Local Coverage Determination (LCD)

Select Minimally Invasive GERD Procedures

L35080

Expand All | Collapse All
Proposed LCD
Proposed LCDs are works in progress that are available on the Medicare Coverage Database site for public review. Proposed LCDs are not necessarily a reflection of the current policies or practices of the contractor.

Document Note

Note History

Contractor Information

LCD Information

Document Information

Source LCD ID
N/A
LCD ID
L35080
Original ICD-9 LCD ID
Not Applicable
LCD Title
Select Minimally Invasive GERD Procedures
Proposed LCD in Comment Period
N/A
Source Proposed LCD
DL35080
Original Effective Date
For services performed on or after 10/01/2015
Revision Effective Date
For services performed on or after 02/10/2022
Revision Ending Date
N/A
Retirement Date
N/A
Notice Period Start Date
02/25/2021
Notice Period End Date
04/14/2021

CPT codes, descriptions, and other data only are copyright 2023 American Medical Association. All Rights Reserved. Applicable FARS/HHSARS apply.

Fee schedules, relative value units, conversion factors and/or related components are not assigned by the AMA, are not part of CPT, and the AMA is not recommending their use. The AMA does not directly or indirectly practice medicine or dispense medical services. The AMA assumes no liability for data contained or not contained herein.

Current Dental Terminology © 2023 American Dental Association. All rights reserved.

Copyright © 2024, the American Hospital Association, Chicago, Illinois. Reproduced with permission. No portion of the AHA copyrighted materials contained within this publication may be copied without the express written consent of the AHA. AHA copyrighted materials including the UB‐04 codes and descriptions may not be removed, copied, or utilized within any software, product, service, solution, or derivative work without the written consent of the AHA. If an entity wishes to utilize any AHA materials, please contact the AHA at 312‐893‐6816.

Making copies or utilizing the content of the UB‐04 Manual, including the codes and/or descriptions, for internal purposes, resale and/or to be used in any product or publication; creating any modified or derivative work of the UB‐04 Manual and/or codes and descriptions; and/or making any commercial use of UB‐04 Manual or any portion thereof, including the codes and/or descriptions, is only authorized with an express license from the American Hospital Association. The American Hospital Association (the "AHA") has not reviewed, and is not responsible for, the completeness or accuracy of any information contained in this material, nor was the AHA or any of its affiliates, involved in the preparation of this material, or the analysis of information provided in the material. The views and/or positions presented in the material do not necessarily represent the views of the AHA. CMS and its products and services are not endorsed by the AHA or any of its affiliates.

Issue

Issue Description

Removed hyperlink for U.S. Food and Drug Administration (FDA) in the Bibliography section.

Issue - Explanation of Change Between Proposed LCD and Final LCD

CMS National Coverage Policy

Language quoted from Centers for Medicare and Medicaid Services (CMS), National Coverage Determinations (NCDs) and coverage provisions in interpretive manuals is italicized throughout the policy. NCDs and coverage provisions in interpretive manuals are not subject to the Local Coverage Determination (LCD) Review Process (42 CFR 405.860[b] and 42 CFR 426 [Subpart D]). In addition, an administrative law judge may not review an NCD. See Section 1869(f)(1)(A)(i) of the Social Security Act.

Unless otherwise specified, italicized text represents quotation from one or more of the following CMS sources:

Title XVIII of the Social Security Act (SSA):
Section 1862(a)(1)(A) excludes expenses incurred for items or services which are not reasonable and necessary for the diagnosis or treatment of illness or injury or to improve the functioning of a malformed body member.

Section 1833(e) prohibits Medicare payment for any claim which lacks the necessary information to process the claim.

Section 1862(a)(7) excludes routine physical examinations, unless otherwise covered by statute.

Code of Federal Regulations:
42 CFR, Section 410.32, indicates that diagnostic tests may only be ordered by the treating physician (or other treating practitioner acting within the scope of his or her license and Medicare requirements) who furnishes a consultation or treats a beneficiary for a specific medical problem and who uses the results in the management of the beneficiary's specific medical problem. Tests not ordered by the physician (or other qualified non-physician provider) who is treating the beneficiary are not reasonable and necessary (see Sec. 411.15(k)(1) of this chapter).

Coverage Guidance

Coverage Indications, Limitations, and/or Medical Necessity

Indications:

EsophyX™ is a device for performing transoral incisionless fundoplication surgery (TIF) for treating gastroesophageal reflux disease. This procedure reconstructs the valve at the top of the stomach that helps prevent acid reflux.

Benefits are not available for endoluminal treatment for Gastroesophageal Reflux Disease (GERD) using the Stretta® procedure, the Bard EndoCinch™ Suturing System, Plicator™, Enteryx® or similar treatments as these procedures are not considered reasonable and necessary for the diagnosis or treatment of an injury or disease. Coverage is not available for LINX® Reflux Management System, which is not a true endoluminal treatment but is also not considered reasonable and necessary for the diagnosis or treatment of an injury or disease.

Currently, these procedures other than TIF are considered non-covered due to the fact that current peer-reviewed literature does not support the long-term efficacy and long-term safety of the services. Claims will be denied as "not proven effective."

Limitations:

For TIF, Coverage is not extended to:

  1. any patient who has recurrent symptoms or other evidence of failure following a prior TIF. These procedures (repeat TIF) would be considered investigational at this time.

  2. any patient with a hiatal hernia greater than 2 cm, except where the hernia has been reduced to 2 cm or less by a successful laparoscopic hernia reduction procedure prior to the TIF procedure. (Based on (FDA) approval).

  3. any GERD patients with BMI > 35, esophagitis LA grade >B, Barrett’s esophagus > 2 cm, and presence of achalasia or esophageal ulcer or has not been on an appropriate trial of proton pump inhibitors.

Summary of Evidence

Summary of evidence for TIF: 

As noted above, transoral incisionless fundoplication surgery is a method for treating gastroesophageal reflux disease. This procedure reconstructs the valve at the top of the stomach that helps prevents acid reflux. 

  1. Anti-Reflux Surgery Supplement to Endogastric Solutions TIF ESOPHYX Reconsideration Request NGS MAC, April 2017.  This is not a peer-reviewed publication but a summary of what the procedure is and a summary of selective publications.   Thus, this is not a peer-reviewed publication indexed in the U.S. National Library of Medicine of the National Institutes of Health and thus not valid as supportive literature.

  2. Hakansson B., Montgomery M., Cadiere G, et al. Randomised clinical trial: transoral incisionless fundoplication vs. sham intervention to control chronic GERD. Alimentary Pharmacology and Therapeutics. 2015 John Wiley & Sons Ltd.  This publication is indexed in the U.S. National Library of Medicine of the National Institutes.   The study was blinded and divided equally into TIF and sham procedures.  While the follow up period was only six (6) months, the time (average days) in remission offered by the TIF procedure (197) was significantly longer compared to those submitted to the sham intervention (107), P < 0.001. After 6 months 13/22 (59%) of the chronic GERD patients remained in clinical remission after the active intervention. Likewise, the secondary outcome measures were all in the TIF2 procedure. No safety issues were raised. 

  3. Stefanidis G, Viazis N, Kotsikoros N. Long-term benefit of transoral incisionless fundoplication using the esophyx device for the management of gastroesophageal reflux disease responsive to medical therapy.  Diseases of the Esophagus (2017) 30, 1–8.  This publication is indexed in the U.S. National Library of Medicine of the National Institutes of Health.  The study initially had 45 patients who had the TIF procedure and were followed for a mean of 59 months (range 36–75). Only one patient had a complication during surgery and thus was excluded.   The 44 patients all had follow-up upper endoscopy at 6 months, 1 year, and 3–5 years postoperatively.  Seventy-two point seven percent that completed the study follow up reported elimination of their main symptom, without the need for PPI administration (none PPI usage). Six more patients (13.6%), five with heartburn, and one with regurgitation reported half PPI dose taken for <50% of the preceding follow up period (occasional PPI usage), while six more patients (four with heartburn, one with regurgitation, and one with chest pain) reported full or half PPI dose taken for more than 50% of the preceding follow up period (daily PPI usage). This paper supports the procedure.

  4. Technology Coverage Statement on Minimally Invasive Surgical Options for Gastroesophageal Reflux Disease April 2016.  This is a position paper from the American Gastrological Association based on its reviews of TIF publications.  It is strongly supportive.

  5. Clinical Spotlight Review: Endoluminal Treatments for Gastroesophageal Reflux Disease (GERD)sages.org/publications/guidelines/endoluminal-treatments-for-gastroesophageal-reflux-disease-gerd.  This is a statement from the Board of Governors of the Society of American Gastrointestinal and Endoscopic Surgeons (SAGES) on Mar 2017.  Its recommendation is: Based on existing evidence, TIF can be performed with an acceptable safety risk in appropriately selected patients. The procedure leads to better control of GERD symptoms compared with PPI treatment in the short term (6 months), but appears to lose effectiveness during longer term follow-up and is associated with moderate patient satisfaction scores. Objective: GERD measures improve similarly after TIF 2.0 compared with PPI. No comparative, controlled trials exist between TIF and surgical fundoplication, but preliminary evidence suggests that the latter can be used safely after TIF failure. (Per SAGES, this is level of evidence +++, strong recommendation)

  6. Vaezi M, Bril J, Mills M, et al.  An Episode Payment Framework for Gastroesophageal Reflux Disease.  Gastroenterology 2016;150:1019–1025.  This is an economic and coding paper and not a clinical paper.  It is not supportive. 

  7. Hunter JG, Kahrilas PJ, Bell RCW, et al. Gastroenterology. 2015 Feb;148(2):324-333.  The largest RCT with the lowest risk of bias is an industry-sponsored double-blind sham controlled multicenter study (RESPECT) that evaluated transoral fundoplication in patients whose symptoms were not well-controlled on proton pump inhibitors (PPIs). Out of 696 patients screened, 129 met inclusion and exclusion criteria and were randomized in a 2:1 ratio; 87 patients received transoral fundoplication combined with six months of placebo and 42 patients received sham surgery with six months of daily PPI therapy (sham/PPI).  Control of esophageal pH improved after TIF (mean 9.3% before and 6.3% after; P < .001), but not after sham surgery (mean 8.6% before and 8.9% after). This is supportive.

  8. Bell RCW, Barnes WE, Carter BJ, et al. Transoral incisionless fundoplication: 2-year results from the prospective multicenter U.S. study. AM Surg. 2014 Nov;80(11);1093-1105.  This 24-month follow-up has been reported from a prospective multicenter registry of patients with chronic GERD who received transoral fundoplication using the EsophyX2 system with SerosaFuse fasteners. For the 100 consecutive patients who were treated in this community-based study, the median GERD symptom duration was nine years (range, one to 35 years), the median duration of PPI use was seven years (range, one to 20 years), and 92 percent of patients had incomplete symptom control despite maximal medical therapy.  This three-year study provides evidence to demonstrate sustainable improvement in health outcomes, symptom relief, decrease in PPI utilization and improvement in esophageal pH with transoral fundoplication.  This is supportive. 

Summary of evidence for Stretta®:

The Stretta® procedure is an endoluminal treatment for GERD in which radiofrequency energy is delivered to smooth muscle of the lower esophageal sphincter (LES). A flexible catheter equipped with special needle electrodes for precise energy delivery is placed by mouth into the esophagus and carefully controlled radiofrequency energy is then delivered to the LES and gastric cardia, creating thermal lesions. The manufacturer maintains that the changes that occur immediately, and over time, result in a "tighter" LES and a less compliant gastric cardia. Additionally, the interruption of nerve pathways in the LES area is believed to reduce the incidence of inappropriate LES "relaxations," leading to an improvement in GERD symptoms. 

Evidence reviewed based on reconsideration request received October 17, 2019

Gregory et al (2016) This is an economic paper, not a clinical paper. Medicare does not use cost as a reason to cover or deny a treatment. This does not support changing the LCD.

Funk et al (2015) This is an economic paper, not a clinical paper. Medicare does not use cost as a reason to cover or deny a treatment. This has been previously reviewed by this contractor and this does not support changing the LCD.

Noar et al (2014) has previously been reviewed by this contractor and this does not support changing the LCD.

Dughera et al (2014) has been previously reviewed by this contractor and thus not any new support.

Dughera et al (2011) This old study involved 69 patients but only 56 of them reached a 48 month follow up. It excludes patients with large hiatal hernias, severe grade C-D erosive esophagitis despite medical treatment, Barrett esophagus, or primarily extraesophageal manifestations of GERD (e.g., asthma). There was no control group. The mean age was only 42+/- 14 years. Thus, these patients were much younger than typical Medicare beneficiaries. The radiofrequency treatment significantly improved heartburn scores, GERD-specific quality of life scores, and general quality of life scores at 24 months and 48 months in 52 out of 56 patients (92.8%) and substantially reduced the use of proton pump inhibitors. The authors stated there was no conflict of interest. This paper reflects a small uncontrolled study and gives minimal support to Stretta.

Noar et al (2007) This old study reported on 96 (out of 109) consecutive patients who were followed for four years. The mean age was only 51 which is much younger than typical Medicare beneficiaries. All patients had the diagnosis of GERD confirmed by finding erosive esophagitis at upper endoscopy (Los Angeles grade A or higher) or abnormal acid contact time detected at ambulatory esophageal pH testing. Patients with erosive esophagitis were maintained on medical therapy until all erosions had healed. Esophageal motility was performed in all patients to exclude those patients with achalasia. Patients with metaplasia were treated and followed according to standard Barrett’s protocol with EGD and 4-quadrant biopsy at each follow-up. Gastric emptying scans (GES) were performed on all patients and 31 of 109 demonstrated abnormal emptying. The fact that 1/3rd of the patients had this concurrent problem is a concern. Patients with stenosis, stricture, or ulceration of the pyloric valve were excluded. Medication usage decreased significantly from 100% of patients on twice daily PPI therapy at baseline to 75% of patients showing elimination of medications or only as-needed use of antacids/over-the-counter PPIs at 48 months.

DISCLOSURE: Noar M.D. has served in the capacity as a member of the clinical advisory board and has received honoraria for speaking and training for Curon Medical, Inc, and has no other conflicts of interest to disclose. Lotfi-Emran S. has no conflicts of interest to disclose. This paper suffers from patients not being the typical age for Medicare beneficiaries and being uncontrolled. Thus, it gives minimal support for Stretta.

Reymunde et al (2007) This is another old paper with the authors following 83 consecutive patients with persistent GERD symptoms for 48 months. It was a nonrandomized study, lacked a control arm, and lacked data of 24-hour pH. These patients experience a partial response to daily PPI or other antisecretory medications. All patients underwent a careful evaluation to document the diagnosis of GERD by ambulatory esophageal pH testing, demonstrating abnormal esophageal acid exposure time or the presence of erosive esophagitis at endoscopy. Barium radiography or endoscopy were used to exclude patients with a hiatal hernia larger than 3 cm. Endoscopy was also used to exclude patients with severe erosive esophagitis (greater than Los Angeles grade B) or long-segment Barrett’s esophagus. Esophageal manometry was performed in most patients to exclude those patients with very poor lower esophageal sphincter (LES) function (LES pressure <5 mm Hg) or aperistalsis. The authors did not mention the ages of the participants. None of the authors hold any significant financial interest in the product being discussed that would represent a conflict of interest. This paper suffers from the age of the patients not being described and being uncontrolled. This gives minimal support for Stretta.

Torquati et al (2004) This very old uncontrolled paper reported on 82 patients, and 41 of them (50%) had a follow-up period longer than 18 months. The authors note, “Follow-up surveys were completed by 36 patients (88%) during a mean follow-up period of 27.1 ± 3.7 months.” Thus, there really were only 36 patients not 82 followed and the period was quite short. The mean age of the 82 patients was 46.8 +/- 18.3 years. The authors do not explain if the age of the 36 patients followed were of the same age. Thus, these patients were much younger than typical Medicare beneficiaries. Only eleven patients returned for 24-h pH testing at a mean of 27.4 ± 4.1 months. Acknowledgments: Dr. Alfonso Torquati is the recipient of a Master of Science in Clinical Investigation grant from Vanderbilt University School of Medicine. Dr. William Richards is a member of the Curon Medical Scientific Advisory Board and has received grant support from Curon Medical. Thus, gives very minimal support for Stretta.

Herman et al (2014) This is not a human study. It does not pertain to the esophagus. This is not supportive medical literature.

Perry et al (2012) This is a meta analysis English literature, indexed in PubMed and Medline databases (1966 to 2010). Sixty-eight articles were originally identified but 48 were rejected. Thus, there were only 20 articles and only two of them were random sham-controlled trials. The mean age was 47.5±7.2 years which is not typical of Medicare beneficiaries. The mean follow-up interval was 17.1±15.5 months: thus only 1.5 years. The included studies were published between 2000 and 2010 and contained 1441 patients with a mean follow up interval of 15 months. Radiofrequency energy delivery to the LES produced significant improvements in GERD symptoms and both disease-specific and global QOL. Esophageal acid exposure was improved, but not normalized after treatment; and the Stretta procedure did not significantly increase LES pressure. They noted, “The Stretta procedure has demonstrated the ability to reduce, but not consistently normalize esophageal acid exposure.” They also noted the “definition of the appropriate patient populations for Stretta therapy remains controversial.” The authors noted that their meta-analysis was limited by differences in methodology and definition of criteria for some variables between studies, and absence of blindness in most of the included studies. The authors did not include a formal assessment of methodologic quality. The beneficial effects of Stretta were based on single-arm, pre–post design studies, which are prone to regression to the mean, making the efficacy of Stretta susceptible to a high risk of bias. Regression to the mean is a statistical phenomenon that affects all pre-experimental designs that include, or analyze data from, participants selected on the basis of an extreme, usually low or high, pre-intervention condition. Although there is well-recognized value to using single-group studies to identify and quantify the occurrence of adverse events, the role of these studies in evaluating efficacy and safety is not well developed. Therefore, the nearly unanimous efficacy of Stretta for the management of GERD observed in single-arm studies is not appropriate for informed decision making. Another drawback is that they did not assess the quality of study methodologies, which is key to any systematic review. The heterogeneity of the study population across these reports may also have influenced the interpretation of the pooled results. We agree with their conclusion that “Larger and longer-term studies are required to establish the durability of the treatment effect, and to identify the patient populations that gain the greatest benefit from this treatment.” There is no mention of disclaimers.

Fass et al (2017) All potentially relevant articles were examined to determine their eligibility using the following inclusion criteria: (1) at least 3 months follow-up, (2) study design was controlled trial or cohort study and (3) sufficient data for at least one of the six selected outcome variables (defined below). Exclusion criteria included patients from special populations (e.g. obese, pediatric or gastroparesis patients), (2) patients undergoing combined treatment modalities, (3) letters, editorials, review articles and animal studies and (4) non-English publications. Overall, 28 studies met the selection criteria, and each was crosschecked with studies included in previous Stretta meta-analyses to ensure that all relevant studies had been captured. The authors identified three self-reported symptom variables and three physiological markers that appear with sufficient frequency in the studies to enable meta-analysis: (1) PPI use, (2) GERD/HRQL (Health Related Quality of Life), (3) heartburn score, (4) presence of erosive esophagitis, (5) esophageal acid exposure and (6) LES basal pressure. Data from the HRQL instrument—a validated scale for GERD symptom relief that ranges from 0 (asymptomatic) to 50 (incapacitating symptoms) [10, 11]—were reported in only 11 studies. Heartburn score was reported in 13 studies but different scales were used. Erosive esophagitis data were extracted from the 12 studies that performed upper endoscopy at baseline and follow-up. Eleven studies reported esophageal acid exposure time. Nine studies reported LES basal pressure (mmHg). There were four randomized controlled trials. This is a bit confusing since on Clinicaltrials.gov there currently are only five registered trials with “Stretta” in their titles. One is from India and its status is “Unknown.” A second was “Terminated” but was for Management of Reflux After Sleeve [Gastrectomy] Using Stretta. This is not a typical use anyway. The third is from China and its status is “Recruiting.” The fourth is “Completed.” It is from France and entitled “Stretta In Reflux Uncontrolled by IPP (SIRUP).” There is no mention of the results being published. The fifth (also from France) is “Completed (in 2007)” and entitled Evaluation of the Efficiency of Radiofrequency in the Treatment of Gastroesophageal Reflux Disease. There is no mention of the results being published. The sixth and final registered clinical trial is from China and entitled “A New System for GERD Diagnosis and Treatment (EAISMLP)”. It is not yet recruiting. Thus, it is difficult to understand the discovered randomized clinical trials or their significance. Collectively at baseline, 97.1% (1743) of patients in the Stretta group were using PPI. After Stretta treatment, 49% (850) of these patients were using PPI. Thus, this seems to negate some of the advantages of the procedure. Concerning HRQL effects, the sham procedure had 1/3rd the effect of the true treatment. Concerning heartburn scores, treatment effect was not found for either the Stretta subgroup or the control subgroup. However, when pooled, the Stretta arm of the RCT studies with the cohort subgroup, Stretta treatment reduced (thus improved) the heartburn standardized score significantly. For the random effects model, Stretta treatment marginally reduced the pooled estimate of frequency of erosive esophagitis at follow-up in all Stretta subgroups. Stretta treatment reduced (thus improved) the pooled estimate of esophageal acid exposure. In the RCT subgroups, the pooled estimate of Stretta treatment effect compared to the sham treatment effect was not significantly different. However, in the cohort subgroup, the treatment effect in the cohort subgroup, the treatment effect was significant. For the effects on lower esophageal sphincter basal pressure. In the RCT subgroups, the pooled estimate of treatment effect for Stretta was not significantly different than sham group. Comparing Stretta procedures, sham procedures and laparoscopic fundoplication procedures the reported adverse event rate for the Stretta procedure was 0.93% and 7.18% for the LF procedure. For Stretta, small erosions and mucosal lacerations was the most frequent AE at less than 1%, while for LF procedures, subcutaneous emphysema was the most frequent AE at approximately 3%. The authors noted as a limitation of their study include the lack of contemporaneous control groups in most of the studies. The four RCTs considered alone have limitations: they enrolled a total of 92 Stretta-treated patients, whereas the cohort trials and registry enrolled 2376 Stretta-treated patients. Only one of the outcome measures (erosive esophagitis) was measured in all four RCTs. Three of the outcome measures (HRQL, heartburn, PPI use) were measured in only two RCTs. Furthermore, the longest follow-up time in the RCTs was 12 months, whereas cohort studies included data up to 120 months (average 23 months). They concluded that their meta-analysis demonstrated that the Stretta procedure reduced the use of PPIs while improving esophageal acid exposure time, heartburn symptoms, and HRQL. The reduction in erosive esophagitis incidence was not statistical significance under the random effects but did reach statistical significance under fixed effects. There was no significant effect on LES basal pressure. Disclosures: Dennis J. Scotti is a part-time consultant with Baker Tilly Virchow Krause, LLC. Baker Tilly Virchow Krause, LLC is a Business Advisor to Mederi Therapeutics, Inc. David A. Gregory is a principal with Baker Tilly, a business advisor to Mederi Therapeutics. Frederick Cahn is a principal with BioMedical Strategies, a business advisor to Baker Tilly. Ronnie Fass is an advisor to Ironwood and Mederi Therapeutics, Speaker for AstraZeneca, Dr. Reddy, Mederi Therapeutics and Takeda and receives research grant from Ironwood. This paper gives minimal support for Stretta.

CareFirst Medical Policy Reference Manual Medical Policy

HIGHMARK Commercial Medical Policy – Delaware – S-145-010

HIGHMARK Commercial Medical Policy – Pennsylvania – S-145-020

HIGHMARK Commercial Medical Policy – West Virginia – S-145-018

Blue Cross Blue Shield of North Dakota

Novitas Solutions, Inc. LCD L35350

PriorityHealth Medical Policy No. 91483-R9

None of these commercial insurance decisions are in anyway relevant to Medicare coverage. Of note, other companies such as CIGNA do not cover Stretta (“Each of the following endoscopic anti-reflux procedures for gastroesophageal reflux disease (GERD), or any other indication, is considered experimental, investigational or unproven:

  • radiofrequency energy to the gastroesophageal junction (e.g., Stretta® System)”

Commercial insurance decisions include contract language as part of their decision process while Medicare uses evidence based methods. The Novitas Local Coverage Determination (LCD): Upper Gastrointestinal Endoscopy (Diagnostic and Therapeutic) (L35350) does not seem to mention Stretta. Of note, none of the other six Medicare contractors cover Stretta.

A review article entitled Stretta Radiofrequency Treatment for GERD: A Safe and Effective Modality without any date of publication, journal name or any information appears to be an unpublished draft and does not support Stretta.

UpToDate. This mentions Stretta but not does not give any actual support or recommendation. However, this is not peer-reviewed published literature. This also erroneously states “The Stretta system was approved by the Food and Drug Administration (FDA) in the United States in 2000.” We find no evidence that the FDA approved this device, although it was merely cleared. If we are incorrect, we would appreciate knowing the FDA premarketing number. However we note that the Mederi Stretta Catheter and Accessory Kit, Sterile (K152317) was subject to a recall in 2017 but apparently this has been terminated. Thus, this is not supportive.

Triadafilopoulos (2016) This review paper states for Stretta, “Despite the aforementioned favorable results with Stretta in open, uncontrolled trials, the assessment of controlled data has questioned the value of the procedure. Using the standards of the Cochrane collaboration, a systematic meta-analysis of trials evaluated the efficacy of Stretta for the management of GERD. They analyzed normalization of esophageal pH, augmentation of lower esophageal sphincter pressure (LESP), health-related quality of life (HRQL), and PPI use. The pooled data from four trials and 153 analyzed patients showed no differences between Stretta and sham or PPI therapy for the outcomes of mean esophageal acid exposure LESP, ability to stop PPIs, or HRQL.” Conflict of Interest: George Triadafilopoulos reports that he has an equity position with Mederi Therapeutics, C2 Therapeutics, and EndoStim. This article does not support coverage of Stretta.

Nabi and Reddy (2016) The authors note, “recently published systemic review and meta-analyses, which included four RCTs, showed no difference between Stretta versus sham or PPIs in patients with GERD for the outcomes of EAET, LES pressure, ability to stop PPIs, or HRQL.22 However, one of the criteria for efficacy in this review was normalization of pH (pH <4 exposure time <4%), which is rather stringent and not achieved even in patients who respond successfully to PPIs.23 Moreover, the authors agree that the overall quality of evidence from RCTs on the efficacy of the Stretta procedure was extremely low.” Conflicts of Interest: The authors have no financial conflicts of interest. This article does not support coverage of Stretta.

Chang (2015) This is not a medical article in a peer reviewed medical journal indexed in PubMed of the US National Library of Medicine National Institutes of Health. It is really an OpEd and does not support changing the LCD.

Subramanian and Triadafilopoulos (2015) This is a short review and offers minimal support for Stretta.

de Souza et al (2018) This really is a case report of three patients who underwent Stretta in Sept 2017. The follow up period is not apparent, but since this was published in 2018, the follow up has to be extremely short. Declared conflict of interest of all authors: none. This three person “series” without follow up is not supportive of changing the current LCD.

Sandhu and Fass (2019) This is a very limited review of the literature concerning Stretta. Conflict of Interest: R Fass was a speaker for Mederi Therapeutics. DS Sandhu has no conflicts of interest to declare. This offers minimal support for Stretta.

Triadafilopoulos (2014) previously reviewed by this contractor and thus does not add any new support for changing the Stretta LCD.

Viswanath et al (2018) This paper was not found indexed in PubMed of the US National Library of Medicine National Institutes of Health. Thus, it is not supportive.

Subramanian and Triadafilopoulos (2014) previously reviewed by this contractor and thus does not add any new support for changing the Stretta LCD.

Ayman et al (2010) previously reviewed by this contractor and thus does not add any new support for changing the Stretta LCD.

Corley et al (2003) previously reviewed by this contractor and thus does not add any new support for changing the Stretta LCD. The associated editorial on page 970 was noted.

Coron et al (2008) Forty-three (43) patients (30 men, mean age: 48 years) with PPI-dependent typical reflux symptoms were randomized to either RF (n = 23) or maintenance PPI therapy alone (n = 20). After randomization, seven patients were lost to follow-up or withdrew their consent to participate, leaving 36 patients available for PP analysis at 6 months. Between the 6th and 12th months, two patients in the control group were excluded from the study, leaving 34 patients available for the PP analysis at 12 months (fourteen in the control arm and 20 in the RA treatment arm). The mean age of participants was only 48 years old. At 12 months, ITT (intention-to-treat) analysis showed that 13 /23(56%) patients in the RF group were able to stop or decrease their PPI use vs. seven of 20 (35%) in the control group (P = 0.16). PP analysis confirmed these results with 13 ⁄20 (65%) patients in the RF group being able to stop or decrease their PPI use vs. six of 16 (38%) in the control group (P = 0.10). Thus, this is not statistically significant. At 6 months, 16 ⁄20 (80%) patients had <3 symptomatic episodes of GERD occurring per week in the RF group vs. six of 16 (40%) in the control group (P = 0.01) but no significant difference was noted at 12 months between both groups. Global REFLUX-QUAL and SF-36 scores were not significantly different between both groups at 6 and 12 months. However, two items of the REFLUX-QUAL, namely well-being and fears, were significantly better in the RF group compared with the PPI group at 6 months (P = 0.05 and P = 0.03), but this statistical difference remained at 12 months only for fears. Monitoring of PPI needs showed that the mean daily dose of PPI was significantly lower in the RF group compared with the control group at 6 and 12 months (12 _ 11 vs. 30 _ 19 mg ⁄day; P = 0.01 and 16 _ 14 vs. 37 _ 30 mg⁄ day; P = 0.05 respectively). A 24 hour pH study performed at 6 months (off PPI therapy) showed that OAE was not significantly different between the RF and control groups. The absolute change in OAE from baseline to the 6-month assessment was not significantly different between the RF and the control group. In addition, upper GI endoscopy revealed that an esophagitis was noted in 10 (four grade A and six grade B) and seven patients (five grade A, one grade B and one grade C) of the RF and the control groups, respectively (P = 0.946). Declaration of personal interests: J. P. Galmiche has served as a speaker, a consultant and an advisory board member for AstraZeneca, Given Imaging, Pentax, Janssen-Cilag, Sanofi, Nycomed and has received research funding from AstraZeneca, Given Imaging, Janssen-Cilag France and Negma-Gild. F. Zerbib has served as a speaker and a consultant for AstraZeneca, Janssen-Cilag, Sanofi and has received research funding from AstraZeneca, Janssen-Cilag France, Sandhill, Addex and Nycomed. P. Ducrotte´ has served as a speaker for AstraZeneca and Janssen-Cilag and has received research funding from Beaufour Ipsen Pharma and Sanofi. F. Ducrot has worked on the development of Janssen Pharmaceutical gastrointestinal drugs up to 1985, and has occasionally served as a speaker for AstraZeneca since. S. Bruley des Varannes has served as a speaker and a consultant for AstraZeneca, Janssen-Cilag, Sanofi, and has received research funding from AstraZeneca, Janssen-Cilag France, Medtronic and Danone. Declaration of funding interests: This work was supported in part by the Société Nationale Francaise de Gastro-Entérologie (SNFGE), INSERM and CHU of Nantes. The study was conducted independently of Curon Ltd with no interference of this company in the trial design or analysis of results. This study was old, short and small. The patients’ mean age of 48 is far less than the typical Medicare beneficiary. The results were not impressive. This does not support the change in the LCD coverage.

Kalapala et al (2017) The study was registered at ClinicalTrials.gov (Identifier number: NCT02935881). Twenty (20) patients, followed for three months. Ten (10) underwent the Stretta procedure and 10 were controls (all were treated with standard dose of PPIs once daily. The mean age of the treated patients was 38.89 and the controls were 34.00. The primary outcome measure was the proportion of patients showing improvement in the quality of life and improvement in the frequency and severity of GERD symptoms (heartburn, regurgitation, chest pain, and cough). Secondary outcomes included LES pressure at esophageal manometry, reduction in medication use, and patient satisfaction. Data on these measures were collected through a questionnaire consisting of two questions: (1) Are you completely independent of PPIs? and (2) Are you satisfied with the treatment? Responses were graded on 6-point Likert scale. At baseline, only 20% (Stretta 20%; control 20%) of patients overall reported that they were satisfied with their quality of life. Three months after Stretta treatment, 80% reported satisfaction compared with only 30% in the control group. This is also reflected in the patient satisfaction response. Three months after treatment, an increase in lower esophageal sphincter pressure was observed in both Stretta treated as well as the control group. However, the difference between the groups was not significant. Conflict of interest: RK, HS, ZN, SD, RT, and DNR declare that they have no conflict of interest. This paper has too small of a treated number, too short of a follow up period, and too young of a populations (mean age of the treated patients 38.89 and controls 34.00) to support any change in the LCD.

Arts et al (2011) previously reviewed by this contractor and thus does support any change to the LCD.

SAGES. (2015) This review paper briefly mentions Stretta and notes, “However, although the esophageal acid exposure, as measured by the DeMeester score, was significantly reduced after treatment (44.4 vs 28.5, P Z .007), it did not normalize. In addition, no significant increase in lower esophageal sphincter pressure was observed. Adverse events were infrequent and typically minor. The technique appears to durably relieve GERD symptoms for up to 10 years in the majority of patients.” This is a bit premature to state this since literature does not support this follow up. This paper gives very minimal support for Stretta.

Stefanidis (2017) Statement from the Board of Governors of the Society of American Gastrointestinal and Endoscopic Surgeons (SAGES) on Mar 2017. This paper has been previously reviewed by this contractor and thus does support any change to the LCD.

Auyang et al (2013) and the SAGES Guidelines Committee. These results were not based on the findings of a systematic review and have serious methodology issues in study conduct and analysis. For example, the systematic review did not perform a meta-analysis despite the availability of data from 2 randomized controlled trials. In addition, most of the studies were single-arm case series and did not involve a control or comparator, making it impossible to deduce the effect of the Stretta procedure. A key purpose of the systematic review and meta-analysis is to determine whether results are observed because of the intervention or because of bias, owing to poor study design. Therefore, assessment of the methodologic quality of included studies is an important requirement for a systematic review and is recommended by the Cochrane Collaboration. This paper has been previously reviewed by this contractor and thus does support any change to the LCD.

McClusky III et al (2007) previously reviewed by this contractor and thus does support any change to the LCD.

Mattar et al (2006) previously reviewed by this contractor and thus does support any change to the LCD.

Richards et al (2003) previously reviewed by this contractor and thus does not support any change to the LCD.

Noar et al (2016) The authors “prospectively assessed and compared patient reported outcomes in 18 refractory LNF patients and 81 standard refractory GERD patients that all underwent Stretta during 10-year follow-up. Patient-reported outcomes measured were GERD-HRQL (health-related quality of life), patient satisfaction scores, and daily medication requirements.” Originally there were 149 patients who reached the 10 year follow up evaluation cutoff. However, 36 could not be contacted, 11 were deceased, and three declined. The mean age was 50 which is not the typical Medicare beneficiary age. This was a non-randomized open-label prospective comparative trial study which was conducted at a single center. There was inclusion of long-term pH or motility data. While the study was to compare the results of laparoscopic Nissen fundoplication patients who underwent Stretta and standard refractory GERD patients who underwent Stretta, the number of refractory LNF patients were only 18. This not a true clinical study of Stretta that was randomized. It is a comparative of treating poor results of a laparoscopic Nissen fundoplication. Disclosure: Dr. Mark D. Noar has received honoraria for speaking and training for Mederi Therapeutics Inc., and has no other conflicts of interest or financial ties to disclose. Patrick J. Squires and Sulman R. Khan have no conflicts of interest or financial ties to disclose. This paper is not supportive to changing the current policy.

Mederi (2018) This is an unpublished (does not appear on PubMed) proprietary evaluation of Stretta. Unpublished works are not acceptable as support for any Medicare review.

Lipka et al (2015). The authors searched MEDLINE and the Cochrane Central Register of Controlled Trials (The Cochrane Library) from inception until February 28, 2014, along with other databases, for randomized controlled trials of Stretta in patients with GERD. Primary outcomes were physiologic parameters of GERD, including normalization of esophageal pH values and augmentation of lower esophageal sphincter pressure (LESP). Secondary outcomes were health-related quality of life (HRQOL) and ability to stop the use of proton pump inhibitors (PPIs). For quality assurance purposes, two investigators were involved throughout the study. Data were pooled under a random-effects model. The systematic review was performed as per the standards of the Cochrane collaboration. They then collected data from 4 trials and a total of 165 patients (153 patients were analyzed). Three trials compared Stretta vs sham, and 1 trial compared Stretta with PPI therapy. The overall quality of evidence was very low. The pooled results showed no difference between Stretta and sham or management with PPI in patients with GERD for the outcomes of mean (%) time the pH was less than 4 over a 24-hour time course, LESP, ability to stop PPIs, or HRQOL. The authors concluded that in a meta-analysis of trials, Stretta for patients with GERD does not produce significant changes, compared with sham therapy, in physiologic parameters, including time spent at a pH less than 4, LESP, ability to stop PPIs, or HRQOL. The initial electronic search retrieved 136 references that were screened by title and abstract But after the final screening, 4 published studies met the predetermined inclusion criteria. The study by Arts et al was a single-center, randomized, controlled trial comparing Stretta with sham therapy in 22 patients (11 in each group). The study by Aziz et al was a multi-arm randomized trial comparing sham treatment vs single - and double dose Stretta. The randomized, multicenter, national, single-arm, cross-over study by Corley et al studied 64 patients assigned to Stretta (n = 35) or sham therapy (n = 29). Coron et al performed a multicenter international randomized controlled trial, with a parallel design, comparing Stretta and PPI therapy. Forty-three patients were assigned randomly to sham (n = 20) or Stretta (n = 23). The authors noted that the overall methodologic quality of the included studies was very low as determined by GRADE methodology and prone to high risk of bias. None of the included studies provided details on randomization sequence generation, blinding of patients, or outcome assessors. Only a fourth of studies provided details on allocation concealment and three fourths of studies had complete reporting of outcomes data. All included studies were prone to outcome reporting bias because none reported how many patients actually had complete alleviation of symptoms, normalization of pH, or LES pressure. All included studies provided details on random error (ie, sample size calculations, a and b error, and expected difference). Conflicts of interest: Joel E. Richter is a consultant for Endostim, Inc and Givens Imaging. This paper does not support the use of Stretta.

Summary of evidence for EndoCinch™ Suturing System and the Plicator™:

The Bard EndoCinch™ Suturing System and the Plicator™ are intended for use in endoscopic placement of suture(s) in the soft tissue of the esophagus and stomach and for approximation of tissue for treatment of symptomatic gastroesophageal reflux disease. Substantial peer-reviewed evidence to fully support these assumptions needs to be published.

Summary of evidence for Enteryx®:

Enteryx® is an endoscopic, minimally-invasive procedure in which an ethylene vinyl alcohol polymer solution is injected into one's lower esophageal sphincter muscle using a small needle. This product was recalled by the FDA in September 2005 due to adverse patient events. 

Summary of evidence for LINX® Reflux Management System:

LINX® Reflux Management System - a sphincter augmentation device designed to prevent reflux due to abnormal opening of the lower esophageal sphincter (LES). The system is comprised of a small flexible band of 10 to 18 interlinked titanium beads with magnetic cores. Using standard laparoscopic techniques, the band is placed around the esophagus at the level of the gastroesophageal junction. The magnetic attraction between the beads is intended to augment the lower esophageal sphincter to prevent gastric reflux into the esophagus without compressing the esophageal wall. Unlike the other procedures mentioned, this is extraluminal, not intraluminal.

  1. Saino et al (2015) reported five-year results on the 44 implant procedures of the magnetic sphincter augmentation (MAS) first performed in the world. Safety and efficacy were evaluated in a prospective, multicenter study with patients serving as their own controls. Thirty-three of the 44 patients (75%) were followed-up at five years. Enrolled patients had an abnormal esophageal pH on ambulatory monitoring, typical GERD symptoms, had been taking daily PPIs, and were between 18 and 75 years of age. Patients were excluded if they had a large hiatal hernia (> 3 cm), Grade B or higher esophagitis (Los Angeles scale), a body mass index (BMI) > 35 kg/m2, Barrett’s esophagus, motility disorders, gross esophageal anatomic abnormalities, or an allergy to titanium, stainless steel, nickel, or ferrous materials. Mean total of time the esophageal pH was < 4 was 11.9% at baseline and 4.6% at five years (P<.001), with 85% (28) of patients achieving a normal pH or a 50% reduction. Mean total GERD-HRQL scores improved from 25.7 to 2.9 (P<.001). Complete discontinuation of PPIs was achieved by 87.8% of patients. Most patients (90.9%) were satisfied with their condition at five years versus none at baseline. Side effects such as gas bloat and difficulty swallowing were no worse after the procedure. There were no long-term complications but there were three of the 44 patients (86.8%) that had a serious adverse event which resolved. Three devices were removed. Limitations of the study were noted as lack of a comparison group, loss of patients during the five-year follow-up, and lack of pH monitoring at all sites after the first year.

  2. Ganz et al (2015) (in press) performed a prospective study of MAS safety and efficacy in the 100 adults who had GERD for six months or more, were partially responsive to daily proton pump inhibitors (PPIs), and had evidence of pathologic esophageal acid exposure. Exclusion criteria included a hiatal hernia > 3 cm, grade C or D esophagitis (Los Angeles scale), BMI > 35, Barrett’s esophagus, or motility disorder. Eighty-five patients in 14 centers in the United States and The Netherlands were followed for five years serving as their own controls. The GERD-HRQL questionnaire was performed at baseline on and off PPIs and after the placement of the device. A 50% or greater reduction occurred in 83% at five years and a 50% or greater reduction of PPI use occurred in 89.4%. Daily use of PPIs was 100% at baseline and 15.3% at five years with 75.3% reporting no use. All patients reported the ability to belch and vomit with no change in dysphagia. Symptoms of bloating/gas decreased from 52% to 8.3%. No device erosions occurred; seven percent (7%) were removed. Limitations of the study were stated as lack of esophageal pH testing and manometry beyond one year and no comparison group.

  3. Warren et al (2015) performed a retrospective cohort study of patients with GERD undergoing placement of the MAS or a Nissen fundoplication (NF) at three high-volume esopohageal centers. Inclusion criteria included age of 18 – 85 years, a documented history of GERD at least partially responsive to PPIs, and positive pH testing. Excluded were those with a prior history of gastric or esophageal surgery, a hiatal hernia > 3cm, esophageal dysmotility and/or distal esophageal amplitude of < 35 mm Hg, and the visible presence of Barrett’s or esophageal stricture. There were a total of 415 patients (201 MSA and 214 NF) compared at one year post-procedure. Although the patients were similar in age and gender, the NF patients had higher BMIs (40 vs. 32), dysphagia (39 vs. 27) DeMeester scores (39 vs. 34), microscopic Barrett’s (31% vs 18%) and hiatal hernia (69% vs. 55%). At a one-year follow-up 354 patients (169 MSA and 185 NF) had significant improvement in GERD-HRQL scores. MSA patients had a greater ability to belch and vomit with less gas bloat. Propensity matched cases (144) showed similar GERD-HRQL scores. The differences in ability to belch or vomit and gas bloat persisted in favor of MSA but mild dysphagia was higher for MSA as was resumption of daily PPIs (24 vs. 12, p = 0.02). Satisfaction rates were similar. There were no deaths and no significant differences in postoperative minor and major morbidities. Two patients had the MSA device removed and two had an NF revision. Study limitations included its retrospective nature and being performed in high-volume esophageal centers may limit its application to other centers.

  4. Reynolds et al (2015) retrospectively compared charges, complications, and outcomes at one year for 119 patients undergoing MSA (54) or NF (67). Follow-up data were available for 48/52 (92%) of the MSA patients and 59/67 (88%) of the NF patients. There were no significant differences between charges, mean GERD-HRQL, or freedom from PPIs. MSA patients had a shorter operating room time and length of stay, reported less gas bloat symptoms and inability to belch or vomit. Two 30-day complications occurred in the NF group but were resolved. Noted limitations were that the study was not powered to detect a difference in PPI use and charges versus costs were compared. It was concluded that MSA might be an alternative for “gap” patients who are those having residual symptoms on PPIs but not having complicated GERD or complete lower esophageal sphincter (LES) failure.

Evidence reviewed based on reconsideration request received March 12, 2019

On 03/15/2018 the FDA approval for updating the precautions statement to state that use of the LINX Reflux Management System in patients with a hiatal hernia larger than 3 cm should include hiatal hernia repair to reduce the hernia to less than 3 cm and that the LINX Reflux Management System has not been evaluated in patients with an unrepaired hiatal hernia greater than 3 cm, added a hiatal hernia clinical data summary in the instructions for use, updated the instructions for use section to highlight the recommendation to repair a hiatal hernia, if present, at the time of the LINX Reflux Management System implantation, and updated the patient information booklet to align with the instructions for use and include 5 year clinical study results.

  1. Aiolfi et al (2018) reported a systematic review and meta-analysis comparing early outcomes of laparoscopic Nissen and Toupet fundoplication (LF) and Magnetic Sphincter Augmentation (MSA). After identifying all possible studies, seven were determined to be appropriately performed (Louie 2014, Reynold 2015, Sheu 2015, Riegler 2015, Warren 2016, Reynolds 2016, and Asti 2016). There is concern that the two Reynolds papers and the Warren paper had overlapping patients. They concluded that: “Patients with GERD may benefit from both LF and MSA in terms of, safety, risk of dysphagia, postoperative disease-related quality of life, and PPI suspension rate at one-year follow-up. MSA appears to induce less bloating and flatulence, and to facilitate belch and vomiting. Whether MSA should be considered a first-line surgical option in appropriately selected patients remains to be determined.” A concern is that the mean age of the patients ranged from 39.3 to 54 years of age (geometric mean 48.8), which is far below the age of the typical Medicare beneficiary. MSA was associated with a significantly lower incidence of gas/bloat symptoms (OR=0.39 [95% CI, 0.25-0.61]; P<0.001) and a greater incidence in the ability to vomit (OR=10.10 [95% CI, 5.33-19.15]; P<0.001) and belch (OR=5.53 [95% CI, 3.73-8.19]; P<0.001). However, dysphagia requiring endoscopic dilation occurred equally in the 2 groups (9.3% versus 6.6%, respectively; OR=1.56 [95% CI, 0.61-3.95]; P=0.119). The incidence of endoscopic dilation and the incidence of reoperation were similar between groups (P>0.1). This does offer support to the LINX. “Funding disclosure: None. Conflicts of interest: None.”

  2. Alicuben et al (2018) reported on data obtained from the device manufacturer Torax Medical, Inc., as well as the Manufacturer and User Facility Device Experience (MAUDE) database. The study period was from February 2007 through July 2017 and included all devices placed worldwide. According to the authors, 9453 devices were placed during this study period with only 29 reported cases of erosions. The risk of erosion was 0.05% at one year and 0.3% at four years. The authors noted the 12-bead device, which was responsible for 18/29 (62%) of erosions, is no longer available for implantation. This relies on the self-reporting by physicians which can underestimate the numbers. Grant Support: There was no financial assistance. This does offer support to the LINX but since this only looked at erosion, the support is limited to safety, not to effectiveness.

  3. American Society of General Surgeons. LINX Statement of Support from ASGS. 2014. https://theasgs.org/position-statements/linx-statement-of-support-from-asgs/. This gives an opinion with limited basis of evidence to support this. This does give some support but it must be noted that no matter what categorization or scale is used, testimonials, opinions of respected authorities, and reports of expert committees are the lowest level of evidence. There is no statement related to financial conflict although it is apparent that this organization represents surgeons who perform this procedure.

  4. Ayazi et al (2019) published a “retrospective review of prospectively collected data” on 350 patients who underwent magnetic sphincter augmentation and their hiatal hernia (HH) status (none, small [<cm], large [≥3cm], paraesophageal). There were 65 patients (18.6%) with no HH, 205 (58.6%) with small HH (< 3 cm), 58 (16.6%) with large HH (≥ 3 cm) and 22 (6.2%) with paraesophageal HH. Preoperative esophagogastroduodenoscopy (EGD) with biopsy was performed to assess the presence of esophagitis, Barrett’s esophagus and the presence and size of a hiatal hernia. The average age was only 53.5 which is not typical for the Medicare population. At a mean follow-up of 13.6 (10.4) months, the rate of outcome satisfaction was high and similar between the four groups (p = 0.72). The authors do not explain 13.6 verses 10.4. A total of 19 patients required readmission within 90 days after surgery. The study suffers from several issues. First, the patients were not typical Medicare age patients. Second, the short follow up period. Third, it was not a randomized controlled study. Fourth, related to #3, there was no comparison to the Laparoscopic Nissen fundoplication. Disclosures: Dr. Blair A. Jobe is on the scientific advisory board of Johnson and Johnson and Medtronic and receives a consulting fee. Drs. Shahin Ayazi, Nobel Chowdhury, Ali H. Zaidi, Kristy Chovanec, Yoshihiro Komatsu, Ashten N. Omstead, Ping Zheng and Toshitaka Hoppo have no conflicts of interest or financial ties to disclose.

  5. Ayazi et al (2019) compared the costs of laparoscopic magnetic sphincter augmentation (MSA) and laparoscopic Nissen fundoplication (LNF) in a large healthcare system. Of note, the article starts off with, “Magnetic sphincter augmentation (MSA) is a promising antireflux surgical treatment.” It then notes, “Laparoscopic Nissen fundoplication is a safe, effective, and durable treatment.” This is an economic study and costs cannot be used by Medicare as a reason for denying coverage. Disclosure: Dr. Jobe is on the scientific advisory board of Johnson and Johnson and Medtronic and receives a consulting fee. Drs. Ayazi, Zaidi, Zheng, Chovanec, Chowdhury, Salvitti, Newhams, Levy, and Hoppo have no conflicts of interest or financial ties to disclose. This work was completed with assistance of VITAL, Highmark Health.

  6. Bell et al (2019) reported on 152 patients with moderate to severe regurgitation symptoms while they were being treated with once-day proton-pump inhibitors. “Enrolled patients were randomly assigned 2:1 to the following treatment arms: Twice-daily PPI (BID PPI) therapy with omeprazole 20 mg (N Z 102) or laparoscopic MSA (N Z 50). Primary endpoint efficacy and safety assessments were performed at 6 months and are the subject of this report.” The range of patients was 21-76 with a mean of only 46; again not in the typical Medicare age. Also, only 134 were analyzed. “Per protocol, 89% (42/47) of MSA patients achieved resolution of moderate-to-severe regurgitation at the 6-month primary endpoint. In stark contrast, only 10% (10/101) of patients in the medical therapy arm reported relief from moderate-to-severe regurgitation at the 6-month endpoint.” However, these numbers do not add up to the 134 who were subsequently analyzed. Additional concerns are the short follow up, and the above noted age of the patients. While the authors noted, “This is the first prospective, randomized, controlled study comparing MSA with BID PPI therapy in a population of patients with GERD with moderate-to-severe regurgitation despite once-daily PPI therapy." There are several problems with this study. First, all the improvement is subjective rather than some objective measurements. Second, this was not a blinded study. Of course it is difficult to perform a sham abdominal procedure. The short follow up period and the atypical ages of the patients compared to the typical Medicare age are additional concerns. This gives minimal support. “DISCLOSURE: All authors are grant recipients from Torax Medical; A. Park, research grant support from Stryker Endoscopy.”

  7. Buckley et al (2018) reported on 200 patients in a multicenter prospective study treated with magnetic sphincter augmentation (MSA) and a concurrent hiatal hernia repair of greater than 3 centimeters. In fact, 78% of patients had axial hiatal hernias greater or equal to 5 cm or large paraesophageal component. Twenty-nine percent presented with an intrathoracic stomach. Seventeen had undergone a prior hiatal hernia repair with fundoplication. The mean age was 59.5. Non-permanent mesh reinforcement of the hiatal repair was performed in 85% of the patients. One hundred and fifty-six were followed at a median of 8.6 months. While twenty percent of patients had Barrett’s metaplasia, and 40% had esophagitis, there was no mention of these conditions on follow up. The amount of various antacid medication was not quantified. Again, the improvements were subjective. The fact that all the patients had large hiatal hernia repairs concurrently makes it difficult to interpret what improvement was from the MSA and what was from the hiatal hernia repair. Funding: This study received no funding. Compliance with ethical standards. Disclosures: Dr. F.P. ‘‘Tripp’’ Buckley III is on the speakers’ bureau for Torax Medical. Dr. Reginald C.W. Bell is on the speakers’ bureau for Torax Medical. Stephanie Doggett PA-C is on the speakers’ bureau for Torax Medical. Katherine Freeman N.P. and Rachel Heidrick R.N have no conflicts of interest or financial ties to disclose. This paper gives very minimal support to LINX.

  8. Chen M et al (2017) performed a meta-analysis of four clinical trials which involve 624 patients. Three of the publications (Louise, Reynolds, and Warren) have been previously reviewed by this contractor. The Sheu article had not. If trials were included in the meta-analysis, the criteria had to be fulfilled as follows: (1) Compare the original outcomes of MSA (Magnetic Sphincter Augmentation) and NF (Nissen fundoplication) for the treatment of GERD; (2) report on at least incidence of adverse events, complications, and proton-pump inhibitor use. There were similar outcomes in the number of adverse events and complication between two groups were shown. The authors noted, “There are still many unanswered questions whether MSA is still appropriate for hiatal hernias which are more than 3 cm, whether the long-term outcomes of MSA are the same as the short-time outcomes, whether the incidence of LINX device removed and erosion will increase as time goes on, and so on. Therefore, it is very important and necessary to perform randomized controlled trials to describe the efficacy of MSA compared to NF in short term and long term.” The authors “have no conflicts of interest or financial ties to disclose.” This gives minimal support to LINX.

  9. Skubleny D et al (2016) performed a meta-analysis of laparoscopic Nissen fundoplications with magnetic sphincter augmentation. However, the three primary studies were Riegler et al, Warren et al, and Sheu et al. Thus, it is incorrect to accept this as new evidence since the original articles and meta-analysis have already been evaluated. Disclosures: Daniel Skubleny, Noah J. Switzer, Jerry Dang, Richdeep S. Gill, Xinzhe Shi, Christopher de Gara, Daniel W. Birch, Clarence Wong, Matthew M. Hutter and Shahzeer Karmali have no conflicts of interest or financial ties to disclose.

  10. Smith C et al (2014) reported on the post-operative course of 66 patients who received the magnetic sphincter augmentation. The average follow-up was only 5.8 months (range 1 to 18.6 months). Forty-four of the 66 patients had hiatal hernia. The average age was 53.7 which is below the typical Medicare age. There was no control group. They concluded,... “This is a promising new offering for patients with GERD.” They did specifically comment on the learning curve for surgeons performing this surgery. Disclosure Information: “Drs. Smith and DeVault received pay as consultants to Torax Medical during the final review of the results of their Pivotal Trial. Dr. Smith presented outcomes data to the FDA advisory panel and continues to advise the company on how to deploy Linx in clinical practice. Mauricia Buchanan has nothing to declare.”

  11. Smith C et al (2017) reported on data obtained from the device manufacturer Torax Medical, Inc., as well as the Manufacturer and User Facility Device Experience (MAUDE) database. The study period was from March 22, 2012 (FDA approval) through May 31, 2016, and unlike the Alicuben paper, included only events occurring in the United States. An estimated 3283 patients underwent magnetic sphincter augmentation (165 surgeons at 191 institutions). The median implant duration was 1.4 years, with 1016 patients implanted for at least 2 years. No deaths, life-threatening events, or device malfunctions were reported. The overall rate of device removal was 2.7% (89/3283). Disclosure Statement: Drs. C.D.S., J.C.L., and R.C.B. received consulting and research funding from Torax Medical. This does offer support to the LINX as being not dangerous, but no support for it being effective.

  12. Telem D et al (2017) authored a SAGES Committee Paper on SAGES technology and value assessment committee (TAVAC) safety and effectiveness analysis: LINX_ reflux management system. This is a SAGES Committee Paper. Except for Asti et al who reported the results of a retrospective review of prospectively collected data examining the outcomes of 164 patients undergoing LINX implantation with median follow-up of 48 months, all the papers reviewed by SAGES have been evaluated by this contractor. As this SAGES paper notes about the articles reviewed: Limitations of currently published data.
    • Patients used repeatedly in some publications.
    • There may be a publication bias in favor of LINX, as several studies were either funded by the manufacturer or were performed by investigators affiliated with the manufacturer.
    • Most studies were performed in high volume centers in highly selected patients and may not reflect broader clinical practice, which may lead to underreporting of complications.
    • Current studies lack randomization and blinding.

Expert panel recommendation

This expert panel convened by the SAGES Technology and Value Assessment Committee finds that:

With regards to safety:

  • Safety analyses suggest the LINX procedure was associated with few serious adverse events and no reported mortality.
  • The most common anticipated side effect was acute dysphagia.
  • The reported rate of erosion is in the range of 0.1–0.2%. The published literature on erosions suggests that the device can be safely removed endoscopically or laparoscopically without serious adverse outcomes.
  • Some devices require removal, most often for recurrent GERD or persistent and/or severe dysphagia.
  • No new patterns of failure or complications have been reported in long-term follow-up.
  • Longer-term follow-up supports the FDA conclusion that the device is safe.

With regards to efficacy, the panel concludes:

  • LINX implant results in pH normalization, improved quality of life, and complete cessation of regular PPI use on a consistent basis. The ability to belch and vomit is maintained following implantation of LINX, and de novo moderate-severe gas bloat is uncommon.
  • When compared to laparoscopic fundoplication, rates of success in alleviating GERD symptoms and dysphagia are similar following LINX. Bloating side effects may be lower.
  • Longer-term follow-up data demonstrates that the LINX Reflux Management System is effective in the management of GERD.

Conclusions

  • Longer-term (3–5 years) experience with the LINX Reflux Management System confirms the initial safety profile that led to FDA approval of the device.
  • The LINX device has been demonstrated to result in long-term GERD control based on symptomatic outcomes, PPI utilization, and pH studies.
  • LINX is a reasonable treatment option for appropriately selected patients with GERD who meet indications for antireflux surgery. The LINX procedure is part of the armamentarium in the treatment of GERD. As such, it should be performed by surgeons familiar with the workup and different management alternatives of GERD and not offered in isolation.
  • Implantation of the LINX device should be covered and reimbursed by insurance for appropriate patients who meet the selection criteria as described above.

Disclosures Dana Telem, MD: Research funding at Cook, Consulting Fees at Ethicon and Medtronic, Honoraria at Gore. Andrew Wright, MD: Honoraria at Medtronic. Paresh Shah, MD: Consultant at Stryker, Zmicro, Olympus, Endoevolution. Matthew Hutter, MD: Reimbursed to attend Masters in MIS Forum by Olympus. This document underwent prescreening review prior to submission to SAGES Board of Governors for approval by SD Schwaitzberg, MD and Patricia Sylla, MD.

Again, as noted above, it must be noted that no matter what categorization or scale is used, testimonials, opinions of respected authorities, and reports of expert committees are the lowest level of evidence.

  1. Trad K et al (2018) studied transoral incisionless fundoplication (TIF). Clinical outcomes were evaluated at 5 years post-TIF 2.0. A total of 63 chronic gastroesophageal reflux disease (GERD) sufferers with troublesome symptoms refractory to proton pump inhibitor (PPI) therapy, absent or ≤2 cm hiatal hernia, and abnormal esophageal acid exposure were randomized to the TIF group or PPI group. This study has nothing to do with magnetic sphincter augmentation and thus does not support LINX. In summary, it does however support TIF.

  2. Yadlapati R (2018) convened an expert panel and gave their evaluations of nine patients with GERD. The treatment options were laparoscopic fundoplication, magnetic sphincter augmentation, transoral incisionless fundoplication, and radiofrequency energy delivery. Of note, radiofrequency energy delivery such as the Stretta procedure is not covered by National Government Services. Financial support: RY and JEP supported by NIH R01 DK092217 (JEP). Potential competing interests: MFV, MFV, SJS, JR, DK, POK, PJK, CPG, LG, RF, DOC, JC, LH: None. RY: Consultant for Ironwood. CPG: Research: Medtronic; Consultant: Ironwood, Torax, Quintiles; and Teaching: Medtronic, Sandhill. NJS: Research funding: Boston Scientific, CSA Medical, C2 Therapeutics, CDx Medical, Interpace Diagnostics, and Medtronic. Consultant for Shire and Cook Medical. BEL: Scientific advisory board member for Ironwood, Salix. JEP: Consultant for Crospon, Ironwood, Torax, Astra Zeneca, Takeda, Impleo, Medtronic, and Sandhill. Expert panels are the lowest category of medical evidence. Thus, this is very minimal support for LINX.
Analysis of Evidence (Rationale for Determination)

Gastroesophageal reflux disease (GERD) is mostly treated by medical management. As outlined in the ACG Practice Guidelines (updated in 2005) many patients are treated by empirical therapy, without the use of endoscopy. However some patients require additional diagnostic studies and interventions. The Practice Guidelines discusses the historical controversy of medical vs. surgical intervention but did establish the following two treatment guidelines: 

  • Antireflux surgery, performed by an experienced surgeon, is a maintenance option for the patient with well-documented GERD.

  • Endoscopic therapy controls symptoms in selected patients with well-documented GERD. 

These guidelines note anti-reflux surgery, performed by an experienced surgeon, is a maintenance option for the patient with well documented GERD. In these guidelines endoscopic therapy for GERD was discussed, pointing out there are three broad categories of endoscopic therapy: ‘radiofrequency application to the LES area, techniques designed to decrease reflux using endoscopic sewing devices, and techniques using an injection into the LES region.’ The guidelines also raised remaining issues, including: long-term durability, efficacy in atypical presentation of GERD patients, and efficacy of these procedures performed outside of clinical trials.  

Transoral Incisionless Fundoplication (TIF):

Since these guidelines were updated in 2005, a newer endoscopic suturing technique has emerged in the literature. Transoral Incisionless Fundoplication (TIF) is an endoscopic technique.  At present, the only such device currently on the market is the ExophyXTM. The FDA cleared this device. The FDA clearance is for those patients with chronic GERD, with continued responsiveness to PPIs, and a hiatal hernia greater than 2 cm, when a laparoscopic hiatal hernia repair reduces the hernia to 2 cm or less. The TIF procedure is described as: 

During transoral fundoplication, a General Surgeon constructs an anterior partial fundoplication of 270-300 degrees by attaching the fundus to the anterior and left lateral wall of the distal esophagus slightly above the esophagogastric junction through full thickness placation using multiple fasteners around the gastroesophageal junction.  The TIF procedure has had different versions (TIF 1.0 vs. 2.0) depending on the circumferential amount of reestablishment of the valve, i.e. 220 degrees vs. 240 degrees.  

As noted above, the evidence supports limited coverage for Transoral Incisionless Fundoplication (TIF). 

Stretta® procedure: 

At this time, open-label studies or patient registries with short term follow-ups are the dominant source of data. The overwhelming preponderance of reviewers remain equivocal in their support and have called for randomized controlled trials with long-term follow-ups. In the absence of evidence from such studies, and in the absence of wide acceptance, endoscopic treatments for GERD are not proven effective. 

Thus, the evidence is not sufficient and/or robust to support any change in coverage.

Analysis based on reconsideration request received October 17, 2019

Forty three (43) papers were submitted with this reconsideration request.

  • Thirteen of them had previously been evaluated by National Government Services and had already been included in the bibliography. These did not add any new support for Stretta.
  • Eight “positive coverage” documents were included. None of these are from Medicare contractors but rather commercial insurance plans which use contract language as part of their decision process rather than evidence based methods that Medicare requires. These did not add any support to Stretta.
  • Many of the remaining twenty-two (22) articles were old.
  • Others were small studies or had short follow up procedures.
  • Many pertained to patients not reflective of typical Medicare beneficiaries.
  • The methodologic quality and design of the study of most were poor.
  • Some were unpublished and/or not found in PubMed of the National Library of Medicine of the National Center for Biotechnology Information.
  • A forty-fourth article (a review one based on the Cochrane Data Base) was mentioned in one of the submitted articles. This was obtained, reviewed and added.

In summary, there was not sufficient, robust evidence submitted to change the current non-coverage of Stretta. Stretta will remain non-covered.

Enteryx® Procedure: 

Based on the evidence and FDA recall of this product, change in coverage is not warranted. 

LINX® Reflux Management system:  

LINX® Reflux Management system and/or similar treatments are promising for treatment of patients in whom proton pump inhibitor therapy fails. Clinical data from various studies are emerging. At this time, open-label studies or patient registries with short term follow-ups are the dominant source of data. The overwhelming preponderance of reviewers remain equivocal in their support and have called for randomized controlled trials with long-term follow-ups. In the absence of evidence from such studies, and in the absence of wide acceptance, endoscopic treatments for GERD are not proven effective. 

NGS finds the MAS literature to have small numbers of patients with only short follow-up periods with the exception of Saino et al and Ganz with 44 and 100 patients respectively, noting data were available for 33/44 and 85/100. Randomized controlled studies are lacking, including head-to-head comparisons with other modes of treatment. NGS will review future literature as it becomes available and is provided. 

Thus, the evidence is not sufficient and/or robust to support any change in coverage.

Analysis based on reconsideration request received March 12, 2019

The number of submitted literature was small and that included one paper that was not related to the LINX procedure. There were also eight other papers submitted with the current reconsideration that had previously been reviewed by this contractor (Bonavina J 2013, Ganz 2016, Lipham 2015, Louie BE 2014, Reynolds 2016, Riegler 2015, Saino 2015, and Warren 2016) and thus not reviewed again. In addition, some of the current papers appear to contain overlapping patients. While the SAGES Technology and Value Assessment Committee paper was reviewed and noted, expert and/or consensus statements are the lowest form of recognized levels of evidence. The follow up periods for the studies were short and most patients were not of the typical Medicare age. There is concern about conflict of interest but this is difficult to avoid. In summary, there were concerns about the quality of the evidence including randomization, the above mentioned likely patient overlap between 3 studies, and concern of long-term efficacy and safety assessments. The first Ayazi (2019) gives very limited support for LINX since the mean age of patients were not in the typical Medicare population, the follow up period was short, it was not a randomized controlled study, and there was no comparison to the Laparoscopic Nissen fundoplication. The second Ayazi (2019) gives no support for LINX. It is an economic study and cost savings are not acceptable for determining Medicare coverage. In addition, it notes, “Magnetic sphincter augmentation (MSA) is a promising antireflux surgical treatment” as well as “Laparoscopic Nissen fundoplication is a safe, effective, and durable treatment.”

Thus, the submitted medical evidence does not reach a level to support the changing of this contractor’s non-coverage policy. 


Proposed Process Information

Synopsis of Changes
Changes Fields Changed
N/A
Associated Information
Sources of Information
Bibliography
Open Meetings
Meeting Date Meeting States Meeting Information
N/A
Contractor Advisory Committee (CAC) Meetings
Meeting Date Meeting States Meeting Information
N/A
MAC Meeting Information URLs
N/A
Proposed LCD Posting Date
Comment Period Start Date
Comment Period End Date
Reason for Proposed LCD
Requestor Information
This request was MAC initiated.
Requestor Name Requestor Letter
View Letter
N/A
Contact for Comments on Proposed LCD

Coding Information

Bill Type Codes

Code Description

Please accept the License to see the codes.

N/A

Revenue Codes

Code Description

Please accept the License to see the codes.

N/A

CPT/HCPCS Codes

Please accept the License to see the codes.

N/A

ICD-10-CM Codes that Support Medical Necessity

Group 1

Group 1 Paragraph:

N/A

Group 1 Codes:

N/A

N/A

ICD-10-CM Codes that DO NOT Support Medical Necessity

Group 1

Group 1 Paragraph:

N/A

Group 1 Codes:

N/A

N/A

Additional ICD-10 Information

General Information

Associated Information
N/A
Sources of Information

Sources added for reconsideration request received October 17, 2019

CareFirst Medical Policy Reference Manual - Endoscopic Therapies for Gastroesophageal

Reflux (GERD). Last reviewed: 2/21/2017

Highmark Commercial Medical Policy – Delaware – S-145-010 - Transesophageal Endoscopic Therapies for Gastroesophageal Reflux Disease (GERD). Last review: January 2019

Highmark Commercial Medical Policy – Pennsylvania – S-145-020 - Transesophageal Endoscopic Therapies for Gastroesophageal Reflux Disease (GERD). Last review: September 2018

Highmark Commercial Medical Policy – West Virginia – S-145-018 - Transesophageal Endoscopic Therapies for Gastroesophageal Reflux Disease (GERD). Last review: January 2019

Blue Cross Blue Shield of North Dakota - Transesophageal Endoscopic Therapies for Gastroesophageal Reflux Disease (GERD). Last reviewed May: 15, 2019

Novitas Solutions, Inc. LCD L35350 - Upper Gastrointestinal Endoscopy (Diagnostic and Therapeutic). Revision date: 10/01/2018

PriorityHealth Medical Policy No. 91483-R9 - GASTROESOPHAGEAL REFLUX DISEASE (GERD) AND BARRETT’S ESOPHAGUS. Review date: 11/16

Franciosa M, Triadafilopoulos G, Mashimo H. Stretta Radiofrequency Treatment for GERD: A Safe and Effective Modality. Review article.

Mederi R. 2018 Aug 1 Executive Summary: Stretta® Procedure.

Bibliography

Jafri SM, Arora G, Triadafilopoulous G. What is left of the endoscopic antireflux devices? Current Opinion Gastroenterology. 2009 July 25(4): 352-357. doi:10.1097/MOG.0b013e32832ad8b4.

Marinis A, Stefanidis G, Tsaroucha A, et al. Endoluminal fundoplication for the treatment of GERD: A preliminary report of a new transoral approach. Annals of Gastroenterology. 2008;21(2):109-113.

Medical Letter Volume 6 (Issue 72) August 2008, Treatment of Peptic Ulcers and GERD.

Other Medicare Contractor Local Coverage Determinations and article of coverage.

Cadière GB, Van Sante N, Graves JE, Gawlicka AK, Rajan A. Two-year results of a feasibility study on antireflux transoral incisionless fundoplication using EsophyX. Surg Endosc. 2009 May;23(5):957-964. doi: 10.1007/s00464-009-0348-8. Epub 2009 Mar 14.

Cohen LB, Johnson DA, Ganz RA, et al. Enteryx implantation for GERD: expanded multicenter trial results and interim postapproval follow-Up to 24 months. Gastrointest Endosc. 2005 May;61(6):658-658.

Go MR, Dundon JM, Kartowicz DJ, Domingo CB, Muscarella P, Melvin WS. Delivery of radiofrequency energy to the lower esophageal sphincter improves symptoms of gastroesophageal reflux. Surgery. 2004 Oct;136(4):786-794.

Hogan WJ. ASGE leadership: Promoting or validating endoscopic technology? Gastrointestinal Endosc. 2004 Aug;60(2):323-324; discussion 324.

Hogan WJ, Shaker R. A critical review of endoscopic therapy for gastroesophageal reflux disease. Am J Med. 2003 Aug 18;115 Suppl 3A:201S-210S.

Kahrilas PJ. Radiofrequency therapy of the lower esophageal sphincter for treatment of GERD. Gastrointest Endosc. 2003 May;57(6):723-731.

Metz DC. Managing gastroesophageal reflux disease for the lifetime of the patient: evaluating the long-term options. Am J Med. 2004 Sep 6;117 Suppl 5A:49S-55S.

Repici A, Fumagalli U, Malesci A, Barbera R. Gambaro C, Rosati R. Endoluminal fundoplication (ELF) for GERD using EsophyX: a 12-month follow-up in a single-center experience. J Gastrointest Surg. 2010;14:1-6. doi: 10.1007/s11605-009-1077-2. Epub 2009 Nov 10.

Richards WO. Gastroesophageal reflux disease and the truth about endoluminal therapy. J Gastrointest Surg. 2004 Dec;8(8):930-931.

TEC Assessment Program, Blue Cross Blue Shield Association. Transesophageal endoscopic treatments for gastroesophageal reflux disease. Technol Eval Cent Assess Program Exec Summ. 2004 Feb;18(20):1-3.

Triadafilopoulos G. Stretta: a valuable endoscopic treatment modality for gastroesophageal reflux disease. World J Gastroenterol. 2014;20(24):7730-7738.

Triadafilopoulos G. Stretta: an effective, minimally invasive treatment of gastroesophageal reflux disease. Am J Med. 2003 Aug 18;115 Suppl 3A:192S-200S.

Triadafilopoulos G, DiBaise JK, Nostrant TT, et al. The STRETTA procedure for the treatment of GERD: 6 and 12-month follow-up of the U.S. open label trial. Gastrointestinal Endosc. 2002 Feb;55(2):149-156.

Wolfson HC, Richards WO. The Stretta procedure for the treatment of GERD: a registry of 558 patients. J Laparoendosc Adv Surg Tech A. 2002 Dec;12(6):395-402.

Sources submitted during comment period 10/18/2013 through 12/01/2013.

Arts J, Bisschops R, Blondeau K, et al. A double-blind sham-controlled study of the effect of radiofrequency energy on symptoms and distensibility of the gastro-esophagal junction in GERD. Am J Gastroenterol. 2012 Feb;107(2):222-230. doi: 10.1038/aig.2011.395. Epub 2011 Nov 22.

Ayman M, Abdel Z, Hisham R, et al. A prospective randomized trial of sham, single-dose Stretta, and double-dose Stretta for the treatment of gastroesophageal reflux disease. Surg Endosc. 2010 Apr;24(4):818-825. doi: 10.1007/s00464-009-0671-4.

Bell RCW, Mavrelis PG, Barnes WE, et al. A prospective multicenter registry of patients with chronic gastroesophageal reflux disease receiving transoral incisionless fundoplication. J Am Coll Surg. 2012 Dec;215(6):794-809. doi: 10.1016/j.jamcollsurg.2012,07.014.

Franciosa M, Triadafilopoulous G, Mashim H. Stretta radiofrequency treatment for GERD: a safe and effective modality. Gastroenterol Res Pract. 2013;2013:783815. Epub 2013 Sep 2.

Gao X, Wang ZG, Wu JM, et al. Radiofrequency treatment of respiratory symptoms due to gastroesophageal reflux disease. Chin Med J (Engl). 2011 Apr;124(7):1006-1009.

Mattar SG, Qureshi F, Taylor D, Schauer PR. Treatment of refractory gastroesophageal reflux disease with radiofrequency energy (Stretta) in patients after Roux-en-Y gastric bypass. Surg Endosc. 2006 Jun;20(6):850-854. Epub 2006 May 12.

Muls V, Eckardt AJ, Marchese M, et al. Three-year results of a multicenter prospective study of transoral incisionless fundoplication. Surg Innov. 2013 Aug;20(4):321-330. doi: 10.1177/1553350612459275. Epub 2012 Sep 11.

Perry KA, Banerjee A, Melvin WS. Radiofrequency energy delivery to the lower esophageal sphincter reduces esophageal acid exposure and improves GERD symptoms: a systematic review and meta-analysis. Surg Laparosc Endosc Percutan Tech. 2012;22:283-288.

Wendling MR, Melvin WS, Perry KA. Impact of transoral incisionless fundoplication (TIF) on subjective and objective GERD indices: a systematic review of the published literature. Surg Endosc. 2013 Oct;27(10):3754-3761. doi: 10.1007/s00464-013-2961-0. Epub 2013 May 4.

Sources reviewed for reconsideration request received in February 2015:

Arts J, Sifrim D, Rutgeerts P, Lerut A, Janssens J, Tack J. Influence of radiofrequency energy delivery at the gastroesophageal junction (the Stretta Procedure) on symptoms, acid exposure, and esophageal sensitivity to acid perfusion in gastroesophagal reflux disease. Dig Dis Sci. 2007;52:2170-2177.

Auyang DA, Carter P, Rauth T, Fanelli RD and the SAGES Guidelines Committee. Clinical Spotlight Review published on: 02/2013 by the Society of American Gastrointestinal and Endoscopic Surgeons (SAGES).

Brook RA, Wahlqvist P, Kleinman NL, Wallander MA, Campbell SM, Smeeding JE. Cost of gastro-oesophageal reflux disease to the employer: a perspective from the United States. Aliment Pharmacol Ther. 2007;26:889–898.

Corley DA, Katz P, Wo JM, et al. Improvement of gastroesophageal reflux symptoms after radiofrequency energy: a randomized, sham-controlled trial. Gastroenterology. 2003;125:668–676.

Dughera L, Rotondano G, De Cento M , Cassolino P, Cisarò F. Durability of stretta radiofrequency treatment for GERD results of a 8 years follow up. Gastroenterol Res Pract. 2014;2014:531907.

Funk, LM, Zhang JY, Drosdeck JM, Melvin WS, Walker JP, Perry KA. Long-term cost-effectiveness of medical, endoscopic and surgical management of gastroesophageal reflux disease. Surgery. 2015 Jan;157(1):126-36.

McClusky III DA, Khaitan L, Swafford VA, Smith CD. Radiofrequency energy delivery to the lower esophageal sphincter (Stretta procedure) in patients with recurrent reflux after antireflux surgery. Can surgery be avoided? Surg Endosc. 2007’ 21:1207–1211.

Noar M, Squires P, Noar E, Lee M. Long-term maintenance effect of radiofrequency energy delivery for refractory GERD: a decade later. Surg Endosc. 2014 Aug;28(8):2323-33.

Richards WO, Houston HL, Torquati A, Khaitan L, Holzman MD, Sharp KW. Paradigm shift in the management of gastroesophageal reflux disease. Annals of Surgery. 2003;237(5):638–649.

Stålhammar. N-O, Spiegel BM, Löfman HG, et al. Partial response to proton pump inhibitor therapy for GERD: observational study of patient characteristics, burden of disease, and costs in the USA. Pragmatic and Observational Research. 2012:3 57–67.

Additional sources reviewed:

Håkansson B, Montgomery M, Cadiere GB, et al. Randomised clinical trial: transoral incisionless fundoplication vs. sham intervention to control chronic GERD. Aliment Pharmacol Ther. 2015 Dec;42(11-12):1261-1270. doi: 10.1111/spt.13427.

Herman RM, Berho M, Murawski M, et al. Defining the histopathological changes induced by nonablative radiofrequency (RF) treatment of faecal incontinence – a blinded assessment in an animal model. Colorectal Dis. 2015 May;17(5):433-40.

Huang X, Chen S, Zhao H, et al. Efficacy of transoral incisionless fundoplication (TIF) for the treatment of GERD: a systematic review with meta-analysis. Surg Endosc. 2016 Aug 5.

Richardson WS, Stefanidis D, Fanelli RD. Society of American Gastrointestinal and Endoscopic Surgeons Response to "No evidence for efficacy of radiofrequency ablation for treatment of gastroesophageal reflux disease: a systematic review and meta-analysis". Clin Gastroenterol Hepatol. 2015 Feb; pii: S1542-3565(15)00145-7. doi: 10.1016/j.cgh.2015.02.007.

Subramanian CR, Triadafilopoulos G. Radiofrequency-based treatments for esophageal disease. Eur Surg. 2014.

Trad KS, Fox MA, Simoni G, et al. Transoral fundoplication offers durable symptom control for chronic GERD; 3-year report from the TEMPO randomized trial with a crossover arm. Surg Endosc. 2016 Sep 21. [Epub ahead of print]

Sources reviewed for reconsideration request received in March 2015:

Barnes WE, Hoddinott KM, Mundy S, Williams M. Transoral incisionless fundoplication offers high patient satisfaction and relief of therapy resistant typical and atypical symptoms of GERD in community practice. Surg Innov. 2011 Jun;18(2):119-129.

Bell RCW, Barnes WE, Carter BJ, et al. Transoral incisionless fundoplication: 2-year results from the prospective multicenter U.S. study. AM Surg. 2014 Nov; 80(11);1093-1105.

Bell RCW, Fox MA, Barnes WE, et al. Univariate and multivariate analyses of preoperative factors influencing symptomatic outcomes of transoral fundoplication. Surg Endosc. DOI 101007Ss00464-014-3557-z.

Bell RCW, Freeman KD. Clinical and pH-metric outcomes of transoral esophagogastric fundoplication for the treatment of gastroesophageal reflux disease. Surg Endosc. 2011 Jun;25(6):1975-1984.

Hunter JG, Kahrilas PJ, Bell RCW, et al. Efficacy of transoral fundoplication vs omeprazole for treatment of regurgitation in a randomized controlled trial. Gastroenterology. 2015 Feb;148(2):324-333.

Toomey P, Teta A, Patel K. Ross S, Sukharamwala P, Rosemurgy AS. Transoral incisionless fundoplication: is it as safe and efficacious as a Nissen or Toupet fundoplication? AM Surg. 2014 Sep;80(9):861-867.

Trad KS, Barnes WE, Simoni G, et al. Transoral incisionless fundoplication effective in eliminating GERD symptoms in partial responders to proton pump inhibitor therapy at 6 months: the TEMPO Randomized Clinical Trial. Surg Innov. 2015 Feb;22(1):26-40.

Trad KS, Simoni G, Barnes WE, et al. Efficacy of transoral fundoplication for treatment of chronic gastroesophageal reflux disease incompletely controlled with high-dose proton-pump inhibitors therapy: a randomized, multicenter, open label, crossover study. BMC Gastroenterology. 2014 Oct 6;14:174.

Trad KS, Turgeio DG, Deljkich E. Long-term outcomes after transoral incisionless fundoplication in patients with GERD and LPR symptoms. Surg Endosc. 2012 Mar;26(3):650-660.

Wilson EB, Barnes WE, Mavrelis PG, et al. The effects of transoral incisionless fundoplication on chronic GERD patients: 12-month prospective multicenter experience. Surg Laparosc Endosc Percutan Tech. 2014 Feb;24(1):36-46.

Sources reviewed for esophageal sphincter augmentation procedure:

American Medical Association (AMA) CPT® Editorial Summary of Panel Actions October 2015. Updated: November 6, 2015.

Bonavina L, Saino G, Bona D, Sironi A, Lazzari V. One Hundred Consecutive Patients Treated with Magnetic Sphincter Augmentation for Gastroesophageal Reflux Disease: 6 Years of Clinical Experience from a Single Center. J Am Coll Surg. 2013 Oct;217 (4):577-585. doi: 10.1016/jamcollsurg.2013.01.039.

Ganz RA, Edmundowicz SA, Taiganides PA, et al. Long-term Outcomes of Patients Receiving a Magnetic Sphincter Augmentation Device for Gastroesophageal Reflux. Clinical Gastroenterol Hepatol. 2016 May;14(5):671-677. doi: 10.1016/j.cgh.2015.05.028.

Lipham JC, Taiganides PA, Louie BE, Ganz RA, DeMeester TR. Safety analysis of first 1000 patients treated with magnetic sphincter augmentation for gastroesophageal reflux disease. Dis Esophagus. 2015 May-Jun;28(4):305-311. doi: 10.1111/dote.12199.

Louie BE, Farivar AS, Shultz D, Brennan C, Vallières E, Aye RW. Short-Term Outcomes Using Magnetic Sphincter Augmentation Versus Nissen Fundoplication for Medically Resistant Gastroesophageal Reflux Disease. Ann Thorac Surg. 2014 Aug;98(2):498-504. doi: 10.1016/j.athoracsur.2014.04.074.

Reynolds JL, Zehetner J, Nieh A, et al. Charges, outcomes, and complications: a comparison of magnetic sphincter augmentation versus laparoscopic Nissen fundoplication for the treatment of GERD. Surg Endosc. 2016 Aug;30(8):3225-3230. doi: 10.1007/s00464-015-4635-6.

Reynolds JL, Zehetner J, Wu P, Shah S, Bildzukewica N, Lipham JC. Laparoscopic Magnetic Sphincter Augmentation vs Laparoscopic Nissen Fundoplication: A Matched-Pair Analysis of 100 Patients. J AM Coll Surg. 2015 Jul;221(1):123-128. doi: 10.1016/jamcollsurg.2015.02.025.

Riegler M, Schoppman SF, Bonavina L, Ashton D. Horbach T, Kemen M. Magnetic sphincter augmentation and fundoplication for GERD in clinical practice: one-year results of a multicenter, prospective observational study. Surg Endosc. 2015 May;29(5):1123-1129. doi: 10.1007/s00464-014-3772-7.

Saino, G, Bonavina L, Lipham JC, Dunn D, Ganz RA. Magnetic Sphincter Augmentation for Gastroesophageal Reflux at 5 Years: Final Results of a Pilot Study Show Long-Term Acid Reduction and Symptom Improvement. J Laparoendosc Adv Surg Tech. 2015 Oct;25(10):787-792. doi: 10.1089/lap.2015.0394.

Warren HF, Reynolds JL, Lipham JC, et al. Multi-institutional outcomes using magnetic sphincter augmentation versus Nissen fundoplication for chronic gastroesophageal reflux disease. Surg Endosc. 2016 Aug;30(8):3289-3296. doi: 1031007/s00464-015-4659-y.

Anti-Reflux Surgery Supplement to Endogastric Solutions TIF ESOPHYX Reconsideration Request NGS MAC, April 2017.

Clinical Spotlight Review: Endoluminal Treatments for Gastroesophageal Reflux Disease (GERD) sages.org/publications/guidelines/endoluminal-treatments-for-gastroesophageal-reflux-disease-gerd.  (Statement from the Board of Governors of the Society of American Gastrointestinal and Endoscopic Surgeons (SAGES) on Mar 2017).

Hakansson B, Montgomery M, Cadiere G, et al. Randomised clinical trial: transoral incisionless fundoplication vs. sham intervention to control chronic GERD. Aliment Pharmacol Ther. 2015 Dec;42(11-12):1261-1270.

Maret-Ouda J, Wahlin K, El-Serag HB, et al. Association Between Laparoscopic Antireflux Surgery and Recurrence of Gastroesophageal Reflux.  JAMA. 2017 Sep 12;318(10):939-946.

Spechler S. The Durability of Antireflux Surgery. JAMA. 2017 Sep 12;318(10); pp 913-915.

Stefanidis G, Viazis N, Kotsikoros N. Long-term benefit of transoral incisionless fundoplication using the esophyx device for the management of gastroesophageal reflux disease responsive to medical therapy. Dis Esophagus. 2017 Feb 1;30(3):1–8.

Technology Coverage Statement on Minimally Invasive Surgical Options for Gastroesophageal Reflux Disease April 2016.

Vaezi M, Bril J, Mills M, et al.  An Episode Payment Framework for Gastroesophageal Reflux Disease.  Gastroenterology. 2016 Apr;150(4):1019–1025. 

Cahaba Government Benefit Administrators®, LLC:  Local Coverage Determination (LCD): Surgery: Transoral Incisionless Fundoplication (TIF) (L34298) 

Novitas Solutions, Inc.: Local Coverage Determination (LCD):  Transoral Incisionless Fundoplication (L34999) 

Palmetto GBA:  Local Coverage Determination (LCD):  Upper Gastrointestinal Endoscopy and Visualization (L34434) 

American Society of General Surgeons.   American Society of General Surgeons (ASGS) Position Statement Transoral Fundoplication.  https://theasgs.org/position-statements/american-society-of-general-surgeons-asgs-position-statement-transoral-fundoplication/ April 1, 2011. 

Hopkins J, Switzer N, Karmali S. Update on novel endoscopic therapies to treat gastroesophageal reflux disease: A review.  World Journal of Gastrointestinal Endoscopy.  2015 August 25;7(11):10039-10044.

Lipka S, Kumar A, Richter J. No evidence for efficacy of radiofrequency ablation for treatment of gastroesophageal reflux disease: a systematic review and meta-analysis.  Clinical Gastroenterology and Hepatology.  2015 June;13(6):1058-67.

Sources added for reconsideration request received August 30, 2018:

Chang CG, Thackeray L. Laparoscopic Hiatal Hernia Repair in 221 Patients: Outcomes and Experience. JSLS. 2016;20(1):1-7. DOI: 10.4293/JSLS.2015.00104.

Ihde GM, Besancon K, Deljkich E. Short-term safety and symptomatic outcomes of transoral incisionless fundoplication with or without hiatal hernia repair in patients with chronic gastroesophageal reflux disease. Am J Surg. 2011;202(6):740-747. DOI: 10.1016/j.amjsurg.2011.06.035.

Janu P, Shughoury AB, Kumar V, etl al. Transoral incisionless fundoplication (TIF) procedure with EsophyX device following laparoscopic hiatal hernia repair: a two-center community hospital experience of 99 patients. 2017 ACG HHR TIF data poster.

U.S. Food and Drug Administration (FDA) Web site. https://www.fda.gov/MedicalDevices/default.htm. Accessed 10/22/2018. 

Sources added for reconsideration request received March 12, 2019:

Aiolfi A, Asti E, Bernardi D, et al. Early results of magnetic sphincter augmentation versus fundoplication for gastroesophageal reflux disease: Systematic review and meta-analysis. Int J Surg. 2018;52:82-88.

Alicuben ET, Bell RCW, Jobe BA, et al. Worldwide Experience with Erosion of the Magnetic Sphincter Augmentation Device. J Gastrointest Surg. 2018;22(8):1442-1447.

American Society of General Surgeons. LINX Statement of Support from ASGS. 2014. https://theasgs.org/position-statements/linx-statement-of-support-from-asgs/

Ayazi S, Chowdhury N, Zaidi AH, et al. Magnetic sphincter augmentation (MSA) in patients with hiatal hernia: clinical outcome and patterns of recurrence. Surg Endosc. 2019. 

Ayazi S, Zaidi AH, Zheng P, et al. Comparison of surgical payer costs and implication on the healthcare expenses between laparoscopic magnetic sphincter augmentation (MSA) and laparoscopic Nissen fundoplication (LNF) in a large healthcare system. Surg Endosc. 2019.

Bell R, Lipham J, Louie B, et al. Laparoscopic magnetic sphincter augmentation versus double-dose proton pump inhibitors for management of moderate-to-severe regurgitation in GERD: a randomized controlled trial. Gastrointest Endosc. 2019;89(1):14-22 e11.

Buckley FP, 3rd, Bell RCW, Freeman K, Doggett S, Heidrick R. Favorable results from a prospective evaluation of 200 patients with large hiatal hernias undergoing LINX magnetic sphincter augmentation. Surg Endosc. 2018;32(4):1762-1768.

Chen MY, Huang DY, Wu A, et al. Efficacy of Magnetic Sphincter Augmentation versus Nissen Fundoplication for Gastroesophageal Reflux Disease in Short Term: A Meta-Analysis. Can J Gastroenterol Hepatol. 2017;2017:9596342.

Skubleny D, Switzer NJ, Dang J, et al. LINX((R)) magnetic esophageal sphincter augmentation versus Nissen fundoplication for gastroesophageal reflux disease: a systematic review and meta-analysis. Surg Endosc. 2017;31(8):3078-3084.

Smith CD, DeVault KR, Buchanan M. Introduction of mechanical sphincter augmentation for gastroesophageal reflux disease into practice: early clinical outcomes and keys to successful adoption. J Am Coll Surg. 2014;218(4):776-781.

Smith CD, Ganz RA, Lipham JC, Bell RC, Rattner DW. Lower Esophageal Sphincter Augmentation for Gastroesophageal Reflux Disease: The Safety of a Modern Implant. J Laparoendosc Adv Surg Tech A. 2017;27(6):586-591.

Telem DA, Wright AS, Shah PC, Hutter MM. SAGES technology and value assessment committee (TAVAC) safety and effectiveness analysis: LINX((R)) reflux management system. Surg Endosc. 2017;31(10):3811-3826.

Trad KS, Barnes WE, Prevou ER, et al. The TEMPO Trial at 5 Years: Transoral Fundoplication (TIF 2.0) Is Safe, Durable, and Cost-effective. Surg Innov. 2018;25(2):149-157.

U.S. Food and Drug Administration (FDA) Web site. https://www.fda.gov/media/112155/download. Accessed 9/5/2019.

Yadlapati R, Vaezi MF, Vela MF, et al. Management options for patients with GERD and persistent symptoms on proton pump inhibitors: recommendations from an expert panel. Am J Gastroenterol. 2018;113(7):980-986.

Sources added for reconsideration request received October 17, 2019

Gregory D, Scotti DJ, Buck D, Triadafilopoulos G. Budget Impact Analysis to Estimate the Cost Dynamics of Treating Refractory Gastroesophageal Reflux Disease With Radiofrequency Energy: a Payer Perspective. Manag Care. 2016;25(5):42-50.

Funk LM, Zhang JY, Drosdeck JM, Melvin WS, Walker JP, Perry KA. Long-term cost-effectiveness of medical, endoscopic and surgical management of gastroesophageal reflux disease. Surgery. 2015;157(1):126-136.

Noar M, Squires P, Noar E, Lee M. Long-term maintenance effect of radiofrequency energy delivery for refractory GERD: a decade later. Surg Endosc. 2014;28(8):2323-2333.

Dughera L, Rotondano G, De Cento M, Cassolino P, Cisaro F. Durability of Stretta Radiofrequency Treatment for GERD: Results of an 8-Year Follow-Up. Gastroenterol Res Pract. 2014;2014:531907.

Dughera L, Navino M, Cassolino P, et al. Long-Term Results of Radiofrequency Energy Delivery for the Treatment of GERD: Results of a Prospective 48-Month Study. Diagn Ther Endosc. 2011;2011:507157.

Noar MD, Lotfi-Emran S. Sustained improvement in symptoms of GERD and antisecretory drug use: 4-year follow-up of the Stretta procedure. Gastrointest Endosc. 2007;65(3):367-372.

Reymunde A, Santiago N. Long-term results of radiofrequency energy delivery for the treatment of GERD: sustained improvements in symptoms, quality of life, and drug use at 4-year follow-up. Gastrointest Endosc. 2007;65(3):361-366.

Torquati A, Houston HL, Kaiser J, Holzman MD, Richards WO. Long-term follow-up study of the Stretta procedure for the treatment of gastroesophageal reflux disease. Surg Endosc. 2004;18(10):1475-1479.

Herman RM, Berho M, Murawski M, et al. Defining the histopathological changes induced by nonablative radiofrequency treatment of faecal incontinence—a blinded assessment in an animal model. Colorectal Dis. 2015;17(5):433-440.

Perry KA, Banerjee A, Melvin WS. Radiofrequency energy delivery to the lower esophageal sphincter reduces esophageal acid exposure and improves GERD symptoms: a systematic review and meta-analysis. Surg Laparosc Endosc Percutan Tech. 2012;22(4):283-288.

Fass R, Cahn F, Scotti DJ, Gregory DA. Systematic review and meta-analysis of controlled and prospective cohort efficacy studies of endoscopic radiofrequency for treatment of gastroesophageal reflux disease. Surg Endosc. 2017;31(12):4865-4882.

Triadafilopoulos G. Radiofrequency treatment for gastroesophageal reflux disease. UpToDate. 2013. www.uptodate.com

Triadafilopoulos G. Endoscopic Options for Gastroesophageal Reflux: Where Are We Now and What Does the Future Hold? Curr Gastroenterol Rep. 2016;18(9):47.

Nabi Z, Reddy DN. Endoscopic Management of Gastroesophageal Reflux Disease: Revisited. Clin Endosc. 2016;49(5):408-416.

Chang K. Endoscopic therapies for GERD. Filling the Gap in the Continuum of Care. Healio Gastroenterology. 2015;March.

Subramanian CR, Triadafilopoulos G. Refractory gastroesophageal reflux disease. Gastroenterol Rep (Oxf). 2015;3(1):41-53.

Souza TF, Grecco E, Quadros LG, Albuquerque YD, Azor FO, Galvao Neto M. Short-Term Results of Minimally Invasive Treatment of Gastroesophageal Reflux Disease by Radiofrequency (Stretta): First Brazilian Series of Cases. Arq Gastroenterol. 2018;55Suppl 1(Suppl 1):52-55.

Sandhu DS, Fass R. Stretta therapy in the management of gastroesophageal reflux disease (GERD). Ann Esophagus. 2019;2:1-11.

Triadafilopoulos G. Stretta: a valuable endoscopic treatment modality for gastroesophageal reflux disease. World J Gastroenterol. 2014;20(24):7730-7738.

Viswanath Y, Maguire N, Obuobi RB, Dhar A, Punnoose S. Endoscopic day case antireflux radiofrequency (Stretta) therapy improves quality of life and reduce proton pump inhibitor (PPI) dependency in patients with gastro-oesophageal reflux disease: a prospective study from a UK tertiary centre. Frontline Gastroenterol. 2019;10(2):113-119.

Subramanian CR, Triadafilopoulos G. Radiofrequency-based treatments for esophageal disease. Eur Surg. 2014;1.

Ayman M, Aziz A, El-Khayat HR et al. A prospective randomized trial of sham, single-dose Stretta and double-dose Stretta for the treatment of gastroesophageal reflux disease. Surg Endosc. 2010;24:818-825.

Corley DA, Katz P, Wo JM, et al. Improvement of gastroesophageal reflux symptoms after radiofrequency energy: a randomized, sham-controlled trial. Gastroenterology. 2003;125(3):668-676.

Coron E, Sebille V, Cadiot G, et al. Clinical trial: Radiofrequency energy delivery in proton pump inhibitor-dependent gastro-oesophageal reflux disease patients. Aliment Pharmacol Ther. 2008;28(9):1147-1158.

Kalapala R, Shah H, Nabi Z, Darisetty S, Talukdar R, Nageshwar Reddy D. Treatment of gastroesophageal reflux disease using radiofrequency ablation (Stretta procedure): An interim analysis of a randomized trial. Indian J Gastroenterol. 2017;36(5):337-342.

Arts J, Bisschops R, Blondeau K, et al. A double-blind sham-controlled study of the effect of radiofrequency energy on symptoms and distensibility of the gastro-esophageal junction in GERD. Am J Gastroenterol. 2012;107(2):222-230.

Committee ASoP, Muthusamy VR, Lightdale JR, et al. The role of endoscopy in the management of GERD. Gastrointest Endosc. 2015;81(6):1305-1310.

Stefanidis D, Richardson W, Dunkin B,. SAGES endoluminal treatments for gastroesophageal reflux disease GERD. SAGES.org/publications/guidelines/endoluminal-treatments-for-gastroesophageal-reflux-disease-gerd.

Auyang ED, Carter P, Rauth T, Fanelli RD, Committee SG. SAGES clinical spotlight review: endoluminal treatments for gastroesophageal reflux disease (GERD). Surg Endosc. 2013;27(8):2658-2672.

McClusky DA, 3rd, Khaitan L, Swafford VA, Smith CD. Radiofrequency energy delivery to the lower esophageal sphincter (Stretta procedure) in patients with recurrent reflux after antireflux surgery: can surgery be avoided? Surg Endosc. 2007;21(7):1207-1211.

Mattar SG, Qureshi F, Taylor D, Schauer PR. Treatment of refractory gastroesophageal reflux disease with radiofrequency energy (Stretta) in patients after Roux-en-Y gastric bypass. Surg Endosc. 2006;20(6):850-854.

Richards WO, Houston HL, Torquati A, Khaitan L, Holzman MD, Sharp KW. Paradigm shift in the management of gastroesophageal reflux disease. Ann Surg. 2003;237(5):638-647; discussion 648-639.

Noar M, Squires P, Khan S. Radiofrequency energy delivery to the lower esophageal sphincter improves gastroesophageal reflux patient-reported outcomes in failed laparoscopic Nissen fundoplication cohort. Surg Endosc. 2017;31(7):2854-2862.

Lipka S, Kumar A, Richter JE. No evidence for efficacy of radiofrequency ablation for treatment of gastroesophageal reflux disease: a systematic review and meta-analysis. Clin Gastroenterol Hepatol. 2015;13(6): 1058-1067.

Revision History Information

Revision History Date Revision History Number Revision History Explanation Reasons for Change
02/10/2022 R12

Removed hyperlink for U.S. Food and Drug Administration (FDA) in the Bibliography section.

  • Other (Removed hyperlink)
04/15/2021 R11

Based on a reconsideration request for the Stretta® procedure, the “Summary of Evidence” and “Analysis of Evidence” sections have been revised and sources have been added to the “Bibliography” section of the LCD. No changes were made in coverage.

  • Provider Education/Guidance
  • Reconsideration Request
04/01/2020 R10

Based on a reconsideration request for the LINX® Reflux Management System, the “Summary of Evidence” and “Analysis of Evidence” sections have been revised and sources have been added to the “Bibliography” section of the LCD. No changes were made in coverage.

  • Provider Education/Guidance
  • Reconsideration Request
10/17/2019 R9

This LCD was converted to the new "no-codes" format. There has been no change in coverage with this LCD revision.

  • Revisions Due To Code Removal
08/15/2019 R8

Consistent with Change Request 10901, all coding information, National coverage provisions, and Associated Information (Documentation Requirements, Utilization Guidelines) have been removed from the LCD and placed in the related Billing and Coding Article, A56863. There has been no change in coverage with this LCD revision.

  • Provider Education/Guidance
12/01/2017 R7

Based on a provider/practitioner request, the “Limitations” section has been revised to remove the following:

    “any patient in which a staged procedure is being done, as described as a laparoscopic esophageal or paraesophageal diaphragmatic hernia / opening closure followed by a TIF endoscopically.”
  • Provider Education/Guidance
12/01/2017 R6

Based on a reconsideration request, information has been added to the “Limitations” and "Analysis of Evidence (Rationale for Determination)" sections of the LCD to reflect revised FDA guidelines.

 

  • Reconsideration Request
12/01/2017 R5

The LCD was submitted to Jurisdiction 6 and Jurisdiction K for public and CAC comment from 06/19/2017 through 08/02/2017.  

Based on the comments and peer-reviewed literature received, the changes shown below were made:

The title of the LCD has changed from "Endoscopic Treatment of GERD" to "Select Minimally Invasive GERD Procedures."

Non coverage information for the LINX® Reflux Management System has been added to the LCD.   

Based on a reconsideration request coincident with the CAC draft comment cycle, limited coverage has been added for TIF. 

Bill Type codes 13X and 83X have been added.  

CPT codes 43257, 43284, 43499, 43999 and 49999 have been moved to Group 2 of the “CPT/HCPCS Codes” section as not medically necessary. 

The “ICD-10 Codes that Support Medical Necessity” section has been updated to add payable ICD-10-CM codes for CPT code 43210.  

Additional references were included in the "Bibliography" section.

 

  • Provider Education/Guidance
  • Reconsideration Request
12/01/2016 R4

Based on a reconsideration request for Stretta®, sources have been added to the “Sources of Information” section of the LCD. No changes were made in coverage.

DATE (08/01/2017): At this time 21st Century Cures Act will apply to new and revised LCDs that restrict coverage which requires comment and notice. This revision is not a restriction to the coverage determination; and, therefore not all the fields included on the LCD are applicable as noted in this policy.

  • Reconsideration Request
12/01/2016 R3 In the “Indications” section of the LCD, the last sentence in the paragraph for the Stretta® procedure has been changed from:
    Substantial peer-reviewed evidence to fully support these assumptions remains to be published
To:
    Substantial peer-reviewed evidence to fully support these assumptions needs to be published.
This same sentence been added to the end of the paragraphs for the Bard EndoCinch™ Suturing System and the Plicator™ and the EsophyX™ device.

The language in the paragraph for Enteryx® has been changed from:
    Enteryx® is an endoscopic, minimally-invasive procedure in which an ethylene vinyl alcohol polymer solution is injected into your lower esophageal sphincter muscle using a small needle.
To:
    Enteryx® is an endoscopic, minimally-invasive procedure in which an ethylene vinyl alcohol polymer solution is injected into one’s lower esophageal sphincter muscle using a small needle.
The following reference has been added to the “Sources of Information and Basis for Decision” section of the LCD:
    Trad KS, Fox MA, Simoni G, et al. Transoral fundoplication offers durable symptom control for chronic GERD; 3-year report from the TEMPO randomized trial with a crossover arm. Surg Endosc. 2016 Sep 21. [Epub ahead of print]
  • Provider Education/Guidance
01/01/2016 R2 Based on the annual 2016 HCPCS update, HCPC code C9724 has been deleted and replaced with CPT code 43210.
  • Revisions Due To CPT/HCPCS Code Changes
10/01/2015 R1 The Sources of Information section has been revised to add additional sources for Stretta and transoral incisionless fundoplication (TIF) based on updates made to the ICD-9-CM version.
  • Provider Education/Guidance
N/A

Associated Documents

Attachments
N/A
Related National Coverage Documents
N/A
Public Versions
Updated On Effective Dates Status
02/04/2022 02/10/2022 - N/A Currently in Effect You are here
Some older versions have been archived. Please visit the MCD Archive Site to retrieve them.

Keywords

N/A

Read the LCD Disclaimer