Endoscopic sleeve gastroplasty
This article's tone or style may not reflect the encyclopedic tone used on Wikipedia. (August 2022) |
Endoscopic sleeve gastroplasty | |
---|---|
Specialty | Gastroenterology, Bariatrics |
In medicine, endoscopic sleeve gastroplasty (ESG) is a minimally-invasive, non-surgical (incisionless), endoscopic weight loss procedure that is part of the field of endoscopic bariatric therapies. To perform ESG, a physician sutures a patient’s stomach into a narrower, smaller tube-like configuration.[1] The result is a more restricted stomach that forces patients to feel fuller sooner, eating fewer calories, which facilitates weight loss .[2][3][4]
History
[edit]Early iterations of endoscopic gastric remodeling for weight loss included the endoluminal vertical gastroplasty, which attempted to mimic the restricted stomach configuration of the vertical sleeve gastrectomy.[5] Around the same time, similar endoscopic remodeling along the stomach’s larger curvature was performed through tissue acquisition with a suction-based device, though this was limited by suture loss.[6][7] In 2012, Dr. Christopher Thompson, a Harvard Medical School professor and later Co-founder of Bariendo, performed the first ESG case in humans.[8] This was modified and tissue was acquired with a full-thickness suturing device, which has been the basis of the present ESG procedure.[9] In July 2022, the creation of the ESG using the Apollo Overstitch device was authorized by the United States Food and Drug Administration for the treatment of obesity in patients with a body mass index between 30–50 kg/m2.
Description
[edit]The ESG may be performed with slight variations by different physicians. It most commonly is performed using the Apollo ESG Device (formally Overstitch device). This device fits over a therapeutic double-channel endoscope to create a sutured row of stomach tissue. The tissue helix is advanced from the endoscope, put up against stomach tissue, and turned 2-4 rotations to access the gastric muscle layer. The helix is then retracted towards the scope, bringing the full-thickness acquired stomach tissue with it. Using the handle-operated needle driver, a needle attached to the suture wire is passed through the full-thickness tissue to the anchor exchange. This creates a full-thickness plication of stomach tissue. The needle is then passed back from the anchor exchange to the needle driver, and the process is repeated, threading the suture wire through each bite of stomach tissue. When enough full-thickness bites have been taken for a suture row, a cinch is passed through the scope over the suture. Typically, sutures are placed starting at the border of the antrum and gastric body at the incisura, then placed proximally up to the border of the gastric body and fundus. Each row of sutures can be a straight line or one of the variety of suture patterns reported in the literature, such as the “M,” “Z,” and “U” pattern as well as other novel patterns; nonetheless, to date, no suture pattern has been proven to be superior for weight loss.[10][11][12][13] Regardless of suture pattern, creation of the ESG focuses on tissue imbrication along the greater curvature of the stomach. The fundus is typically avoided due to the relatively thinner wall compared to the gastric body to avoid complications from the procedure.[14]
Providers and locations for ESG performance
[edit]Accredited advanced fellowship training programs in ESG and other endoscopic bariatric therapies are currently rare, and competency in ESG is typically achieved through proctoring by experts after completion of an accredited gastroenterology or surgical training program. Studies have reported that efficiency with performance of ESG and improved weight loss outcomes occur after approximately 35-38 cases.[15][16][17] Mastery was reported in one study to occur after 55 cases.[15] While early performance of the ESG has traditionally been carried out in university-affiliated/academic centers, ESG has been shown to be feasible and safe when performed in the community setting.[18]
Outcomes
[edit]The primary measures of weight loss outcomes for endoscopic bariatric therapies include total body weight loss (percentage of pre-procedure weight lost by a certain time point) and excess weight loss (percentage of pre-procedure weight above ideal body weight that is lost by a certain time point). The Preservation and Incorporation of Valuable Endoscopic Innovation thresholds is an expert panel with gastroenterologists and surgeons from the American Society for Gastrointestinal Endoscopy and The American Society for Metabolic and Bariatric Surgery, and in 2015, this panel recommended that any new endoscopic therapy for weight loss should have an excess weight loss exceeding 25% and a serious adverse event rate less than 5%.[19] Total body weight loss thresholds were not defined but are generally considered meaningful in novel endoscopic bariatric therapies if exceeding 5%.[20][21] Multiple studies of ESG have shown that this therapy satisfies these criteria, as outlined below.
Weight loss outcomes
[edit]Multicenter ESG Randomized Trial (MERIT)
[edit]The recently published MERIT study is the first and only randomized controlled trial of the ESG for treatment of obesity and included 209 adult subjects with class I and II obesity (BMI 30–40 kg/m2).[22] It was conducted from Dec. 2017 to Jun. 2019, spanned nine centers in the United States, and comprised 85 adults in the ESG arm and 124 adults in the control arm (lifestyle modification only). Subjects in the ESG arm lost 13.6% of body weight and 49.2% of excess body weight at one year, compared to 0.8% total body weight loss and 3.2% excess weight loss in the control arm at the same time point.
Weight loss
[edit]Prior to the MERIT study, numerous meta-analyses of studies on ESG report a total body weight loss of approximately 16% at one year.[23][24][25][26][27] Excess weight loss was observed to be approximately 60% at one year.[23][25][27][28] Weight loss reported from high volume community practices that have both expertise in ESG and robust longitudinal aftercare programs with dietitians have shown even greater outcomes, with total body weight loss approaching 30% and excess weight loss of 66% at one year.[18]
Predictors of greater weight loss
[edit]Patient selection is an important consideration for any weight loss therapy. The present published literature shows either no influence or conflicting results for patient age, sex, starting weight/BMI on weight loss from ESG. Long-term after care programs have demonstrated benefit for sustained weight loss after ESG, with one study showing that patients who continued after care visits following ESG had 20.5% total body weight loss compared to 16.9% total body weight loss in those who dropped out of long-term follow up programs.[29]
Weight-related comorbidities
[edit]There are over 200 obesity-related comorbidities, and it has been reported that achieving a total body weight loss of 10% has a significant impact of such conditions.[30] Thus, the weight loss outcomes with ESG are unsurprisingly accompanied by an improvement in several obesity-related comorbidities. Weight loss facilitated by ESG has been observed to bring about benefits in or even cure of diabetes/insulin sensitivity,[31][32][33] dyslipidemia,[31][32] blood pressure,[31] and fatty liver disease,[31][33][34] as well as quality of life.[35][36] The MERIT study showed 80% of patients who underwent ESG had improvement in one or more comorbidities at one year.[22]
Durability
[edit]Mid-term durability from ESG appears promising. A total body weight loss of 17% and excess weight loss of between approximately 60-67% was observed to be sustained at 18–24 months.[23][26][28] This was later confirmed in the multicenter, randomized controlled MERIT study, which observed that 68% of subjects who underwent an ESG maintained 25% or more of their excess weight loss at two years.[22] As a novel therapy, ESG presently lacks studies assessing long-term durability, though more data on this component of ESG are anticipated as more ESGs are performed over time. One recent study observed at 5 years from ESG that at least 10% total body weight loss was maintained in 90% of patients and at least 15% total body weight loss was maintained in 61% of patients.[17]
Safety
[edit]Mild to moderate gastrointestinal side effects (such as nausea, cramping, bloating, and abdominal discomfort) are common after ESG (reported in over 70% of patients), but these are predictable, temporary, and can be managed with medications.[25] Most will resolve within one week after ESG. Due to the minimally invasive nature of ESG, serious complications are rare. These include pain or nausea requiring hospitalization (1.08%); upper gastrointestinal tract bleeding (0.56%); peri-gastric leak or infected fluid collection (0.48%); pulmonary embolism (0.06%); perforation (0.06%).[23] Similar rates of serious adverse events were reported in the multicenter, randomized controlled MERIT study.[22] No deaths have been observed in the published ESG literature.
Physiologic mechanisms of weight loss from ESG
[edit]Peripheral appetite signaling/gastric sensorimotor function
[edit]Mechanisms of weight loss from ESG remains an area of active study. There are at least two mechanisms of peripheral appetite signaling thought to be mediated by ESG: first, increased sense of fullness during a meal leading to meal termination, potentially a result of the intact gastric fundus that serves as a food reservoir and the restriction to gastric expansion (accommodation) during a meal;[2][4] and second, from delayed emptying of the stomach, which promotes a prolonged sensation of fullness after a meal.[4]
Hunger and satiety hormones
[edit]Unlike the surgical sleeve gastrectomy, the ESG does not appear to affect central appetite signaling through the hunger hormone, ghrelin.[29] This is thought to be because the surgical sleeve removes the fundus, the primary site of ghrelin production, and the relatively thinner-walled fundus is avoided in the ESG for safety concerns. Furthermore, in cases where the fundus was sutured in ESG, this did not benefit weight loss outcomes.[14]
Further application of ESG with other weight loss treatments
[edit]Combination ESG and pharmacologic therapy
[edit]ESG can safely be combined with weight loss medications to improve weight loss or prevent weight regain after the procedure. The daily injectable medication liraglutide showed greater total body weight loss when combined with ESG compared to ESG alone at 7 months (approximately 25% vs 20% respectively).[14] Similar results are anticipated with other incretin agents, such as semaglutide and tirzepatide, though no studies have directly assessed these combinations.
ESG after surgical sleeve gastrectomy (Revisional ESG)
[edit]Weight regain after surgical sleeve gastrectomy has historically been managed with medications or a more invasive revisional surgery.[37][38][39][40] Recent data suggested that an ESG can safely be performed after the surgical sleeve gastrectomy (sometimes referred to as a “revisional ESG”), with total body weight loss of approximately 16-18% at 12 months.[41][42] While weight loss is not thought to be as robust as the initial weight loss surgery, the revisional ESG has an improved safety profile compared to a surgical revision and is therefore hypothesized to have greater patient acceptance.[37]
Comparison to laparoscopic sleeve gastrectomy
[edit]Laparoscopic sleeve gastrectomy (LSG) is one of the most common bariatric surgeries performed worldwide and shares a similar restricted stomach configuration with the ESG. However, it appears to operate with different weight loss mechanisms from the ESG, as it has been shown to reduce the hunger hormone ghrelin,[29][43] as well as accelerate, rather than delay, stomach emptying.[3]
Large, prospective studies directly comparing LSG to ESG are lacking. Comparison of the two therapies has relied on retrospective analysis and findings are conflicting. In a recent propensity score-matched study, the difference in weight loss for LSG vs ESG was 9.7% at 1 year, 6.0% at 2 years, and 4.8% at 3 years in favor of LSG, though the authors described the ESG as non-inferior based on an a priori definition of non-inferiority as being within 10% total body weight loss of the surgical arm.[44] Advantages of the ESG over LSG include lack of incisions, shorter length of stay (same-day-discharge vs 3 days in hospital);[29] less gastroesophageal reflux (0-2% vs 15-31%);[36][45] and lower morbidity and overall adverse event rate (1.9% vs 14.5%),[45][46] though some studies have presented similar rates of adverse events between ESG and LSG.[47][48] Despite less weight loss, one study found that patients who had undergone ESG had the same degree of comorbidity resolution and had higher quality of life scores at 6 months compared to those who had undergone LSG.[36]
See also
[edit]- Vertical banded gastroplasty surgery
- Intragastric balloon
- Sleeve gastrectomy surgery
- Roux-en-Y gastric bypass surgery
References
[edit]- ^ Lopez-Nava, Gontrand; Sharaiha, Reem Z.; Vargas, Eric J.; Bazerbachi, Fateh; Manoel, Galvao Neto; Bautista-Castaño, Inmaculada; Acosta, Andres; Topazian, Mark D.; Mundi, Manpreet S.; Kumta, Nikhil; Kahaleh, Michel; Herr, Andrea Marie; Shukla, Alpana; Aronne, Louis; Gostout, Christopher J. (2017-04-27). "Endoscopic Sleeve Gastroplasty for Obesity: a Multicenter Study of 248 Patients with 24 Months Follow-Up". Obesity Surgery. 27 (10): 2649–2655. doi:10.1007/s11695-017-2693-7. ISSN 0960-8923. PMID 28451929. S2CID 4924140.
- ^ a b Abu Dayyeh, Barham K.; Acosta, Andres; Camilleri, Michael; Mundi, Manpreet S.; Rajan, Elizabeth; Topazian, Mark D.; Gostout, Christopher J. (January 2017). "Endoscopic Sleeve Gastroplasty Alters Gastric Physiology and Induces Loss of Body Weight in Obese Individuals". Clinical Gastroenterology and Hepatology. 15 (1): 37–43.e1. doi:10.1016/j.cgh.2015.12.030. ISSN 1542-7714. PMID 26748219. S2CID 43174506.
- ^ a b Vargas, Eric J.; Bazerbachi, Fateh; Calderon, Gerardo; Prokop, Larry J.; Gomez, Victoria; Murad, M. Hassan; Acosta, Andres; Camilleri, Michael; Abu Dayyeh, Barham K. (January 2020). "Changes in Time of Gastric Emptying After Surgical and Endoscopic Bariatrics and Weight Loss: A Systematic Review and Meta-Analysis". Clinical Gastroenterology and Hepatology. 18 (1): 57–68.e5. doi:10.1016/j.cgh.2019.03.047. ISSN 1542-3565. PMC 6776718. PMID 30954712.
- ^ a b c Rapaka, Babusai; Maselli, Daniel B.; Lopez-Nava, Gontrand; Bautista-Castaño, Inmaculada; Matar, Reem; Jaruvongvanich, Veeravich; Vargas, Eric J.; Storm, Andrew C.; Acosta, Andres; Abu Dayyeh, Barham K. (2022-05-20). "Effects on physiologic measures of appetite from intragastric balloon and endoscopic sleeve gastroplasty: results of a prospective study". Chinese Medical Journal. 135 (10): 1234–1241. doi:10.1097/cm9.0000000000002097. ISSN 0366-6999. PMC 9337251. PMID 35788090.
- ^ Fogel, Roberto; De Fogel, Juana; Bonilla, Ydaly; De La Fuente, Rafael (July 2008). "Clinical experience of transoral suturing for an endoluminal vertical gastroplasty: 1-year follow-up in 64 patients". Gastrointestinal Endoscopy. 68 (1): 51–58. doi:10.1016/j.gie.2007.10.061. ISSN 0016-5107. PMID 18355825.
- ^ Brethauer, Stacy A.; Chand, Bipan; Schauer, Philip R.; Thompson, Christopher C. (November 2010). "Transoral gastric volume reduction for weight management: technique and feasibility in 18 patients". Surgery for Obesity and Related Diseases. 6 (6): 689–694. doi:10.1016/j.soard.2010.07.012. ISSN 1550-7289. PMID 20947451.
- ^ Brethauer, Stacy A.; Chand, Bipan; Schauer, Philip R.; Thompson, Christopher C. (May 2012). "Transoral gastric volume reduction as intervention for weight management: 12-month follow-up of TRIM trial". Surgery for Obesity and Related Diseases. 8 (3): 296–303. doi:10.1016/j.soard.2011.10.016. ISSN 1550-7289. PMID 22178565.
- ^ Kumar, N; Abu Dayyeh, BK; Lopez-Nava Breviere, G; Galvao Neto, MP; Sahdala, NP; Shaikh, SN; Hawes, RH; Gostout, CJ; Goenka, MK; Orillac, JR; Alvarado, A; Jirapinyo, P; Zundel, N; Thompson, CC (April 2018). "Endoscopic sutured gastroplasty: procedure evolution from first-in-man cases through current technique". Surg Endosc. 32 (4): 2159–2164. doi:10.1007/s00464-017-5869-2. PMC 5845469. PMID 29075966.
- ^ Moura, Diogo Turiani Hourneaux de; Moura, Eduardo Guimarães Hourneaux de; Thompson, Christopher C (2019-05-16). "Endoscopic sleeve gastroplasty: From whence we came and where we are going". World Journal of Gastrointestinal Endoscopy. 11 (5): 322–328. doi:10.4253/wjge.v11.i5.322. ISSN 1948-5190. PMC 6556490. PMID 31205593.
- ^ Platt, Kevin D.; Schulman, Allison R. (May 2021). "Endoscopic sleeve gastroplasty: the "cable" technique". VideoGIE. 6 (5): 207–208. doi:10.1016/j.vgie.2021.02.005. ISSN 2468-4481. PMC 8118129. PMID 34027248.
- ^ Espinet-Coll, E.; Nebreda-Durán, J.; Galvao-Neto, M.; Bautista-Altamirano, C.; Diaz-Galán, P.; Gómez-Valero, J. A.; Vila-Lolo, C.; Guirola-Puche, M. A.; Fernández-Huélamo, A.; Bargalló-Carulla, D.; Juan-Creix Comamala, A. (2020-09-22). "Suture pattern does not influence outcomes of endoscopic sleeve gastroplasty in obese patients". Endoscopy International Open. 08 (10): E1349–E1358. doi:10.1055/a-1221-9835. ISSN 2364-3722. PMC 7508658. PMID 33015337.
- ^ Marrache, Mohamad Kareem; Al-Sabban, Abdulhameed; Itani, Mohamad I.; Sartoretto, Adrian; Kumbhari, Vivek (April 2020). "Endoscopic sleeve gastroplasty by use of a novel suturing pattern, which allays concerns for revisional bariatric surgery". VideoGIE. 5 (4): 133–134. doi:10.1016/j.vgie.2019.11.013. ISSN 2468-4481. PMC 7125399. PMID 32258839. S2CID 213893541.
- ^ Glaysher, Michael A.; Moekotte, Alma L.; Kelly, Jamie (October 2019). "Endoscopic sleeve gastroplasty: a modified technique with greater curvature compression sutures". Endoscopy International Open. 07 (10): E1303–E1309. doi:10.1055/a-0996-8089. ISSN 2364-3722. PMC 6779570. PMID 31595224.
- ^ a b c Farha, Jad; McGowan, Christopher; Hedjoudje, Abdellah; Itani, Mohamad I.; Abbarh, Shahem; Simsek, Cem; Ichkhanian, Yervant; Vulpis, Trish; James, Theodore W.; Fayad, Lea; Khashab, Mouen A.; Oberbach, Andreas; Badurdeen, Dilhana; Kumbhari, Vivek (2020-08-10). "Endoscopic sleeve gastroplasty: suturing the gastric fundus does not confer benefit". Endoscopy. 53 (7): 727–731. doi:10.1055/a-1236-9347. ISSN 0013-726X. PMID 32777827. S2CID 221100768.
- ^ a b Saumoy, Monica; Schneider, Yecheskel; Zhou, Xi Kathy; Shukla, Alpana; Kahaleh, Michel; Aronne, Louis; Sharaiha, Reem Z. (February 2018). "A single-operator learning curve analysis for the endoscopic sleeve gastroplasty". Gastrointestinal Endoscopy. 87 (2): 442–447. doi:10.1016/j.gie.2017.08.014. ISSN 0016-5107. PMID 28843586.
- ^ Bhandari, Mohit; Jain, Saransh; Mathur, Winni; Kosta, Susmit; Neto, Manoel Galvao; Brunaldi, Vitor Ottoboni; Fobi, Mathias (November 2019). "Endoscopic sleeve gastroplasty is an effective and safe minimally invasive approach for treatment of obesity: First Indian experience". Digestive Endoscopy. 32 (4): 541–546. doi:10.1111/den.13508. ISSN 0915-5635. PMID 31394006. S2CID 199506564.
- ^ a b Sharaiha, Reem Z.; Hajifathalian, Kaveh; Kumar, Rekha; Saunders, Katherine; Mehta, Amit; Ang, Bryan; Skaf, Daniel; Shah, Shawn; Herr, Andrea; Igel, Leon; Dawod, Qais; Dawod, Enad; Sampath, Kartik; Carr-Locke, David; Brown, Robert (May 2021). "Five-Year Outcomes of Endoscopic Sleeve Gastroplasty for the Treatment of Obesity". Clinical Gastroenterology and Hepatology. 19 (5): 1051–1057.e2. doi:10.1016/j.cgh.2020.09.055. ISSN 1542-3565. PMID 33011292. S2CID 222144445.
- ^ a b James, Theodore W.; Reddy, Sumana; Vulpis, Trish; McGowan, Christopher E. (2019-12-18). "Endoscopic Sleeve Gastroplasty Is Feasible, Safe, and Effective in a Non-academic Setting: Short-Term Outcomes from a Community Gastroenterology Practice". Obesity Surgery. 30 (4): 1404–1409. doi:10.1007/s11695-019-04331-3. ISSN 0960-8923. PMID 31853865. S2CID 209418685.
- ^ Abu Dayyeh, Barham K.; Kumar, Nitin; Edmundowicz, Steven A.; Jonnalagadda, Sreenivasa; Larsen, Michael; Sullivan, Shelby; Thompson, Christopher C.; Banerjee, Subhas (September 2015). "ASGE Bariatric Endoscopy Task Force systematic review and meta-analysis assessing the ASGE PIVI thresholds for adopting endoscopic bariatric therapies". Gastrointestinal Endoscopy. 82 (3): 425–438.e5. doi:10.1016/j.gie.2015.03.1964. ISSN 0016-5107. PMID 26232362.
- ^ Lopez Nava, Gontrand; Arau, Roman Turro; Asokkumar, Ravishankar; Maselli, Daniel B.; Rapaka, Babusai; Matar, Reem; Bautista, Inmaculada; Espinos Perez, Jorge Carlos; Bilbao, Alfredo Mata; Jaruvongvanich, Veeravich; Vargas, Eric J.; Storm, Andrew C.; Neto, Manoel Galvao; Abu Dayyeh, Barham K. (May 2022). "Prospective Multicenter Study of the Primary Obesity Surgery Endoluminal (POSE 2.0) Procedure for Treatment of Obesity". Clinical Gastroenterology and Hepatology. 21 (1): 81–89.e4. doi:10.1016/j.cgh.2022.04.019. PMID 35533995. S2CID 248583967.
- ^ Abu Dayyeh, Barham K; Maselli, Daniel B; Rapaka, Babusai; Lavin, Thomas; Noar, Mark; Hussan, Hisham; Chapman, Christopher G; Popov, Violeta; Jirapinyo, Pichamol; Acosta, Andres; Vargas, Eric J; Storm, Andrew C; Bazerbachi, Fateh; Ryou, Marvin; French, Matthew (November 2021). "Adjustable intragastric balloon for treatment of obesity: a multicentre, open-label, randomised clinical trial". The Lancet. 398 (10315): 1965–1973. doi:10.1016/s0140-6736(21)02394-1. ISSN 0140-6736. PMID 34793746. S2CID 244127807.
- ^ a b c d Abu Dayyeh, Barham K; Bazerbachi, Fateh; Vargas, Eric J; Sharaiha, Reem Z; Thompson, Christopher C; Thaemert, Bradley C; Teixeira, Andre F; Chapman, Christopher G; Kumbhari, Vivek; Ujiki, Michael B; Ahrens, Jeanette; Day, Courtney; Galvao Neto, Manoel; Zundel, Natan; Wilson, Erik B (August 2022). "Endoscopic sleeve gastroplasty for treatment of class 1 and 2 obesity (MERIT): a prospective, multicentre, randomised trial". The Lancet. 400 (10350): 441–451. doi:10.1016/s0140-6736(22)01280-6. ISSN 0140-6736. PMID 35908555. S2CID 251152812.
- ^ a b c d Hedjoudje, Abdellah; Abu Dayyeh, Barham K.; Cheskin, Lawrence J.; Adam, Atif; Neto, Manoel Galvão; Badurdeen, Dilhana; Morales, Javier Graus; Sartoretto, Adrian; Nava, Gontrand Lopez; Vargas, Eric; Sui, Zhixian; Fayad, Lea; Farha, Jad; Khashab, Mouen A.; Kalloo, Anthony N. (May 2020). "Efficacy and Safety of Endoscopic Sleeve Gastroplasty: A Systematic Review and Meta-Analysis". Clinical Gastroenterology and Hepatology. 18 (5): 1043–1053.e4. doi:10.1016/j.cgh.2019.08.022. ISSN 1542-3565. PMID 31442601. S2CID 201632114.
- ^ Jalal, Md Asif; Cheng, Qiuye; Edye, Michael B. (2020-04-17). "Systematic Review and Meta-Analysis of Endoscopic Sleeve Gastroplasty with Comparison to Laparoscopic Sleeve Gastrectomy". Obesity Surgery. 30 (7): 2754–2762. doi:10.1007/s11695-020-04591-4. ISSN 0960-8923. PMID 32304011. S2CID 215795312.
- ^ a b c Li, Peiwen; Ma, Bin; Gong, Shulei; Zhang, Xinyu; Li, Wenya (2019-06-24). "Efficacy and safety of endoscopic sleeve gastroplasty for obesity patients: a meta-analysis". Surgical Endoscopy. 34 (3): 1253–1260. doi:10.1007/s00464-019-06889-6. ISSN 0930-2794. PMID 31236722. S2CID 195329487.
- ^ a b Singh, Shailendra; Hourneaux de Moura, Diogo Turiani; Khan, Ahmad; Bilal, Mohammad; Ryan, Michele B.; Thompson, Christopher C. (February 2020). "Safety and efficacy of endoscopic sleeve gastroplasty worldwide for treatment of obesity: a systematic review and meta-analysis". Surgery for Obesity and Related Diseases. 16 (2): 340–351. doi:10.1016/j.soard.2019.11.012. ISSN 1550-7289. PMC 7009311. PMID 31932205.
- ^ a b de Miranda Neto, Antonio Afonso; de Moura, Diogo Turiani Hourneaux; Ribeiro, Igor Braga; Khan, Ahmad; Singh, Shailendra; da Ponte Neto, Alberto Machado; Madruga Neto, Antonio Coutinho; do Monte Junior, Epifanio Silvino; Tustumi, Francisco; Bernardo, Wanderley Marques; de Moura, Eduardo Guimarães Hourneaux (2020-02-27). "Efficacy and Safety of Endoscopic Sleeve Gastroplasty at Mid Term in the Management of Overweight and Obese Patients: a Systematic Review and Meta-Analysis". Obesity Surgery. 30 (5): 1971–1987. doi:10.1007/s11695-020-04449-9. ISSN 0960-8923. PMID 32107706. S2CID 211539809.
- ^ a b Singh, Shailendra; de Moura, Diogo Turiani Hourneaux; Khan, Ahmad; Bilal, Mohammad; Chowdhry, Monica; Ryan, Michele B.; Bazarbashi, Ahmad Najdat; Thompson, Christopher C. (2020-05-12). "Intragastric Balloon Versus Endoscopic Sleeve Gastroplasty for the Treatment of Obesity: a Systematic Review and Meta-analysis". Obesity Surgery. 30 (8): 3010–3029. doi:10.1007/s11695-020-04644-8. ISSN 0960-8923. PMC 7720242. PMID 32399847.
- ^ a b c d Lopez-Nava, Gontrand; Negi, Anuradha; Bautista-Castaño, Inmaculada; Rubio, Miguel Angel; Asokkumar, Ravishankar (2020-03-19). "Gut and Metabolic Hormones Changes After Endoscopic Sleeve Gastroplasty (ESG) Vs. Laparoscopic Sleeve Gastrectomy (LSG)". Obesity Surgery. 30 (7): 2642–2651. doi:10.1007/s11695-020-04541-0. ISSN 0960-8923. PMID 32193741. S2CID 213191918.
- ^ Ryan, Donna H.; Yockey, Sarah Ryan (2017-04-28). "Weight Loss and Improvement in Comorbidity: Differences at 5%, 10%, 15%, and Over". Current Obesity Reports. 6 (2): 187–194. doi:10.1007/s13679-017-0262-y. ISSN 2162-4968. PMC 5497590. PMID 28455679.
- ^ a b c d Sharaiha, Reem Z.; Kumta, Nikhil A.; Saumoy, Monica; Desai, Amit P.; Sarkisian, Alex M.; Benevenuto, Andrea; Tyberg, Amy; Kumar, Rekha; Igel, Leon; Verna, Elizabeth C.; Schwartz, Robert; Frissora, Christina; Shukla, Alpana; Aronne, Louis J.; Kahaleh, Michel (April 2017). "Endoscopic Sleeve Gastroplasty Significantly Reduces Body Mass Index and Metabolic Complications in Obese Patients". Clinical Gastroenterology and Hepatology. 15 (4): 504–510. doi:10.1016/j.cgh.2016.12.012. ISSN 1542-3565. PMID 28017845. S2CID 45965019.
- ^ a b Alqahtani, Aayed; Al-Darwish, Abdullah; Mahmoud, Ahmed Elsayed; Alqahtani, Yara A.; Elahmedi, Mohamed (June 2019). "Short-term outcomes of endoscopic sleeve gastroplasty in 1000 consecutive patients". Gastrointestinal Endoscopy. 89 (6): 1132–1138. doi:10.1016/j.gie.2018.12.012. ISSN 0016-5107. PMID 30578757. S2CID 58588687.
- ^ a b Hajifathalian, Kaveh; Mehta, Amit; Ang, Bryan; Skaf, Daniel; Shah, Shawn L.; Saumoy, Monica; Dawod, Qais; Dawod, Enad; Shukla, Alpana; Aronne, Louis; Brown, Robert S.; Cohen, David E.; Dannenberg, Andrew J.; Fortune, Brett; Kumar, Sonal (May 2021). "Improvement in insulin resistance and estimated hepatic steatosis and fibrosis after endoscopic sleeve gastroplasty". Gastrointestinal Endoscopy. 93 (5): 1110–1118. doi:10.1016/j.gie.2020.08.023. ISSN 0016-5107. PMID 32861753. S2CID 221382138.
- ^ Espinet Coll, Eduardo; Vila Lolo, Carmen; Díaz Galán, Patricia; Gómez Valero, José Antonio; Bacchiddu, Silvia; Quintana Tomás, Cristina; Irigoyen, Daniel; Gunnard, Kattarina; Juan-Creix Comamala, Antonio (2019). "Bariatric and metabolic endoscopy in the handling of fatty liver disease. A new emerging approach?". Revista Española de Enfermedades Digestivas. 111 (4): 283–293. doi:10.17235/reed.2019.5949/2018. ISSN 1130-0108. PMID 30896957. S2CID 85446511.
- ^ Lopez-Nava, Gontrand; Asokkumar, Ravishankar; Lacruz, T.; Rull, A.; Beltran, L.; Bautista-Castaño, Inmaculada (2020-05-08). "The effect of weight loss and exercise on Health-Related Quality of Life (HRQOL) following Endoscopic Bariatric Therapies (EBT) for obesity". Health and Quality of Life Outcomes. 18 (1): 130. doi:10.1186/s12955-020-01359-3. ISSN 1477-7525. PMC 7206800. PMID 32384934.
- ^ a b c Fiorillo, Claudio; Quero, Giuseppe; Vix, Michel; Guerriero, Ludovica; Pizzicannella, Margherita; Lapergola, Alfonso; D'Urso, Antonio; Swanstrom, Lee; Mutter, Didier; Dallemagne, Bernard; Perretta, Silvana (May 2020). "6-Month Gastrointestinal Quality of Life (QoL) Results after Endoscopic Sleeve Gastroplasty and Laparoscopic Sleeve Gastrectomy: A Propensity Score Analysis". Obesity Surgery. 30 (5): 1944–1951. doi:10.1007/s11695-020-04419-1. ISSN 1708-0428. PMID 31965488. S2CID 210845519.
- ^ a b Saliba, Christian; El Rayes, Johnny; Diab, Samer; Nicolas, Gregory; Wakim, Raja (2018-10-14). "Weight Regain After Sleeve Gastrectomy: A Look at the Benefits of Re-sleeve". Cureus. 10 (10): e3450. doi:10.7759/cureus.3450. ISSN 2168-8184. PMC 6298623. PMID 30564529.
- ^ Lauti, Melanie; Kularatna, Malsha; Hill, Andrew G.; MacCormick, Andrew D. (June 2016). "Weight Regain Following Sleeve Gastrectomy-a Systematic Review". Obesity Surgery. 26 (6): 1326–1334. doi:10.1007/s11695-016-2152-x. ISSN 1708-0428. PMID 27048439. S2CID 4313972.
- ^ Moon, Rena C.; Fuentes, Aura Sofia; Teixeira, Andre F.; Jawad, Muhammad A. (January 2019). "Conversions After Sleeve Gastrectomy for Weight Regain: to Single and Double Anastomosis Duodenal Switch and Gastric Bypass at a Single Institution". Obesity Surgery. 29 (1): 48–53. doi:10.1007/s11695-018-3514-3. ISSN 1708-0428. PMID 30251089. S2CID 52811071.
- ^ Muratori, Fabrizio; Vignati, F.; Di Sacco, G.; Gavazzi, L.; Pellegrino, D.; Del Prete, M. (2022-06-28). "Efficacy of liraglutide 3.0 mg treatment on weight loss in patients with weight regain after bariatric surgery". Eating and Weight Disorders: EWD. 27 (7): 2775–2781. doi:10.1007/s40519-022-01403-9. ISSN 1590-1262. PMC 9556416. PMID 35763245. S2CID 245582486.
- ^ Maselli, Daniel B.; Alqahtani, Aayed R.; Abu Dayyeh, Barham K.; Elahmedi, Mohamed; Storm, Andrew C.; Matar, Reem; Nieto, Jose; Teixeira, Andre; Al Khatry, Maryam; Neto, Manoel Galvao; Kumbhari, Vivek; Vargas, Eric J.; Jaruvongvanich, Veeravich; Mundi, Manpreet S.; Deshmukh, Ameya (January 2021). "Revisional endoscopic sleeve gastroplasty of laparoscopic sleeve gastrectomy: an international, multicenter study". Gastrointestinal Endoscopy. 93 (1): 122–130. doi:10.1016/j.gie.2020.05.028. ISSN 1097-6779. PMID 32473252. S2CID 219156619.
- ^ de Moura, Diogo Turiani Hourneaux; Barrichello, Sérgio; de Moura, Eduardo Guimarães Hourneaux; de Souza, Thiago Ferreira; Dos Passos Galvão Neto, Manoel; Grecco, Eduardo; Sander, Bruno; Hoff, Anna Carolina; Matz, Felipe; Ramos, Flávio; de Lima, João Henrique Felício; Teixeira, Leonardo; Dib, Victor; Falcão, Marcelo; Potti, Helmut (March 2020). "Endoscopic sleeve gastroplasty in the management of weight regain after sleeve gastrectomy". Endoscopy. 52 (3): 202–210. doi:10.1055/a-1086-0627. ISSN 1438-8812. PMID 31940667. S2CID 210332967.
- ^ McCarty, Thomas R.; Jirapinyo, Pichamol; Thompson, Christopher C. (July 2020). "Effect of Sleeve Gastrectomy on Ghrelin, GLP-1, PYY, and GIP Gut Hormones: A Systematic Review and Meta-analysis". Annals of Surgery. 272 (1): 72–80. doi:10.1097/SLA.0000000000003614. ISSN 1528-1140. PMID 31592891. S2CID 203927381.
- ^ Alqahtani, Aayed R.; Elahmedi, Mohamed; Aldarwish, Abdullah; Abdurabu, Hanan Y.; Alqahtani, Sultan (July 2022). "Endoscopic gastroplasty versus laparoscopic sleeve gastrectomy: a noninferiority propensity score-matched comparative study". Gastrointestinal Endoscopy. 96 (1): 44–50. doi:10.1016/j.gie.2022.02.050. ISSN 1097-6779. PMID 35248571. S2CID 247251369.
- ^ a b Fayad, Lea; Adam, Atif; Schweitzer, Michael; Cheskin, Lawrence J.; Ajayi, Tokunbo; Dunlap, Margo; Badurdeen, Dilhana S.; Hill, Christine; Paranji, Neethi; Lalezari, Sepehr; Kalloo, Anthony N.; Khashab, Mouen A.; Kumbhari, Vivek (April 2019). "Endoscopic sleeve gastroplasty versus laparoscopic sleeve gastrectomy: a case-matched study". Gastrointestinal Endoscopy. 89 (4): 782–788. doi:10.1016/j.gie.2018.08.030. ISSN 1097-6779. PMID 30148991. S2CID 205063265.
- ^ Novikov, Aleksey A.; Afaneh, Cheguevara; Saumoy, Monica; Parra, Viviana; Shukla, Alpana; Dakin, Gregory F.; Pomp, Alfons; Dawod, Enad; Shah, Shawn; Aronne, Louis J.; Sharaiha, Reem Z. (February 2018). "Endoscopic Sleeve Gastroplasty, Laparoscopic Sleeve Gastrectomy, and Laparoscopic Band for Weight Loss: How Do They Compare?". Journal of Gastrointestinal Surgery. 22 (2): 267–273. doi:10.1007/s11605-017-3615-7. ISSN 1873-4626. PMID 29110192. S2CID 12571433.
- ^ Gudur, Anuragh R.; Geng, Calvin; Kshatri, Sonia; Martin, David; Haug, Rebecca; Radlinski, Mark; Lei, Yang; Buerlein, Ross C. D.; Strand, Daniel S.; Sauer, Bryan G.; Shami, Vanessa M.; Hallowell, Peter; Schirmer, Bruce; Wang, Andrew Y.; Podboy, Alexander (2022-07-20). "Comparison of Endoscopic Sleeve Gastroplasty versus Surgical Sleeve Gastrectomy: a Metabolic and Bariatric Surgery Accreditation and Quality Improvement Program Database Analysis". Gastrointestinal Endoscopy. 97 (1): S0016–5107(22)01834–X. doi:10.1016/j.gie.2022.07.017. ISSN 1097-6779. PMID 35870507. S2CID 250966421.
- ^ Marincola, Giuseppe; Gallo, Camilla; Hassan, Cesare; Raffaelli, Marco; Costamagna, Guido; Bove, Vincenzo; Pontecorvi, Valerio; Orlandini, Beatrice; Boškoski, Ivo (January 2021). "Laparoscopic sleeve gastrectomy versus endoscopic sleeve gastroplasty: a systematic review and meta-analysis". Endoscopy International Open. 9 (1): E87–E95. doi:10.1055/a-1300-1085. ISSN 2364-3722. PMC 7775813. PMID 33403240.
Further reading
[edit]- Abu Dayyeh, B. K. et al. Endoscopic sleeve gastroplasty for treatment of class 1 and 2 obesity (MERIT): a prospective, multicentre, randomised trial. Lancet 400, 441–451 (2022).
- James, T. W., Reddy, S., Vulpis, T. & McGowan, C. E. Endoscopic Sleeve Gastroplasty Is Feasible, Safe, and Effective in a Non-academic Setting: Short-Term Outcomes from a Community Gastroenterology Practice. Obes Surg 30, 1404–1409 (2020).
- Understanding How Endoscopic Sleeve Gastroplasty (ESG) Facilities Weight Loss by Dr. Christopher Thompson, https://bariendo.com/blog/how-esg-facilitates-weight-loss/
- Endoscopic Sleeve Gastroplasty for Weight Loss by Dr. Christopher McGowan, https://trueyouweightloss.com/blog/endoscopic-sleeve-gastroplasty-for-weight-loss/
- https://www.mayoclinic.org/tests-procedures/endoscopic-sleeve-gastroplasty/about/pac-20393958