National Medical Policy Subject: Mobile Outpatient Cardiac Telemetry (e.g. CardioNet, Nuvant ) Policy Number: NMP161 Effective Date*: July 2004 Updated: May 2014 This National Medical Policy is subject to the terms in the IMPORTANT NOTICE at the end of this document For Medicaid Plans: Please refer to the appropriate Medicaid Manuals for coverage guidelines prior to applying Health Net Medical Policies The Centers for Medicare & Medicaid Services (CMS) For Medicare Advantage members please refer to the following for coverage guidelines first: Use X National Coverage Determination (NCD) Reference/Website Link Electrocardiographic Services: http://www.cms.gov/medicare-coveragedatabase/search/advanced-search.aspx National Coverage Manual Citation Local Coverage Determination (LCD)* X Article (Local)* Other ECG-based Signal Analysis Technologies: http://www.cms.gov/medicare-coveragedatabase/details/technology-assessmentsdetails.aspx?TAId=73&CoverageSelection=Natio nal&KeyWord=arrhythmia&KeyWordLookUp=Titl e&KeyWordSearchType=And&bc=gAAAABAAAAA A& Systematic Review of ECG-based Signal Analysis Technologies for Evaluating Patients With Acute Coronary Syndrome: Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 1 http://www.cms.gov/medicare-coveragedatabase/details/technology-assessmentsdetails.aspx?TAId=83&CoverageSelection=Natio nal&KeyWord=arrhythmia&KeyWordLookUp=Titl e&KeyWordSearchType=And&bc=gAAAABAAAAA A& None Use Health Net Policy Instructions Medicare NCDs and National Coverage Manuals apply to ALL Medicare members in ALL regions. Medicare LCDs and Articles apply to members in specific regions. To access your specific region, select the link provided under “Reference/Website” and follow the search instructions. Enter the topic and your specific state to find the coverage determinations for your region. *Note: Health Net must follow local coverage determinations (LCDs) of Medicare Administration Contractors (MACs) located outside their service area when those MACs have exclusive coverage of an item or service. (CMS Manual Chapter 4 Section 90.2) If more than one source is checked, you need to access all sources as, on occasion, an LCD or article contains additional coverage information than contained in the NCD or National Coverage Manual. If there is no NCD, National Coverage Manual or region specific LCD/Article, follow the Health Net Hierarchy of Medical Resources for guidance. Current Policy Statement (Refer also to Health Net Medical Policy, Implantable Cardiac Event Monitors) Health Net, Inc. considers Mobile Outpatient Cardiac Telemetry (MCOT) medically necessary in a very select patient population who meet all of the following: 1. Patient has symptoms suggestive of an underlying arrhythmia, such as: a. Pre-syncope and syncope of unknown etiology b. Dizziness or lightheadedness c. Stroke or transient cerebral ischemia, possibly secondary to atrial fibrillation 2. A Holter monitor does not detect any arrhythmia during a 24-hour period, or symptoms occur infrequently (less frequently than daily) such that the arrhythmia is unlikely to be diagnosed by Holter monitoring. 3. A cardiac event monitor (i.e., external loop recorder) for 30 continuous days has failed to reveal an underlying arrhythmia as the cause of the symptoms; or the episodes do not last long enough to activate the monitor reliably; or the individual is unable to manage the technical requirements of a standard loop recorder 4. It is anticipated that the results of this service would provide diagnostic and treatment information 5. Patients who are at low risk of developing primary ventricular fibrillation or sustained ventricular tachycardia. Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 2 6. Symptomatic patients who require monitoring for non life-threatening arrhythmias, such as atrial fibrillation, other supra-ventricular arrhythmias, evaluation of various brady-arrhythmias and intermittent bundle branch block, such as any of the following: Patients recovering from coronary artery bypass graft surgery or valve replacement surgery who have had documented symptomatic atrial arrhythmias Patients with symptomatic underlying structural heart disease Patients with no structural heart disease but who have recurrent severe symptoms (i.e., recurrent syncope), in whom all testing (e.g. cardiac catheterization, EPS, tilt table testing) is negative and an implantable event recorder is contemplated Patients with uncontrolled atrial fibrillation post-pneumonectomy Investigational Health Net Inc. considers the Zio Patch investigational as a type of mobile outpatient cardiac telemetry (MCOT). Although studies are currently being done, additional, larger, peer-reviewed and comparative studies with devices currently being used to assess cardiac arrhythmias are necessary to determine if Zio Patch is equal to or superior in clinical outcomes. Not Medically Necessary Health Net Inc. considers Mobile Outpatient Cardiac Telemetry (MCOT) not medically necessary for any of the following: 1. Patients who have a history of sustained ventricular tachycardia or a documented occurrence of ventricular fibrillation 2. Patients who the attending physician thinks will be at risk for ventricular tachycardia or ventricular fibrillation as indicated by the following: Family history with a high likelihood of life-threatening arrhythmias Mild to moderate symptoms (i.e., palpitations or weakness) A measured ejection fraction of less than 30% with a widened QRS A measured ejection fraction of less than 35% with complex ventricular ectopic activity (> 10 PVCs per hour or repetitive PVCs) Unstable angina defined as chest pain at rest, a new onset of angina, or a change in existing patterns of angina Patients with a recent (< 3 months) myocardial infarction (MI) Patients who are candidates for or have had recent heart valve surgery Patients with moderate to severe symptoms (i.e., syncope or near syncope) with underlying structural disease and a high likelihood of serious arrhythmias Patients who would be more appropriately cared for in a hospital setting This system is also NOT indicated for use as a screening tool. Codes Related To This Policy Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 3 NOTE: The codes listed in this policy are for reference purposes only. Listing of a code in this policy does not imply that the service described by this code is a covered or noncovered health service. Coverage is determined by the benefit documents and medical necessity criteria. This list of codes may not be all inclusive. On October 1, 2015, the ICD-9 code sets used to report medical diagnoses and inpatient procedures will be replaced by ICD-10 code sets. Health Net National Medical Policies will now include the preliminary ICD-10 codes in preparation for this transition. Please note that these may not be the final versions of the codes and that will not be accepted for billing or payment purposes until the October 1, 2015 implementation date. ICD-9 Codes 426.0 Atrioventricular block, complete 426.10 - Atrioventricular block, other and unspecified 426.13 426.2 Left bundle branch hemiblock 426.3 Other left bundle branch block 426.4 Right bundle branch block 426.50 - Bundle branch block, other and unspecified 426.54 426.6 Other heart block 426.7 Anomalous atrioventricular excitation 426.81 Other specified conduction disorders 426.89 Other specified conduction disorders 426.9 Conduction disorder, unspecified 427.0 Paroxysmal supraventricular tachycardia 427.31 Atrial fibrillation 427.32 Atrial flutter 427.61 Supraventricular premature beats 427.81 Sinoatrial node dysfunction 780.2 Syncope and collapse ICD-10 Codes I44.0- I44.7 I45.0-I45.9 I47.1 I48.0-I48.9 I49.1 I49.5 R55 Atrioventricular and left bundle-branch block Other conduction disorders Supraventricular tachycardia Atrial fibrillation and flutter Atrial premature depolarization Sick sinus syndrome Syncope and collapse Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 4 CPT Codes 93228 93229 0295T 0296T 0297T 0298T External mobile cardiovascular telemetry with electrocardiographic recording, concurrent computerized real time data analysis and greater than 24 hours of accessible ECG data storage (retrievable with query) with ECG triggered and patient selected events transmitted to a remote attended surveillance center for up to 30 days; review and interpretation with report by a physician or other qualified health care professional (revised in 2013) External mobile cardiovascular telemetry with electrocardiographic recording, concurrent computerized real time data analysis and greater than 24 hours of accessible ECG data storage (retrievable with query) with ECG triggered and patient selected events transmitted to a remote attended surveillance center for up to 30 days; technical support for connection and patient instructions for use, attended surveillance, analysis and physician prescribed transmission of daily and emergent data reports as prescribed by a physician or other qualified health care professional External electrocardiographic recording for more than 48 hours up to 21 days by continuous rhythm recording and storage; includes recording, scanning, analysis with report, review and interpretation External electrocardiographic recording for more than 48 hours up to 21 days by continuous rhythm recording and storage; recording (includes connection and initial recording) External electrocardiographic recording for more than 48 hours up to 21 days by continuous rhythm recording and storage; scanning analysis with report External electrocardiographic recording for more than 48 hours up to 21 days by continuous rhythm recording and storage; review and interpretation HCPCS Codes N/A Scientific Rationale – Update May 2014 Ambulatory electrocardiography (ECG) is a noninvasive test most frequently used to evaluate cardiac rhythm abnormalities. Several devices are currently available. Devices can record cardiac rhythm continuously or intermittently and can be worn externally or implanted subcutaneously. The choice of a monitoring modality depends on the presenting symptom, symptom frequency, and degree of suspicion of a life-threatening arrhythmia: 1. Traditional Holter monitors store 24 to 48 hours of data and require offline analysis after the patient returns the device. The recorders use patient-activated event markers (annotations) specified for the time of day. The major advantages of Holter monitoring are the ability to continuously record ECG data and the lack of need for patient participation in the transmission of data. The short duration of monitoring can be inadequate if symptoms are infrequent. Limitations of Holter monitoring include frequent noncompliance with keeping a log of symptoms and using event markers, which significantly limits the diagnostic value of these devices. The absence of real-time data analysis can also be an important clinical limitation of these devices. Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 5 2. Event monitors (i.e., intermittent patient- or event-activated recorders): Continuous looping monitors are attached to the patient through chest electrodes or a wrist band and record (save) data only when activated by the patient. Some of these devices have automatic triggers that recognize slow, fast, or irregular heart rates. Once activated, data are stored for a programmable fixed amount of time before the activation (looping memory) and a period of time after the activation. These devices are also referred to as external loop recorders (ELRs). Event monitors are generally used for 14- to 30-day monitoring periods. The data are transmitted trans-telephonically to a central monitoring station and then uploaded to a personal computer for analysis. The major advantage of these devices compared with a traditional Holter monitor is that they are small, allow ECG monitoring for longer time periods, and can provide nearly real-time data analysis when the patient transmits a recording in proximity to the symptomatic event. The limitations of these devices include the following: The patient has to be awake and coherent enough to activate the device unless automatic activation/trigger for cardiac pauses, tachyarrhythmias, and bradyarrhythmias are built into the monitor; in the case of continuously worn devices, a significant percentage of patients are noncompliant with continuous application of the device (mostly because lead irritation/poor skin contact during exercise); and both continuous and postevent recorders require a degree of technological sophistication to transmit the stored data transtelephonically to the central monitoring station. The 3. Real-time continuous attended cardiac monitoring systems represent the newest form of external ambulatory monitors developed to combine the benefits and overcome the limitations of Holter and standard external loop monitors (ELRs). They are worn continuously and are similar in size to the standard ELR. They automatically record and transmit arrhythmic event data from an ambulatory patient to an attended monitoring station. Data can also be recorded through patient-triggered activation. With these devices, cardiac activity is continuously monitored by 3 chest electrodes (some systems use a chest belt with built-in nonadhesive electrodes) that are attached to a pager-sized sensor. The sensor transmits collected data to a portable monitor that has a built-in cell phone and needs to be in proximity to the patient to receive signals. The monitor is equipped with software that analyzes the rhythm data continuously and automatically. If an arrhythmia is detected by an arrhythmia algorithm, the monitor automatically transmits recorded data transtelephonically (by wireless network or land phone line) to a central monitoring station for subsequent analysis. Any patient-activated data also are transmitted. Trained staff members at a monitoring station analyze live incoming patient data and contact the referring physician and patient according to predetermined criteria. A built-in cellular phone allows transmission of data from the monitor to the central station when the patient is away from home. The key features of these devices include continuous real-time ECG monitoring for an extended period of time (up to 30 days) without the requirement of patient activation an transmission of data. The data are transmitted and analyzed immediately by technicians who can contact the patient and/or the physician if an urgent intervention is needed The prototype of this technology is the CardioNet system (also referred to as mobile continuous outpatient telemetry, or MCOT system). Other systems are a Z-patch (for 14 days monitoring) or a Lifestar (for 30 day monitoring). With these devices, cardiac activity is continuously recorded by chest electrodes that Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 6 are attached to a pager-sized sensor. The sensor wirelessly transmits collected data to a portable monitor that needs to be within 30 feet of the patient to receive signals. The monitor is equipped with a computer program that analyzes the rhythm data. If an arrhythmia is detected by an arrhythmia algorithm, the monitor automatically transmits recorded data wirelessly via the internet or via a land phone to a central monitoring station for subsequent analysis. Patient activated data is also transmitted. Trained staff at the monitoring station analyze live incoming patient data and can contact the patient's clinician if instructed to do so according to a prespecified set of rules provided by the clinician. 4. Implantable loop recorders (ILRs) are subcutaneously implanted arrhythmiamonitoring devices. These leadless devices record a single-lead ECG signal through 2 electrodes within the device. The device can be triggered automatically or by patient activation via placement of an activator over the device. The newest generations of these devices allow remote transmission of data and have a battery life in excess of 24 months. Although these devices require surgical implantation, they have been shown to be extremely useful in diagnosing serious tachyarrhythmias and bradyarrhythmias in patients with lifethreatening symptoms such as syncope. The optimal duration of monitoring largely depends on symptom frequency. In the evaluation of palpitations, patients who experience daily symptoms can be evaluated with a Holter monitor. More often, palpitations are sporadic and require slightly longer monitoring. Syncope, in contrast, typically requires significantly longer monitoring period, and the diagnostic yield of ambulatory monitors of any sort is extremely limited. The value of arrhythmia monitoring for syncope is both to identify an arrhythmia as a cause for syncope and to document a syncopal event without a corresponding arrhythmia, thus suggesting a nonarrhythmic cause. A report of the American College of Cardiology/American Heart Association Task Force and the European Society of Cardiology Committee Guideline for Management of Patients With Ventricular Arrhythmias and the Prevention of Sudden Cardiac Death make the following recommendations regarding ambulatory electrocardiography (ECG): Class I 1. Ambulatory ECG is indicated when there is a need to clarify the diagnosis by detecting arrhythmias, QT interval changes, T-wave alternans (TWA), or ST changes, to evaluate risk, or to judge therapy. (Level of Evidence: A) 2. Event monitors are indicated when symptoms are sporadic to establish whether or not they are caused by transient arrhythmias. (Level of Evidence: B) 3. Implantable recorders are useful in patients with sporadic symptoms suspected to be related to arrhythmias such as syncope when a symptom-rhythm correlation cannot be established by conventional diagnostic techniques. (Level of Evidence: B) The guidelines note further, “The use of continuous or intermittent ambulatory recording techniques can be very helpful in diagnosing a suspected arrhythmia, establishing its frequency, and relating symptoms to the presence of the arrhythmia. Silent myocardial ischemic episodes may also be detected. A 24- to 48-h continuous Holter recording is appropriate whenever the arrhythmia is known or suspected to Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 7 occur at least once a day. For sporadic episodes producing palpitations, dizziness, or syncope, conventional event monitors are more appropriate because they can record over extended periods of time.” ACC/AHA/ESC 2006 Guidelines for Management of Patients With Ventricular Arrhythmias and the Prevention of Sudden Cardiac Death report state a 24- to 48-h continuous Holter recording is appropriate whenever the arrhythmia is known or suspected to occur at least once a day. For sporadic episodes producing palpitations, dizziness, or syncope, conventional event monitors are more appropriate because they can record over extended periods of time. Per the Heart Rhythm Society (HRS) document on “Technologies for Arrhythmia Diagnosis/Management”, “The EKG and Holter monitors can diagnosis asymptomatic arrhythmias and give information on the initiation/transition/termination of arrhythmias but are limited by the duration of monitoring, can miss intermittent arrhythmias, and do not give information of the burden of arrhythmia over an extended time. Event recorders are generally limited to symptomatic episodes but miss asymptomatic episodes, do not provide information about the initiation/transition/termination of arrhythmias, give very limited information of burden of arrhythmias, and usually are of very limited use in syncope because an unconscious patient cannot place the monitor on the chest to make the recording. External and insertable looping recorders are more long-term in monitoring that can allow better diagnosis of intermittent arrhythmias including syncope if activated but due to the limitations of memory and appropriate activation, can miss asymptomatic arrhythmias, and crucial information about initiation/transition/termination of arrhythmias. External loop recorders give limited information on longitudinal burden and rates during arrhythmia.” The HRS report that Mobile cardiac outpatient telemetry (MCOT) and continuous long-term monitoring are also approved technologies and can fill important gaps in arrhythmia diagnosis noted above. Both of these long-term continuous monitors not only have the ability to document burden, symptoms and correlate them to the entire rhythm episode, but also have the added ability to record and analyze asymptomatic arrhythmias. HRS reports these technologies can be particularly important in the setting of diagnosing patients with atrial fibrillation, cryptogenic stroke and after atrial fibrillation ablation. Per the HRS document, “Non-invasive continuous monitors (MCOT or long-term continuous monitors) fill a very important role in arrhythmia diagnosis and management. They have specific utility in diagnosing asymptomatic arrhythmias as well as intermittent arrhythmias that do not happen daily or are difficult to capture with an event recorder due to loss of consciousness or the duration of arrhythmia. Utilization of these technologies has demonstrated appreciable impact on patient care and should be recognized and reimbursed appropriately.” 2012 HRS/EHRA/ECAS Expert Consensus Statement on Catheter and Surgical Ablation of Atrial Fibrillation: Recommendations for Patient Selection, Procedural Techniques, Patient Management and Follow-up, Definitions, Endpoints, and Research Trial Design” report: “Arrhythmia monitoring can be performed with the use of noncontinuous or continuous ECG monitoring tools. Choice of either method depends on individual Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 8 need and consequence of arrhythmia detection. Basically, more intensive monitoring is associated with a greater likelihood of detecting both symptomatic and asymptomatic AF. They state further in the guidelines that a four-week autotrigger event monitor, mobile cardiac outpatient telemetry system, or implantable subcutaneous monitor may identify less frequent AF. de Asmundis et al (2014) compared the diagnostic value of Holter ECG and a patient-activated event recorder (OMRON portable HeartScan ECG Monitor) (HeartScan) in the detection of arrhythmias in patients with paroxysmal palpitations or dizziness suggestive of cardiac arrhythmias. Patients with paroxysmal palpitations or dizziness were eligible for this study. All patients underwent an HM for 24 h and a 15-day HeartScan after the HM. Six hundred and twenty-five patients (48% male, mean age: 37 ± 11 years) were included in the study. All patients present with normal heart structure, normal baseline 12-lead ECG, and normal echocardiogram. Indications for ECG monitoring were palpitations in 577 patients (92.3%) and dizziness in 48 (7.7%). Holter monitoring offered a clinical diagnosis in 11 patients (1.8%). Conversely, HeartScan diagnosed the clinical arrhythmia in 558 individuals (89%). Detection of symptoms-related arrhythmias by means of HeartScan was significantly higher when compared with HM (P < 0.01).Investigators concluded the studied system proved to be an efficient event recorder providing the diagnosis of the clinical arrhythmia in 89% of patients with paroxysmal palpitations or dizziness. Further studies are needed to confirm these results. Tsang and Mohan (2013) sought to establish if a patient monitored with mobile cardiac telemetry (MCOT) sees different outcomes regarding diagnostic yield of arrhythmia, therapeutic management through the use of antiarrhythmic drugs, and cardiovascular costs incurred in the hospital setting when compared with more traditional monitoring devices, such as the Holter or the Event monitor. The authors conducted a retrospective analysis spanning 57 months of claims data from January 2007 to September 2011 pertaining to 200,000+ patients, of whom 14,000 used MCT only, 54,000 an Event monitor only, and 163,000 a Holter monitor only. Those claims came from the Truven database, an employer database that counts 2.8 million cardiovascular patients from an insured population of about 10 million members. The authors employed a pair-wise pre/post test-control methodology, and ensured that control patients were similar to test patients along the following dimensions: age, geographic location, type of cardiovascular diagnosis both in the inpatient and outpatient settings, and the cardiovascular drug class the patient uses. The diagnostic yield of patients monitored with MCT is 61%, that is significantly higher than that of patients that use the Event monitor (23%) or the Holter monitor (24%). Patients naive to antiarrhythmic drugs initiate drug therapy after monitoring at the following rates: 61% for patients that use MCOT compared with 39% for patients that use the Event and 43% for patients that use the Holter. Ziopatch Peer review published literature assessing the safety and/or impact on health outcomes for the Zio Patch for long-term cardiac rhythm monitoring is very limited. Barrett et al (2014) evaluated 146 patients referred for evaluation of cardiac arrhythmia whom underwent simultaneous ambulatory ECG recording with a conventional 24-hour Holter monitor and a 14-day adhesive patch monitor. The primary outcome of the study was to compare the detection arrhythmia events over total wear time for both devices. Arrhythmia events were defined as detection of any Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 9 1 of 6 arrhythmias, including supraventricular tachycardia, atrial fibrillation/flutter, pause greater than 3 seconds, atrioventricular block, ventricular tachycardia, or polymorphic ventricular tachycardia/ventricular fibrillation. McNemar's tests were used to compare the matched pairs of data from the Holter and the adhesive patch monitor. Over the total wear time of both devices, the adhesive patch monitor detected 96 arrhythmia events compared with 61 arrhythmia events by the Holter monitor (P < .001). Investigators concluded the adhesive patch monitor detected more events than the Holter monitor. Prolonged duration monitoring for detection of arrhythmia events using single-lead, less-obtrusive, adhesive-patch monitoring platforms could replace conventional Holter monitoring in patients referred for ambulatory ECG monitoring. Schreiber et al (2014) described the use of a novel device applied at emergency department (ED) discharge that provides continuous prolonged cardiac monitoring. The authors enrolled discharged adult ED patients with symptoms of possible cardiac arrhythmia. A novel, single use continuous recording patch (ZioPatch) was applied at ED discharge. Patients wore the device for up to 14 days or until they had symptoms to trigger an event. They then returned the device by mail for interpretation. Significant arrhythmias are defined as: ventricular tachycardia (VT) ≥4 beats, supraventricular tachycardia (SVT) ≥4 beats, atrial fibrillation, ≥3 second pause, 2nd degree Mobitz II, 3rd degree AV Block, or symptomatic bradycardia. There were 174 patients were enrolled and all mailed back their devices. The average age was 52.2 (± 21.0) years, and 55% were female. The most common indications for device placement were palpitations 44.8%, syncope 24.1% and dizziness 6.3%. Eighty-three patients (47.7%) had ≥1 arrhythmias and 17 (9.8%) were symptomatic at the time of their arrhythmia. Median time to first arrhythmia was 1.0 days (IQR 0.2-2.8) and median time to first symptomatic arrhythmia was 1.5 days (IQR 0.4-6.7). 93 (53.4%) of symptomatic patients did not have any arrhythmia during their triggered events. The overall diagnostic yield was 63.2% The authors concluded the ZioPatch cardiac monitoring device can efficiently characterize symptomatic patients without significant arrhythmia and has a higher diagnostic yield for arrhythmias than traditional 24-48 hour Holter monitoring. It allows for longer term monitoring up to 14 days. There is no mention of the Zio Patch on the sites of the American College of Cardiology or the American Heart Association. Centers for Medicare and Medicaid Services NCD for Electrocardiographic Services does not mention Ziopatch in their policy. Scientific Rationale – Update July 2013 Peer review published literature evaluating Zio Patch continues to be very limited. Turakhia et al (2013) evaluated compliance, analyzable signal time, interval to arrhythmia detection, and diagnostic yield of the Zio Patch, in 26,751 consecutive patients. The mean wear time was 7.6 ± 3.6 days, and the median analyzable time was 99% of the total wear time. Among the patients with detected arrhythmias (60.3% of all patients), 29.9% had their first arrhythmia and 51.1% had their first symptom-triggered arrhythmia occur after the initial 48-hour period. Compared with the first 48 hours of monitoring, the overall diagnostic yield was greater when data from the entire Zio Patch wear duration were included for any arrhythmia (62.2% vs 43.9%, p <0.0001) and for any symptomatic arrhythmia (9.7% vs 4.4%, p <0.0001). For paroxysmal atrial fibrillation (AF), the mean interval to the first detection of AF was inversely proportional to the total AF burden, with an increasing proportion occurring after 48 hours (11.2%, 10.5%, 20.8%, and 38.0% for an AF Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 10 burden of 51% to 75%, 26% to 50%, 1% to 25%, and <1%, respectively). Investigators concluded extended monitoring with the Zio Patch for ≤14 days is feasible, with high patient compliance, a high analyzable signal time, and an incremental diagnostic yield beyond 48 hours for all arrhythmia types. These findings could have significant implications for device selection, monitoring duration, and care pathways for arrhythmia evaluation and AF surveillance. Rosenberg et al (2013) compared the Zio Patch, with a 24-hour Holter monitor in 74 consecutive patients with paroxysmal AF referred for Holter monitoring for detection of arrhythmias. The Zio Patch was well tolerated, with a mean monitoring period of 10.8 ± 2.8 days (range 4-14 days). Over a 24-hour period, there was excellent agreement between the Zio Patch and Holter for identifying AF events and estimating AF burden. Although there was no difference in AF burden estimated by the Zio Patch and the Holter monitor, AF events were identified in 18 additional individuals, and the documented pattern of AF (persistent or paroxysmal) changed in 21 patients after Zio Patch monitoring. Other clinically relevant cardiac events recorded on the Zio Patch after the first 24 hours of monitoring, including symptomatic ventricular pauses, prompted referrals for pacemaker placement or changes in medications. As a result of the findings from the Zio Patch, 28.4% of patients had a change in their clinical management. Investigators concluded the Zio Patch was well tolerated, and allowed significantly longer continuous monitoring than a Holter, resulting in an improvement in clinical accuracy, the detection of potentially malignant arrhythmias, and a meaningful change in clinical management. Further studies are necessary to examine the long-term impact of the use of the Zio Patch in AF management. In a pilot study, Kamel et al (2013) randomly assigned 40 patients with cryptogenic ischemic stroke or high-risk transient ischemic attack to wear a Cardionet mobile cardiac outpatient telemetry monitor for 21 days or to receive routine follow-up alone. After thorough investigation, they excluded patients with documented AF or other apparent stroke pathogenesis. They contacted patients and their physicians at 3 months and at 1 year to ascertain any diagnoses of AF or recurrent stroke or transient ischemic attack. The baseline characteristics of our cohort broadly matched those of previous observational studies of monitoring after stroke. In the monitoring group, patients wore monitors for 64% of the assigned days, and 25% of patients were not compliant at all with monitoring. No patient in either study arm received a diagnosis of AF. Cardiac monitoring revealed AF in zero patients (0%; 95% confidence interval, 0%-17%), brief episodes of atrial tachycardia in 2 patients (10%; 95% confidence interval, 1%-32%), and nonsustained ventricular tachycardia in 2 patients (10%; 95% confidence interval, 1%-32%). Investigators concluded the rate of AF detection was lower than expected, incidental arrhythmias were frequent, and compliance with monitoring was suboptimal. Their findings highlight the challenges of prospectively identifying stroke patients at risk for harboring paroxysmal AF and ensuring adequate compliance with cardiac monitoring. Clinical Trial Identifier: NCT00715533. Miller et al (2013) performed a retrospective analysis on patients evaluated by MCOT monitoring within 6 months of a cryptogenic stroke or TIA. Multivariate analysis with survival regression methods was performed using baseline characteristics to determine predictive risk factors for detection of PAF. Kaplan-Meier estimates were computed for 21-day PAF rates. 156 records were analyzed. paroxysmal atrial fibrillation (PAF) occurred in 27 of 156 (17.3%) patients during MCOT monitoring of up to 30 days. The rate of PAF detection significantly increased from 3.9% in the initial 48 h, to 9.2% at 7 days, 15.1% at 14 days, and 19.5% by 21 days (p<0.05). Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 11 Female gender, premature atrial complex on ECG, increased left atrial diameter, reduced left ventricular ejection fraction and greater stroke severity were independent predictors of PAF detection on multivariate analysis with strongest correlation seen for premature atrial complex on ECG (HR 13.7, p=0.001). Reviewers concluded MCOT frequently detects PAF in patients with cryptogenic stroke and TIA. Length of monitoring is strongly associated with detection of PAF, with an optimal monitoring period of at least 21 days. Of the predictors of PAF detection, the presence of premature atrial complexes on ECG held the strongest correlation with PAF. Scientific Rationale – Update July 2012 The Holter Monitor has been the gold standard for detecting heart arrhythmias and rhythm monitoring since the early 1960s. The Zio Patch, manufactured by iRhythym, is being proposed as a long-term cardiac rhythm monitor that provides continuous monitoring for up to 14 days. By providing a longer time period of continuous recording, the Zio Patch is proposed to improve the likelihood of capturing arrhythmias and provide for an equal or higher diagnostic yield versus other devices on the market. The Zio Patch is indicated for use on patients who may be asymptomatic or who may suffer from transient symptoms such as palpitations, dizziness, light-headedness, pre-syncope and syncope, shortness of breath, anxiety and fatigue. Zio Patch received 510(k) Premarket Notification from the U.S. FDA on February 6, 2012. The Device Classification Name is 'Recorder, magnetic tape, medical'. The 510(K) number is K113862. The FDA notes indications for use: "The Zio Patch is a prescription only single patient use, continuous recording EGG monitor that can be worn for up to 14 days. It is indicated for use on patients who experience transient symptoms such as syncope, palpitations, shortness of breath, or chest pains". Higgens et al. (2012) Scripps Memorial Hospital La Jolla was the only hospital in Southern California to participate in a study on the Zio Patch. Other study locations included Stanford Hospital and Scott & White Memorial Hospital in Temple, Texas. The study followed 285 patients who had presented to EDs across the country with symptoms possibly related to arrhythmias, such as fainting, palpitations, dizziness and others. Patients received the wire-free Zio Patch prior to being discharged from the emergency room and were instructed to wear the patch until it no longer adhered to their skin, up to 14 days duration. Devices were mailed back to iRhythm Technologies, Inc., for analysis and reporting of results to the patient's physician. The researchers found that 59 percent of the symptomatic patients who presented to the ERs did not have arrhythmia and may not require any further work-up. "Thus, the new device has the potential to save the health care system money." There is currently an ongoing Clinical Trial sponsored by iRhythm Technologies, Inc. titled: "True Continuous ECG Monitoring (TCEM Study)" with the ClinicalTrials.gov Identifier of NCT01559246. This was started on March 9, 2012 and the estimated study completion date is August 2012. The purpose of this study is to compare short-term (up to 48 hours) traditional cardiac rhythm monitoring using a standard ambulatory Holter monitor versus long-term (up to 14 days), continuous ambulatory cardiac rhythm monitoring using Zio Patch. The study is currently enrolling about 150 Scripps adult patients who have been seen by their doctors for arrhythmia. Dr. Topol et al. from Scripps Memorial Hospital will compare the data gathered from each device and report their findings later this year. Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 12 Sattar et al. (2011) Between Feb-Oct., 2011, the Zio Patch was initiated on a sample of ED patients with suspected arrhythmias (ARR) upon discharge. Patients could wear the Zio Patch for up to 14 days and press the integrated marker button when symptomatic. Devices were mailed back for analysis for any significant ARR defined as: ventricular tachycardia (VT), paroxysmal atrial fibrillation (PAF), supraventricular tachycardia (SVT), >=3 sec pause, 2nd degree Mobitz II or 3rd degree AV Block, or symptomatic bradycardia. Descriptive statistics were used for analysis. 135 patients, 65 males (48%), mean age 48.6 (SD 21.3), were enrolled and none were lost to follow-up. Palpitations (30%) or syncope (18%) were the most common indications. Average device wear time was 6.1 days (SD 3.1; max 14 days). 51 (38%) had >=1 significant ARR and 7 were symptomatic at the time. Average time to first ARR episode was 1.8 days (SD 2.2; max 9.8 days) and first symptomatic ARR 2.1 days (SD 3.0; max 8.6 days). 44 SVT, 5 PAF, 3 VT, and 1 AV Block were detected. 81 symptomatic patients (60%) did not have any significant ARR. Conclusions: The prevalence of ARR in discharged ED patients (38%) is significant. Many symptomatic patients (60%) are found to not have ARR. Our data suggests that a minimum of 7 days of ambulatory cardiac monitoring is required to optimize detection in most ED patients. Use of the Zio Patch in the ED may facilitate arrhythmia diagnosis and potentially save healthcare costs. However, this is a very new device and additional peer-reviewed and comparative trials with holter monitors are necessary to determine if the Zio Patch is superior to other available approaches. Mittal et al. (2011) notes that "Clinical experience with the Zio Patch is currently lacking." The author stated that it is not known how well patients can tolerate the patch for one to two weeks, and whether the patch can yield a high-quality artifactfree ECG recording through the entire recording period. The authors state, furthermore, that "The clinical implications of not having access to ECG information within the recording period need to be determined." The Center for Medicare and Medicaid Services (CMS): No National Coverage Determination (NCD) was identified on the CMS website for the Zio Patch or for cardiac monitoring. However, two technology assessment reports were located for ECG-based signal analysis within the CMS coverage database: ECG-based Signal Analysis Technologies: An enhanced ECG-based test might demonstrate greater positive or negative predictive values, thereby limiting the harms associated with delays in treatment, or providing the diagnostic information necessary to avoid invasive diagnostic or therapeutic interventions. The Coverage and Analysis Group at the Centers for Medicare and Medicaid Services (CMS) requested this report from The Technology Assessment Program (TAP) at the Agency for Healthcare Research and Quality (AHRQ). Systematic Review of ECG-based Signal Analysis Technologies for Evaluating Patients With Acute Coronary Syndrome: The Coverage and Analysis Group at the Centers for Medicare and Medicaid Services (CMS) requested this report from the Technology Assessment Program (TAP) at the Agency for Healthcare Research and Quality (AHRQ). The purpose of this technology assessment is to summarize the clinical and scientific evidence for commercially available ECG-based signal Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 13 analysis technologies used to evaluate patients with chest pain or other symptoms suggestive of ACS among patients at low to intermediate risk for CAD. CMS notes that it may create new ambulatory electrocardiographic monitoring device categories "if published, peer-reviewed clinical studies demonstrate evidence of improved clinical utility, or equal utility with additional advantage to the patient, as indicated by improved patient management and/or improved health outcomes in the Medicare population (such as superior ability to detect serious or life-threatening arrhythmias) as compared to devices or services currently used." There is no mention of the Zio Patch on the sites of the American College of Cardiology or the American Heart Association. In summary, the Zio Patch is a relatively new device that is being proposed as a long-term cardiac rhythm monitor that provides continuous monitoring for up to 14 days. The most recent FDA approval of Zio Patch was on February 6, 2012. Although studies are currently being done, additional, larger, peer-reviewed and comparative studies with devices currently being used to assess cardiac arrhythmias are necessary to determine if Zio Patch is equal to or superior in clinical outcomes. At this time, it would be considered investigational. Scientific Rationale – Update June 2009 Rothman, 2007 reports a 17 center, randomized controlled clinical study that compared the CardioNet mobile cardiac outpatient telemetry system (MCOT) to patient activated loop event monitoring (LOOP). Subjects with symptoms of syncope, presyncope, or severe palpitations who had a non-diagnostic 24-hour Holter monitor were randomized. The primary endpoint was the confirmation or exclusion of a probable arrhythmic cause of their symptoms. A total of 266 patients who completed the monitoring period were analyzed. A diagnosis was made in 88% of MCOT subjects compared with 75% of LOOP subjects (P = 0.008). In a subgroup of patients presenting with syncope or presyncope, a diagnosis was made in 89% of MCOT subjects versus 69% of LOOP subjects (P = 0.008). During monitoring, clinically significant arrhythmias were detected in 41% of patients in the MCOT group versus 14% patients using the loop monitor. This was a statistically significant difference. For patients with syncope or presyncope, clinically significant arrhythmias were detected in 52% of MCOT patients and in 15% of patients with loop recorders. The authors determined that MCOT was superior in confirming the diagnosis of clinical significant arrhythmias than the LOOP monitors. Olson 2007 reported on a retrospective medical record review of 122 consecutive patients evaluated using MCOT for palpitations, presyncope/syncope, or to monitor the efficacy of a specific antiarrhythmic therapy. Seventy six of the 122 patients had syncope, 17 experienced presyncope. Fifty eight patients had arryhmias that were previously diagnosed. MCOT detected arrythmias in 35 patients who were not previously diagnosed and didn’t detect arrythmias in 5 symptomatc patients. Ten of 17 patients (59%) studied for presyncope/syncope had a diagnosis made with MCOT. Eight of these 17 patients had a previous negative evaluation for presyncope/syncope and five had an event correlated with the heart rhythm during the monitoring period. Nineteen patients monitored for palpitations or presyncope/syncope were asymptomatic during monitoring but had a prespecified Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 14 arrhythmia detected. When MCOT was used as the first ambulatory monitoring system to evaluate palpitations (n = 18), 73% of patients correlated their symptoms with the underlying cardiac rhythm. Seven of 21 patients monitored for medication titration had dosage adjustments during monitoring. The authors concluded that MCOT can detect asymptomatic clinically significant arrhythmias, and was especially useful to identify the cause of presyncope/syncope, even in patients with a previous negative workup. MCOT system allows patients to undergo daily medication dose titration in the outpatient setting, thus avoiding hospitalization. A systematic evidence review of remote cardiac monitoring prepared for the Agency for Healthcare Research and Quality by the ECRI Evidence-based Practice Center (AHRQ, 2007) reached the following conclusions about the evidence for MCT: "This study [by Rothman, et al., 2007] was a high-quality multicenter study with few limitations. Therefore, the evidence is sufficient to conclude that real-time continuous attended monitoring leads to change in disease management in significantly more patients than do certain ELRs [external loop recorders]. However, because this is a single multicenter study, the strength of evidence supporting this conclusion is weak. Also, the conclusion may not be applicable to ELRs with automatic event activation, as this model was underrepresented in the RCT [by Rothman, et al., 2007] (only 16% of patients used this model)." In addition to Cardionet, LifeStar ACT Ambulatory Cardiac Telemetry monitoring system in which the ECG signals are transmitted from the sensor to the handheld monitor which is equipped with a dual memory loop configuration, both running in parallel. One loop is auto-triggered, with programmable thresholds that starts recording based on specific rhythms and arrhythmias detected or manually activated by the patient. The second, and longer, recording loop is controlled remotely to provide the physician with more information, when requested by the monitoring center. The monitor automatically transmits the recorded ECG, via cellular link, to the monitoring center Another FDA-cleared device with some similarities is the HEARTLink II Monitor. This system consist of an 11-ounce, battery operated unit which is worn by the patient with sensors affixed to his/her chest. Heartbeat data is continuously relayed by wireless transmission to a data processor/phone-connected station in the patient's home. Unlike the two previous described systems, this one cannot transmit signals to a monitoring center if the patient is outside the range of a base station in their home. Scientific Rationale Update - October 2008 There is currently an ongoing Clinical Trial, with the identifier number of NCT00295204, regarding the evaluation of a mobile outpatient cardiac telemetry system versus the standard loop event monitor. The purpose is to compare the arrhythmia diagnostic yield of MCOT as compared to standard loop event monitors in patients presenting with palpitations, syncope or near syncope occurring less frequently than every 24 hours. Patients are randomized and are enrolled for 30 days. Prior testing of 24 hours of non-diagnostic monitoring is required. (2007) The Centers for Medicare & Medicaid Services (CMS) requested that the Agency for Healthcare Research and Quality (AHRQ) commission an evidence report to evaluate remote cardiac monitoring devices. Remote cardiac monitoring technologies allow home electrocardiographic (ECG) monitoring of patients with suspected cardiac arrhythmias or at risk for developing arrhythmias. This report Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 15 notes a 2006 American College of Cardiology/American Heart Association/European Society of Cardiology (ACC/AHA/ESC) guideline on management of patients with ventricular arrhythmias states that continuous 24-48 hour Holter recordings are deemed appropriate when arrhythmias are known or suspected to occur at least once a day. Because intermittent event monitors can record over longer time periods, they are considered more appropriate when sporadic episodes produce symptoms of syncope, dizziness, or palpitations. A clinical competence statement published by the American College of Cardiology and the American Heart Association suggests that the frequency of symptoms should dictate the type of recording device used. Continuous recording devices are indicated for use in patients with frequent symptoms (at least once a day) that may be arrhythmia-related, for patients with syncope or near syncope, and for patients with recurrent unexplained palpitations. Continuous monitoring is also indicated for patients receiving anti-arrhythmic therapy to assess drug response, to monitor the rate of atrial fibrillation, and to exclude proarrythmia. Scientific Rationale – Initial MCOT, referred to as real-time, outpatient cardiac monitoring, is an automatically activated system that requires no patient intervention to either capture or transmit an arrhythmia when it occurs. When the EKG violates certain pre-selected arrhythmia thresholds, a small telemetry transmitter utilizes the standard telephone line, a computer modem or wireless communications and automatically sends the ECG waveform to the receiving center where real-time analysis occurs. The patient's physician is made aware of the EKG abnormalities based on the notification criteria. This rapid arrhythmia recognition and physician notification is thought to allow timely intervention. For example, the CardioNet device also has an extended memory characteristic of digital Holter monitors; the CardioNet device is capable of storing up to 72 hours of EKG waveforms. The physician receives both urgent and daily reports with an analysis and report of 24 hours of monitoring each day, similar to Holter studies. The Cardionet device’s extended memory allows the physician to examine any portion of the ECG waveform over an entire day. This extended memory ensures that it does not fill with EKG artifact (false positives) where the CardioNet’s automated ECG trigger is unable to reliably discriminate between artifact and significant arrhythmias (true positives). The CardioNet ambulatory ECG arrhythmia detector and alarm is cleared for marketing by the FDA based on a 510(k) premarket notification due to the FDA’s determination that the CardioNet device was substantially equivalent to devices that were currently on the market. Thus, the manufacturer was not required to produce the clinical effectiveness data that is necessary to support a premarket approval application (PMA) of drugs. Safety and effectiveness, therefore, must be decided based on review of the current literature. Initially, there was only study reporting the results of a retrospective analysis of the diagnostic yield of MCOT in 28 patients with syncope, dizziness, or palpitations. Fifteen patients had previously undergone either Holter monitoring or cardiac event monitoring, which was nondiagnostic; of these, 6 patients were found by MCOT to have significant cardiac arrhythmias that were not detected by previous monitoring. In April 2005, Joshi et al published their paper reporting the data collected from one hundred consecutive patents which were retrospectively reviewed by an independent physician not involved in ordering the test or managing any of the patients included in the study. Indications for MCOT monitoring included dizziness, syncope, efficacy of drug treatment, monitoring during drug initiation, efficacy of electrophysiological ablation, and monitor for atrial fibrillation off treatment. A Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 16 clinically significant arrhythmia was detected in 51 patients, but 25 (49%) did not have any symptoms during the arrhythmia. Interestingly, 13 of 17 patients (76%) found to have atrial flutter/fibrillation had no symptoms during the arrhythmia. Thirty patients had been previously monitored by either a Holter monitor or an event recorder. In 16 of these patients, MCOT detected an arrhythmia not found by previous monitoring. Seven patients had paroxysmal supraventricular tachycardia, 5 of whom required drug treatment. Three of the 16 patients had evidence of sinus node disease requiring a permanent pacemaker insertion, 2 patients had evidence of second-degree heart block requiring a change in management, and one patient was found to have sustained ventricular tachycardia for which an cardioverterdefibrillator was implanted. Compared with Holter monitoring and external loop recorders, MCOT increases the sensitivity of detecting arrhythmias by providing a longer period of monitoring with automatic detection without the need for patient activation. Review History July 13, 2004 March 22, 2005 July 26, 2005 April 2007 October 2008 June 2009 April 2011 March 2012 July 2012 July 2013 May 2014 Medical Advisory Council Initial approval Updated – no change in policy Revised to include commercial members Update – no changes Update – No revisions. Coding reviewed. HCPCS codes added. Added local Medicare Criteria reference, new CPT Codes and updated the Scientific Rationale Update. Added Medicare Table with links to NCD, LCD and articles. No revisions. Codes updated. Update – no revisions Update. Added Zio Patch as investigational. Update – no revisions. Code Updates Update - Revised #2, removed requirement of halter monitor prior to MCOT when symptoms occur infrequently (less frequently than daily); Revised #3 – removed requirement of continuous loop monitor for 30 days prior to MCOT, when the episodes do not last long enough to activate the monitor reliably; or the individual is unable to manage the technical requirements of a standard loop recorder This policy is based on the following evidence-based guidelines: 1. 2. 3. 4. 5. ACC/AHA Guidelines for Ambulatory Electrocardiography--Part IV. Assessment of Symptoms that May Be Related to Disturbances of Heart Rhythm. JACC 1999 34(3) 912-48. Agency for Healthcare Research and Quality (AHRQ). Remote cardiac monitoring. Technology Assessment. Prepared for the AHRQ by the ECRI Evidence-based Practice Center (EPC). Contract No. 290-02-0019. AHRQ; December 12, 2007. Available at: http://www.cms.hhs.gov/determinationprocess/downloads/id51TA.pdf Hayes. Health Technology Brief. Mobile Cardiac Outpatient Telemetry (MCOT) for Home Monitoring of Cardiac Patients. April 21, 2008. Update October 2013 Hayes. Search & Summary. Zio Patch. (iRhythm Technologies Inc. and St. Jude Medical Inc.) Long-Term Cardiac Rhythm Monitor. May 2012. Updated April 2013 Heart Rhythm Society. Technologies for Arrhythmia Diagnosis/Management. Available at: www.hrsonline.org/.../MCOT%20statement%20fin Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 17 6. 7. Calkins H, Kulk K, Cappato R, et al. 2012 HRS/EHRA/ECAS Expert Consensus Statement on Catheter and Surgical Ablation of Atrial Fibrillation: Recommendations for Patient Selection, Procedural Techniques, Patient Management and Follow-up, Definitions, Endpoints, and Research Trial Design. Available at: http://www.hrsonline.org/Practice-Guidance/Clinical-GuidelinesDocuments?SearchText=&seeall=1#axzz2tKYbaUCz European Heart Rhythm Association; Heart Rhythm Society, Zipes DP, et al. ACC/AHA/ESC 2006 Guidelines for Management of Patients With Ventricular Arrhythmias and the Prevention of Sudden Cardiac Death : a report of the American College of Cardiology/American Heart Association Task Force and the European Society of Cardiology Committee for Practice Guidelines (Writing Committee to Develop Guidelines for Management of Patients With Ventricular Arrhythmias and the Prevention of Sudden Cardiac Death). J Am Coll Cardiol. 2006 Sep 5;48(5):e247-346. Available at: http://content.onlinejacc.org/article.aspx?articleid=1137887 References – Update May 2014 1. 2. 3. 4. 5. 6. 7. Barrett PM, Komatireddy R, Haaser S, et al. Comparison of 24-hour Holter monitoring with 14-day novel adhesive patch electrocardiographic monitoring. Am J Med. 2014 Jan;127(1):95.e11-7. de Asmundis C, Conte G, Sieira J, et al. Comparison of the patientactivated event recording system vs. traditional 24 h Holter electrocardiography in individuals with paroxysmal palpitations or dizziness. Europace. 2014 Feb 26. Higgins SL. A novel patch for heart rhythm monitoring: is the Holter monitor obsolete? Future Cardiol. 2013 May;9(3):325-33. Lobodzinski SS. ECG patch monitors for assessment of cardiac rhythm abnormalities. Prog Cardiovasc Dis. 2013 Sep-Oct;56(2):224-9. Schreiber D, Sattar A, Drigalla D, Higgins S. Ambulatory cardiac monitoring for discharged emergency department patients with possible cardiac arrhythmias. West J Emerg Med. 2014 Mar;15(2):194-8. Tsang JP, Mohan S. Benefits of monitoring patients with mobile cardiac telemetry (MCT) compared with the Event or Holter monitors. Med Devices (Auckl). 2013 Dec 9;7:1-5. Zimetbaum P, Goldman A. Ambulatory arrhythmia monitoring: choosing the right device. Circulation. 2010 Oct 19;122(16):1629-36. Available at: https://circ.ahajournals.org/content/122/16/1629.full.pdf References – Update July 2013 1. 2. 3. 4. Kamel H, Navi BB, Elijovich L, et al. Pilot randomized trial of outpatient cardiac monitoring after cryptogenic stroke. Stroke. 2013 Feb;44(2):528-30. Miller DJ, Khan MA, Schultz LR et al. Outpatient cardiac telemetry detects a high rate of atrial fibrillation in cryptogenic stroke. J Neurol Sci. 2013 Jan 15;324(12):57-61. Rosenberg MA, Samuel M, Thosani A, Zimetbaum PJ. Use of a noninvasive continuous monitoring device in the management of atrial fibrillation: a pilot study. Pacing Clin Electrophysiol. 2013 Mar;36(3):328-33. Turakhia MP, Hoang DD, Zimetbaum P, et al. Diagnostic Utility of a Novel Leadless Arrhythmia Monitoring Device. Am J Cardiol. 2013 May 11. References – Update July 2012 Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 18 1. 2. 3. 4. 5. 6. 7. 8. ClinicalTrials.gov. True Continuous ECG Monitoring (TCEM Study). ClinicalTrials.gov Identifier: NCT01559246. Updated March 19, 2012. Available at: http://clinicaltrials.gov/ct2/show/NCT01559246?term=Zio+patch&rank=1 Higgins H. "Prevalence of Arrhythmias in Emergency Department Patients Discharged Using a Novel Ambulatory Cardiac Monitor. Heart Rhythm Society's 33rd Annual Scientific Sessions in Boston. May 11, 2012. iRhythm. Zio Overview. Available at: http://www.irhythmtech.com/ziosolution/zio-patch/ Mittal S, Movsowitz C, Steinberg JS. Ambulatory external electrocardiographic monitoring: Focus on atrial fibrillation. J Am Coll Cardiol. 2011;58(17):17411749. Sattar A, Drigalla D, Higgins S, et al. Prevalence of arrhythmias in ED patients discharged using a novel ambulatory cardiac monitor. Journal of the American College of Cardiology. Conference: 61th Annual Scientific Session of the American College of Cardiology and Summit: Innovation in Intervention, ACC. Conference Publication: (var.pagings). (13 SUPPL. 1) (pp E642), 2012. U.S. Food and Drug Administration (FDA). Zio Patch Model Z100. Medical Magnetic Tape Recorder. 510(k) No. K090363. Rockville, MD: FDA; May 8, 2009. U.S. Food and Drug Administration (FDA). K091075: Zio ECG Utilization Service (ZEUS) System (iRhythm Technologies Inc.) cleared on July 21, 2009. U.S. Food and Drug Administration (FDA). Zio Patch. Medical Magnetic Tape Recorder. 510(k) No. K113862. Rockville, MD: FDA; February 6, 2012. Avilable at: http://www.accessdata.fda.gov/cdrh_docs/pdf11/K113862.pdf References – Update March 2012 1. Engel JM, Chakravarthy N, Katra RP, et al. Estimation of patient compliance in application of adherent mobile cardiac telemetry device. Conf Proc IEEE Eng Med Biol Soc. 2011 Aug;2011:1536-9. References – Update April 2011 1. 2. Podrid PJ. Ambulatory monitoring in the assessment of cardiac arrhythmias. February 7, 2011. Kadish, AH, Reiffel, JA, Clauser, J, et al. Frequency of serious arrhythmias detected with ambulatory cardiac telemetry. Am J Cardiol. 2010 May 1;105(9):1313-6. References – Update June 2009 1. The diagnosis of cardiac arrhythmias: a prospective multi-center randomized study comparing mobile cardiac outpatient telemetry versus standard loop event monitoring. - Rothman SA - J Cardiovasc Electrophysiol - 01-MAR-2007; 18(3): 241-7 2. Utility of mobile cardiac outpatient telemetry for the diagnosis of palpitations, presyncope, syncope, and the assessment of therapy efficacy. - Olson JA - J Cardiovasc Electrophysiol - 01-MAY-2007; 18(5): 473-7 3. Initial experience with novel mobile cardiac outpatient telemetry for children and adolescents with suspected arrhythmia. Saarel EV - Congenit Heart Dis - 01-JAN2008; 3(1): 33-8 References – Update October 2008 1. Clinical Trials.gov. Evaluation of a Mobile Cardiac Outpatient Telemetry System Versus Standard Loop Event Monitor. Available at: http://clinicaltrials.gov/ct2/show/NCT00295204 Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 19 2. Saarel EV, Doratotaj S, Sterba R. Initial experience with novel mobile cardiac outpatient telemetry for children and adolescents with suspected arrhythmia. Congenit Heart Dis. 2008;3 (1):33-38. 3. Olson JA, Fouts AM, Padanilam BJ, et al. Utility of Mobile Cardiac Outpatient Telemetry for the Diagnosis of Palpitations, Presyncope, Syncope, and the Assessment of Therapy Efficacy. Journal of Cardiovascular Electrophysiology. 06/25/2007. 4. Rothman SA, Laughlin JC, Seltzer J, et al. The diagnosis of cardiac arrhythmias: a prospective multi-center randomized study comparing mobile cardiac outpatient telemetry versus standard loop event monitoring. J Cardiovasc Electrophysiol. 2007;18(3):1-7. Available at: http://www.cardionet.com/media/pdf/MCOTRothma.pdf. 5. Calkins H, Brugada J, Packer DL, et al. European Heart Rhythm Association (EHRA); European Cardiac Arrhythmia Society (ECAS); American College of Cardiology (ACC); American Heart Association (AHA); Society of Thoracic Surgeons (STS). HRS/EHRA/ECAS expert Consensus Statement on catheter and surgical ablation of atrial fibrillation: recommendations for personnel, policy, procedures and follow-up. A report of the Heart Rhythm Society (HRS) Task Force on catheter and surgical ablation of atrial fibrillation. Heart Rhythm. 2007;4(6):816-861. Available at: http://www.or-live.com/hrs/2216/HR-andEuro-AF-Consensus-Stmt.pdf. 6. Olson JA, Fouts AM, Padanilam BJ, et al. Utility of mobile cardiac outpatient telemetry for the diagnosis of palpitations, presyncope, syncope, and the assessment of therapy efficacy. J Cardiovasc Electrophysiol. 2007;18 (5):473477. 7. Giada F, Gulizia M, Francese M, et al. Recurrent unexplained palpitations (RUP) study comparison of implantable loop recorder versus conventional diagnostic strategy. J Am Coll Cardiol. 2007;49 (19): 1951-1956. 8. Highmark Local Medicare Services. LCD M-60D - Real-Time, Outpatient Cardiac Monitoring. Available at: http://www.highmarkmedicareservices.com/policy/partb/m1/m60d.html References – Initial 1. Joshi AK, Kowey PR, Prystowsky EN, et al. First experience with a Mobile Cardiac Outpatient Telemetry (MCOT) system for the diagnosis and management of cardiac arrhythmia. Am J Cardiol. 2005 Apr 1;95(7):878-81. 2. Kowey PR, et al. First Experience with a Mobile Cardiac Outpatient Telemetry (MCOT) System for the Diagnosis and Management of Cardiac Arrhythmia.' NASPE Heart Rhythm Society 24th Annual Scientific Sessions. May 2003. 3. Kowey PR, Kocovic DZ. Cardiology patient page: Ambulatory electrocardiographic recording. Circulation. 2003;108:e31-e33. Available at http://www.circulationha.org. 4. CardioNet: Monitoring at the Speed of Life [website]. Philadelphia, PA: CardioNet; 2003. Available at: http://www.cardionet.com. 5. Zimetbaum, PJ, Josephson ME. The evolving role of ambulatory arrhythmia monitoring in general clinical practice. Ann Intern Med. 1999;130(10):848-856. 6. CardioNet. A new service: Mobile outpatient cardiac telemetry. Control No. 2200011-01. San Diego, CA: CardioNet; 2002. Available at: http://www.cardionet.com/images/brochure.pdf. 7. U.S. Food and Drug Administration, Center for Devices and Radiologic Health. CardioNet ambulatory ECG monitor with arrhythmia detection. 510(k) No. K012241 (traditional). Rockville, MD: FDA; February 1, 2002. Available at: http://www.fda.gov/cdrh/pdf/k012241.pdf. Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 20 8. U.S. Food and Drug Administration, Center for Devices and Radiologic Health. CardioNet Ambulatory ECG Monitor, Model CN10000A. 510(k) No. K003707 (traditional). Rockville, MD: FDA; May 16, 2001. Available at: http://www.fda.gov/cdrh/pdf/k003707.pdf. 9. Rissam HS, Kishore S, Bhatia ML. Trehan N. Trans-telephonic electrocardiographic monitoring--experience in India. J Telemed Telecare. 1998;4 Suppl 1:8-11. 10. Antman EM, Ludmer PL, McGowan N, et al. Transtelephonic electrocardiographic transmission for management of cardiac arrhythmias. Am J Cardiol. 1986 Nov 1;58(10):1021-4. 11. David D, Michelson EL. Transtelephonic electrocardiographic monitoring for the detection and treatment of cardiac arrhythmias. Cardiovasc Clin. 1988;18(3):73-82. Smith MS, Pritchett EL. Electrocardiographic monitoring in ambulatory patients with cardiac arrhythmias. Cardiol Clin. 1983 May;1(2):293304. Important Notice General Purpose. Health Net's National Medical Policies (the "Policies") are developed to assist Health Net in administering plan benefits and determining whether a particular procedure, drug, service or supply is medically necessary. The Policies are based upon a review of the available clinical information including clinical outcome studies in the peer-reviewed published medical literature, regulatory status of the drug or device, evidence-based guidelines of governmental bodies, and evidence-based guidelines and positions of select national health professional organizations. Coverage determinations are made on a case-by-case basis and are subject to all of the terms, conditions, limitations, and exclusions of the member's contract, including medical necessity requirements. Health Net may use the Policies to determine whether under the facts and circumstances of a particular case, the proposed procedure, drug, service or supply is medically necessary. The conclusion that a procedure, drug, service or supply is medically necessary does not constitute coverage. The member's contract defines which procedure, drug, service or supply is covered, excluded, limited, or subject to dollar caps. The policy provides for clearly written, reasonable and current criteria that have been approved by Health Net’s National Medical Advisory Council (MAC). The clinical criteria and medical policies provide guidelines for determining the medical necessity criteria for specific procedures, equipment, and services. In order to be eligible, all services must be medically necessary and otherwise defined in the member's benefits contract as described this " Important Notice" disclaimer. In all cases, final benefit determinations are based on the applicable contract language. To the extent there are any conflicts between medical policy guidelines and applicable contract language, the contract language prevails. Medical policy is not intended to override the policy that defines the member’s benefits, nor is it intended to dictate to providers how to practice medicine. Policy Effective Date and Defined Terms. The date of posting is not the effective date of the Policy. The Policy is effective as of the date determined by Health Net. All policies are subject to applicable legal and regulatory mandates and requirements for prior notification. If there is a discrepancy between the policy effective date and legal mandates and regulatory requirements, the requirements of law and regulation shall govern. * In some states, new or revised policies require prior notice or posting on the website before a policy is deemed effective. For information regarding the effective dates of Policies, contact your provider representative. The Policies do not include definitions. All terms are defined by Health Net. For information regarding the definitions of terms used in the Policies, contact your provider representative. Policy Amendment without Notice. Health Net reserves the right to amend the Policies without notice to providers or Members. In some states, new or revised policies require prior notice or website posting before an amendment is deemed effective. No Medical Advice. The Policies do not constitute medical advice. Health Net does not provide or recommend treatment to members. Members should consult with their treating physician in connection with diagnosis and treatment decisions. No Authorization or Guarantee of Coverage. Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 21 The Policies do not constitute authorization or guarantee of coverage of particular procedure, drug, service or supply. Members and providers should refer to the Member contract to determine if exclusions, limitations, and dollar caps apply to a particular procedure, drug, service or supply. Policy Limitation: Member’s Contract Controls Coverage Determinations. The determination of coverage for a particular procedure, drug, service or supply is not based upon the Policies, but rather is subject to the facts of the individual clinical case, terms and conditions of the member’s contract, and requirements of applicable laws and regulations. The contract language contains specific terms and conditions, including pre-existing conditions, limitations, exclusions, benefit maximums, eligibility, and other relevant terms and conditions of coverage. In the event the Member’s contract (also known as the benefit contract, coverage document, or evidence of coverage) conflicts with the Policies, the Member’s contract shall govern. Coverage decisions are the result of the terms and conditions of the Member’s benefit contract. The Policies do not replace or amend the Member’s contract. If there is a discrepancy between the Policies and the Member’s contract, the Member’s contract shall govern. Policy Limitation: Legal and Regulatory Mandates and Requirements. The determinations of coverage for a particular procedure, drug, service or supply is subject to applicable legal and regulatory mandates and requirements. If there is a discrepancy between the Policies and legal mandates and regulatory requirements, the requirements of law and regulation shall govern. Policy Limitations: Medicare and Medicaid. Policies specifically developed to assist Health Net in administering Medicare or Medicaid plan benefits and determining coverage for a particular procedure, drug, service or supply for Medicare or Medicaid members shall not be construed to apply to any other Health Net plans and members. The Policies shall not be interpreted to limit the benefits afforded Medicare and Medicaid members by law and regulation. Mobile Outpatient Cardiac Telemetry (CardioNet) May 14 22
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