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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT05711758
Other study ID # 2022P003420
Secondary ID
Status Recruiting
Phase
First received
Last updated
Start date September 22, 2023
Est. completion date December 31, 2024

Study information

Verified date December 2023
Source Brigham and Women's Hospital
Contact Michele B. Ryan, MS
Phone 6176765928
Email mryan@bwh.harvard.edu
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

Gastric myotomy has been performed for several years as a means of addressing chronic stenosis after sleeve gastrectomy and treating gastroparesis. The Pylorus Sparing Antral Myotomy (PSAM) technique has the opposite effect by leaving the pylorus intact and extending the myotomy proximally to the distal gastric body. PSAM was initially combined with ESG and shown to delay gastric emptying and provide greater weight loss without impacting tolerability (GCSI score) or the safety profile of the procedure (2 DDW GEM abstracts). PSAM has not been evaluated alone, without concomitant ESG. Since delayed gastric emptying alone is known to promote weight loss, it is thought that PSAM alone (without ESG) may provide similar efficacy, while reducing procedure time and adverse events. There have been no clinical studies that investigate the efficacy of PSAM independent of ESG. This pilot study aims to address this lack of information by evaluating the safety, tolerability, and short-term efficacy of PSAM, in addition to exploring its impact on gastric physiology. This will also provide data that may be used in designing a larger clinical trial.


Description:

Obesity, defined as body mass index (BMI) greater than 30 kg/m2 in adults, is affecting 30% of the global population and a significant healthcare burden. [1] Obesity has increased dramatically over the last few decades, with over 650 million adults, or 13% of the world's total adult population, diagnosed with the disease in 2016 - a figure that has nearly tripled since 1975.[1] In the U.S the obesity prevalence for U.S. adults increased from 14.1% to 26.7%, or an 89.9% increase between 1993 and 2008.[1,2,3] As a result, current and potential interventions, and treatment strategies to combat obesity have become more important. The current treatment of obesity involves multiple strategies with combination of non-pharmacologic, pharmacologic, endoscopic, and surgical interventions. There are several FDA-approved pharmacotherapies for the treatment of obesity such as orlistat, phentermine-topiramate, naltrexone-bupropion, liraglutide, and semaglutide. For adults with a body mass index (BMI) of 40 kg/m2 or 35 kg/m2 and obesity-related comorbidity, bariatric surgery can be offered. [4, 5] Endoscopic bariatric and metabolic therapies (EBMT) have emerged as an alternative treatment for patients with obesity with a BMI over 30kg/m2 or 27 kg/m2 with an obesity-related comorbidity. The interest in EBMT is growing given their safety, efficacy, and non-invasive nature. Current FDA-cleared devices that can be used for EBMT include intragastric balloons and suturing devices for endoscopic sleeve gastroplasty (ESG). Additionally, a variety of Endo surgical knifes are approved for tissue dissection such as myotomy. Gastric interventions used to treat obesity work by interfering with gastric accommodation, breakdown and mixing of food, or gastric emptying. Delaying gastric emptying was shown to be a major mechanism of action for both ESG and IGB which is also correlated with weight loss [6]. Antral peristalsis constitutes an important mechanism for gastric emptying. The antrum also serves as a food sensor which needs to be filled to a certain level before food is pumped into the duodenum. [7] Therefore, targeting the antrum is a feasible strategy to delay gastric emptying, induce satiety, and promote weight loss. In fact, one of the recently FDA-cleared EBMT devices, the Transpyloric Shuttle (Baronova, MA), focuses on inhibiting the antral pump as its primary mechanism of action. This device consists of two interconnected large and small bulbs, positioned in the antrum and duodenum respectively, that cause intermittent obstruction of the pylorus, leading to a delay in gastric emptying (10). As such, a pylorus sparing antral myotomy (PSAM) with a submucosal tunneling technique was developed. Gastric myotomy has been performed for several years as a means of addressing chronic stenosis after sleeve gastrectomy and treating gastroparesis. The PSAM technique has the opposite effect by leaving the pylorus intact and extending the myotomy proximally to the distal gastric body. PSAM was initially combined with ESG and shown to delay gastric emptying and provide greater weight loss without impacting tolerability (GCSI score) or the safety profile of the procedure (2 DDW GEM abstracts). PSAM has not been evaluated alone, without concomitant ESG. Since delayed gastric emptying alone is known to promote weight loss, it is thought that PSAM alone (without ESG) may provide similar efficacy, while reducing procedure time and adverse events. Traditional bariatric surgery is very effective at treating obesity, however, only 1% of eligible patients elect to undergo this treatment option. Additionally, the majority of patients with obesity do not qualify for bariatric surgery. [5] Due to the less invasive nature of PSAM, and relative technical simplicity compared to ESG) this procedure may provide a more widely available and more acceptable treatment option for some patients. There have been no clinical studies that investigate the efficacy of PSAM independent of ESG. This pilot study aims to address this lack of information by evaluating the safety, tolerability, and short-term efficacy of PSAM, in addition to exploring its impact on gastric physiology. This will also provide data that may be used in designing a larger clinical trial.


Recruitment information / eligibility

Status Recruiting
Enrollment 6
Est. completion date December 31, 2024
Est. primary completion date September 21, 2024
Accepts healthy volunteers No
Gender All
Age group 18 Years to 70 Years
Eligibility Inclusion Criteria: - subjects must be 18-70 years of age - eligible for endoscopic and surgical weight loss procedures - body mass index (BMI) greater than 35 kg/m2 - Individuals must be in excellent mental health - able to understand and sign informed consent - available to return for all routine follow-up study visits Exclusion Criteria: - untreated H. pylori infection - gastroparesis - active smoking - an ongoing or a history of treatment with opioids in the last 12 months prior to enrollment - previous pyloromyotomy or pyloroplasty - gastrointestinal obstruction - severe coagulopathy - esophageal or gastric varices and/or portal hypertensive gastropathy - pregnancy or puerperium - any inflammatory disease of the gastrointestinal tract (including but not limited to severe (LA Grade C or D) esophagitis, active gastric ulceration, active duodenal ulceration, or specific inflammation such as Crohn's disease) - malignant or premalignant gastric diseases (such as high grade dysplasia, gastric cancer, or GIST) - severe cardiopulmonary disease or a history of coronary artery disease (including myocardial infarction within the past 6 months, poorly controlled hypertension, required use of NSAIDs) - lactation - history of gastrointestinal surgery - any serious health condition unrelated to their weight that would increase the risk of endoscopy - chronic abdominal pain - active psychological issues preventing participation in a lifestyle modification program - a known history of endocrine disorders affecting weight (uncontrolled hypothyroidism) - an inability to provide informed consent - use of any medication that may interfere with weight loss - use of any medication that may interfere with gastric emptying - any other condition which the investigator may deem as an impediment to compliance or hinder completion of the proposed study

Study Design


Intervention

Procedure:
PSAM Treatment Patients
PSAM is a pylorus-sparing antral myotomy performed under general anesthesia. Endoscopic myotomy is then performed applying the principles of submucosal endoscopy and techniques used during gastric per-oral endoscopic myotomy (G-POEM). A submucosal bleb is created proximal to the pylorus. A longitudinal mucosal incision is made with an endoscopic knife. The endoscope is then introduced into the submucosal space, and the knife is used to dissect the submucosal fibers. Antral myotomy is performed starting proximal to the pyloric ring extending to the mucosal access site. The myotomy entails cutting of the inner circular and oblique muscle bundles or may be full thickness at the discretion of the endoscopist. The mucosal entry is then closed using endoscopic suturing or clips.

Locations

Country Name City State
United States Brigham and Women's Hospital Boston Massachusetts

Sponsors (1)

Lead Sponsor Collaborator
Christopher C. Thompson, MD, MSc

Country where clinical trial is conducted

United States, 

References & Publications (10)

Abu Dayyeh BK, Acosta A, Camilleri M, Mundi MS, Rajan E, Topazian MD, Gostout CJ. Endoscopic Sleeve Gastroplasty Alters Gastric Physiology and Induces Loss of Body Weight in Obese Individuals. Clin Gastroenterol Hepatol. 2017 Jan;15(1):37-43.e1. doi: 10.1016/j.cgh.2015.12.030. Epub 2015 Dec 31. — View Citation

Abu Dayyeh BK, Rajan E, Gostout CJ. Endoscopic sleeve gastroplasty: a potential endoscopic alternative to surgical sleeve gastrectomy for treatment of obesity. Gastrointest Endosc. 2013 Sep;78(3):530-5. doi: 10.1016/j.gie.2013.04.197. Epub 2013 May 24. — View Citation

Aghaie Meybodi M, Qumseya BJ, Shakoor D, Lobner K, Vosoughi K, Ichkhanian Y, Khashab MA. Efficacy and feasibility of G-POEM in management of patients with refractory gastroparesis: a systematic review and meta-analysis. Endosc Int Open. 2019 Mar;7(3):E322-E329. doi: 10.1055/a-0812-1458. Epub 2019 Feb 28. — View Citation

Gomez V, Woodman G, Abu Dayyeh BK. Delayed gastric emptying as a proposed mechanism of action during intragastric balloon therapy: Results of a prospective study. Obesity (Silver Spring). 2016 Sep;24(9):1849-53. doi: 10.1002/oby.21555. Epub 2016 Jul 28. — View Citation

Goyal RK, Guo Y, Mashimo H. Advances in the physiology of gastric emptying. Neurogastroenterol Motil. 2019 Apr;31(4):e13546. doi: 10.1111/nmo.13546. Epub 2019 Feb 10. — View Citation

James PT, Leach R, Kalamara E, Shayeghi M. The worldwide obesity epidemic. Obes Res. 2001 Nov;9 Suppl 4:228S-233S. doi: 10.1038/oby.2001.123. — View Citation

Jia H, Lubetkin EI. Obesity-related quality-adjusted life years lost in the U.S. from 1993 to 2008. Am J Prev Med. 2010 Sep;39(3):220-7. doi: 10.1016/j.amepre.2010.03.026. — View Citation

Klem ML, Wing RR, Chang CC, Lang W, McGuire MT, Sugerman HJ, Hutchison SL, Makovich AL, Hill JO. A case-control study of successful maintenance of a substantial weight loss: individuals who lost weight through surgery versus those who lost weight through non-surgical means. Int J Obes Relat Metab Disord. 2000 May;24(5):573-9. doi: 10.1038/sj.ijo.0801199. — View Citation

Mohan BP, Chandan S, Jha LK, Khan SR, Kotagiri R, Kassab LL, Ravikumar NPG, Bhogal N, Chandan OC, Bhat I, Hewlett AT, Jacques J, Ponnada S, Asokkumar R, Adler DG. Clinical efficacy of gastric per-oral endoscopic myotomy (G-POEM) in the treatment of refractory gastroparesis and predictors of outcomes: a systematic review and meta-analysis using surgical pyloroplasty as a comparator group. Surg Endosc. 2020 Aug;34(8):3352-3367. doi: 10.1007/s00464-019-07135-9. Epub 2019 Oct 3. — View Citation

Tak YJ, Lee SY. Anti-Obesity Drugs: Long-Term Efficacy and Safety: An Updated Review. World J Mens Health. 2021 Apr;39(2):208-221. doi: 10.5534/wjmh.200010. Epub 2020 Mar 9. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary Weight change compared to baseline Percent total body weight loss Screening, Procedure day, 1 month, 3 month, 6 month, 9 month, 12 months
Primary Adverse Events Changes to health compared to baseline Procedure day, 1 month, 3 month, 6 month, 9 month, 12 months
Primary Change in tolerability from procedure day to 12 months How the subjects feel after the procedure based on pain scale and AE's Procedure day, 1 month, 3 month, 6 month, 9 month, 12 months
Secondary Change in Quality of Life compared to baseline Overall quality of life questionnaire Screening, 1 month, 3 month, 6 month, 9 month, 12 months
Secondary Gastric Emptying compared to baseline Gastric emptying using a gastric emptying breath test (GEBT) Screening, 6 months, 12 months
Secondary Ghrelin levels compared to baseline Laboratory analysis of blood samples to test ghrelin levels Screening, 6 months, 12 months
Secondary Insulin levels compared to baseline Laboratory analysis of blood samples to test insulin metabolic profiles Screening, 6 months, 12 months
Secondary HgA1c levels compared to baseline Laboratory analysis of blood samples to test HgA1c metabolic profiles Screening, 6 months, 12 months
Secondary Glucose levels compared to baseline Laboratory analysis of blood samples to test Glucose metabolic profiles Screening, 6 months, 12 months
Secondary HOMA-IR blood plasma levels compared to baseline Laboratory analysis of blood samples to test changes in insulin resistance Screening, 6 months, 12 months
Secondary Physiologic Changes of gastric motility/transit compared to baseline Upper GI series comparing pre-procedure barium transit to post-procedure 6 and 12 month time points. Screening, 6 months, 12 months
Secondary Gastric Motility compared to baseline Dynamic MRI Screening, 1 month
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