty expenses not been eliminated, our reported product gross profit margin would have been 63.0% and 63.1% for the year ended December 29, 2012 and December 31, 2011, respectively.
Selling, General and Administrative. Selling, general and administrative expenses increased $24.7 million, or 14.6%, to $193.9 million for the year ended December 29, 2012 from $169.2 million for the year ended December 31, 2011. Excluding Masimo Semiconductor and Phasein, selling, general and administrative expenses would have increased $21.6 million to $190.8 million for the year ended December 29, 2012. This increase was primarily due to a $9.8 million increase in payroll and related costs associated with increased staffing levels. In addition, total trade show, advertising and training expenses increased by $7.4 million, primarily due to additional trade shows attended, including a worldwide trade show in Q1 2012, which is only held once every four years. Also, legal fees increased $2.0 million due to increased litigation activity. Included in total selling, general and administrative expenses are $2.5 million and $1.9 million of direct expenses incurred by Cercacor for the year ended December 29, 2012 and December 31, 2011, respectively.
Research and Development. Research and development expenses increased $8.7 million, or 22.6%, to $47.1 million for the year ended December 29, 2012 from $38.4 million for the year ended December 31, 2011. Excluding Masimo Semiconductor and Phasein, research and development expenses would have increased $8.0 million, or 20.7%, to $46.4 million for the year ended December 29, 2012. This increase was primarily due to increased payroll and payroll related costs of $4.1 million associated with increased research and development staffing levels due to investment in research and development efforts. In addition, new project costs and engineering supplies increased $2.2 million related to new product development projects and additional clinical trial costs. Included in total research and development expenses are $3.7 million and $3.4 million of engineering expenses incurred by Cercacor for the year ended December 29, 2012 and December 31, 2011, respectively.
Non-operating income (expense). Non-operating expense was $1.4 million for the year ended December 29, 2012, as compared to non-operating income of $14,000 for the year ended December 31, 2011. This net change of $1.4 million was primarily due to the recognition of net realized and unrealized losses on foreign currency denominated transactions during the year ended December 29, 2012 of $1.6 million, as compared to the recognition of net realized and unrealized losses on foreign currency denominated transactions of $0.1 million during the year ended December 31, 2011. The net realized and unrealized losses recognized during the year ended December 29, 2012 resulted primarily from the strengthening of the U.S. dollar against the Japanese Yen, partially offset by the weakening of the U.S. dollar against the Euro. The realized and unrealized net losses on foreign currency denominated transactions recognized during the year ended December 31, 2011 resulted primarily from losses due to the strengthening of the U.S. dollar against the Euro, the British pound, the Canadian dollar and the Australian dollar, offset by gains due to the weakening of the U.S. dollar against the Japanese Yen.
Provision for Income Taxes. Our provision for income taxes was $21.9 million for the year ended December 29, 2012 compared to $22.5 million for the year ended December 31, 2011. Our effective tax rate increased to 26.1% for the year ended December 29, 2012, compared to 26.0% for the year ended December 31, 2011. This increase in the effective tax rate was due primarily to the suspension of the federal research tax credit and increase in non-deductible items, which was offset by an effective tax rate decrease due to the income tax benefit resulting from the conclusion of a prior year tax audit, and the derecognition of uncertain tax positions due to the expiration of the statute of limitations. The American Taxpayer Relief Act of 2012, or the Tax Act, extended the research tax credit retroactively to 2012 and prospectively through the end of 2013. The effects of the change in the tax law will be recognized in the first quarter of fiscal 2013, which is the quarter when the law was enacted. If the Tax Act had been enacted as of December 29, 2012, the research tax credit would have reduced our 2012 effective tax rate by 1.2%. Our
future effective income tax rate will depend on various factors, including profits (losses) before taxes, changes to tax law, the recognition and derecognition of tax benefits associated with uncertain tax positions and the geographic composition of pre-tax income.
Liquidity and Capital Resources
As of December 28, 2013, we had cash and cash equivalents of $95.5 million, of which $26.0 million was invested in U.S. Treasury bills, $1.8 million was in money market accounts with major financial institutions and $67.7 million was in checking accounts. The U.S. Treasury bills are classified as cash equivalents since they are highly liquid investments, with a maturity of three months or less at the date of purchase. We carry cash equivalents at cost which approximates fair value.
As of December 28, 2013, cash totaling $51.3 million was held outside of the U.S. A substantial portion of this cash held offshore is accessible without a significant tax cost. In managing our day-to-day liquidity and our capital structure, we do not rely on foreign earnings as a source of funds. We currently have sufficient funds for domestic operations and do not anticipate the need to repatriate funds associated with our permanently reinvested foreign earnings. In the event funds that are treated as permanently reinvested are repatriated, we may be required to accrue and pay additional U.S. taxes to repatriate these funds.
During fiscal years 2013, 2012, and 2011, we received $29.8 million, $28.3 million, and $32.5 million, respectively, in cash receipts from Covidien for royalties pursuant to our settlement agreement. Through March 14, 2011, we received a royalty payment based on a rate of 13% of Covidien’s U.S. pulse oximetry sales. On January 28, 2011, we entered into a second amendment to the settlement agreement with Covidien. As part of this amendment, which became effective as of March 14, 2011, Covidien agreed to pay us a royalty of 7.75% on its U.S. pulse oximetry revenue, as specifically defined in that second amendment, at least through March 15, 2014.
In August 2011, our Board authorized the repurchase of up to 3.0 million shares of common stock under a repurchase program. During the year ended December 31, 2011, 1.8 million shares were repurchased, at an average price of $19.61 per share, totaling $36.2 million. During the year ended December 29, 2012, 1.2 million shares were repurchased, at an average price of $22.74 per share, totaling $26.3 million, which completed the stock repurchase program. In February 2013, our Board authorized the repurchase of up to 6.0 million shares of common stock under a new repurchase program which is expected to continue for a period of up to 36 months from the effective date of the program unless it is terminated earlier by our Board. We expect to fund the stock repurchase program through our available cash, future cash from operations, or other potential sources of capital. During the year ended December 28, 2013, 1.0 million shares were repurchased, at an average price of $19.79 per share, totaling $19.8 million. We funded all of these share repurchases from available cash and cash equivalents.
In October 2012, our Board declared a