Publicaciones

Publicaciones

First-in-Human Side-to-Side Duodenoileal Bipartition for Weight Loss and Type 2 Diabetes with the Swallowable Biofragmentable Magnetic Anastomosis System

Gagner, Michel MD, FRCSC, FACS, FASMBS, FSSO; Abuladze, David MD; Buchwald, Jane BA; Koiava, Levan MD; Almutlaq, Lamees MD

Side-to-side duodeno-ileal magnetic compression anastomosis: design and feasibility of a novel device in a porcine model

Michel Gagner, Todd Krinke, Maxime Lapointe-Gagner, J. N. Buchwald

Side-to-side magnet anastomosis system duodeno-ileostomy with sleeve gastrectomy: early multi-center results

M. Gagner, G.B. Cadiere, A. Sanchez-Pernaute, D. Abuladze, T. Krinke, J. N. Buchwald, N. Van Sante, M. Van Gossum, J. Dziakova, L. Koiava, M. Odovic, M. Poras, L. Almutlaq, A.J. Torres

Sleeve Gastrectomy with Duodeno-Ileal Bipartition Using Linear Magnets: Feasibility and Safety at 1-Year Follow-up

Guy-Bernard Cadière, Mathilde Poras, Marie-Thérèse Maréchal, Luca Pau, Raoul Muteganya, Marc Van Gossum, Benjamin Cadière, Nathalie Van Sante, Michel Gagner

Magnetic Single-Anastomosis Side-to-Side Duodeno-Ileostomy for Revision of Sleeve Gastrectomy in Adults with Severe Obesity: 1-Year Outcomes

M. Gagner, L. Almutlaq, G. Gnanhoue, J. N. Buchwald

Spanish Experience with Latero-Lateral Duodeno-Ileostomy + Sleeve Gastrectomy with Magnet anastomosis System

Jana Dziakova, Antonio Torres, Maja Odovic , José Miguel Esteban, Manuel Vázquez-Romero, Andrea Castillo, Andrés Sánchez-Pernaute, Michel Gagner

First-in-Human Side-to-Side Magnetic Compression Duodeno- Ileostomy with the Magnet Anastomosis System

Michel Gagner, David Abuladze, Levan Koiava, J. N. Buchwald, Nathalie Van Sante, Todd Krinke

Side-to-Side Magnetic Duodeno-Ileostomy in Adults with Severe Obesity with or without Type 2 Diabetes: Early Outcomes with Prior or Concurrent Sleeve Gastrectomy

Michel Gagner, Lamees Almutlaq, Guy-Bernard Cadiere, Antonio J. Torres, Andres Sanchez-Pernaute, J. N. Buchwald, David Abuladze

Magnetic Compression Anastomosis Gastro-Jejunostomy: Feasibility and Efficacy of a Novel Device in a Swine Model

Michel Gagner, Todd Krinke, Maxime Lapointe-Gagner, J. N. Buchwald (in press)

Evolution of Magnetic Gastrointestinal Compression Anastomosis

Historical Gastrointestinal Compression Anastomosis

Buchberg BS, Masoomi H, Bergman H, Mills SD, Stamos MJ. The use of a compression device as an alternative to hand-sewn and stapled colorectal anastomoses: is three a crowd? J Gastrointest Surg. 2011;15(2):304-10.

Kaidar-Person O, Rosenthal RJ, Wexner SD, Szomstein S, Person B. Compression anastomosis: history and clinical considerations. Am J Surg. 2008;195:818-26.

* Tucker ON, Beglaibter N, Rosenthal RJ. Compression anastomosis for Roux-en-Y gastric bypass: observations in a large animal model. Surg Obes Relat Dis. 2008 Mar-Apr;4(2):115-21.

* Stewart D, Hunt S, Pierce R, Dongli M, Frisella M, Cook K, Starcher B, Fleshman J. Validation of the NITI endoluminal compression anastomosis ring (EndoCAR) device and comparison to the traditional circular stapled colorectal anastomosis in a porcine model. Surg Innov. 2007;14(4):252-60.

Nudelman IL, Fuko V, Greif F, Lelchuk S. Colonic anastomosis with the nickel-titanium temperature-dependent memory-shape device. Am J Surg. 2002;183:697-701.

Nudelman IL, Fuko VV, Morgenstern S, Lelcuk S. Gastrointestinal anastomosis with the nickel-titanium double ring. World J Surg 2000;24:874-77.

Bubrick MP, Corman ML, Cahill CJ, Hardy TG, Nance FC, Shatney, CH. Prospective, randomized trial of the biofragmentable anastomosis ring. The BAR Investigational Group. Am J Surg. 1991;161:136-42.

Rebuffat C, Rosati R, Montorsi M, Fumagalli U, Maciocco M, Poccobelli M, Roviaro G, Varoli F, Pezzuoli G. Clinical application of a new compression anastomotic device for colorectal surgery. Am J Surg. 1990;159:330-35.

Corman ML, Prager ED, Hardy TG Jr, Bubrick MP. Comparison of the Valtrac biofragmentable anastomosis ring with conventional suture and stapled anastomosis in colon surgery. Results of a prospective, randomized clinical trial. Dis Colon Rectum. 1989;32(3):183-87.

Hardy TG Jr, Pace WG, Maney JW, Katz AR, Kaganov AL. A biofragmentable ring for sutureless bowel anastomosis. An experimental study. Dis Colon Rectum. 1985;28:484-90.

Kanshin NN, Lytkin MI, Knysh VI, lu Klur V, Khamidov AI. First experience with application of compression anastomoses with the apparatus AKA-2 in operations on the large intestine. Vestn Khir Im I I Grek. 1984;132:52-57.

Mayo WJ, Mayo CH. Clinical report—I. Complete section of the vas deferens, end-to-end union; II. acute suppuration of knee-joint: open treatment; III. gastro-enterostomy by the murphy button: anastomoses by this method. Ann Surg. 1895;21(1):35-44.

Murphy JB. Cholecysto-intestinal, gastro-intestinal, entero-intestinal anastomosis, and approximation without sutures. Med Rec N Y. 1892;42:665-76.

* Zhang M, Li Y, Pan M, Xu S, Gai J, Zhang H, An Y, Shi A, Lyu Y, Yan X. Creation of gastroenteric anastomosis through natural orifice in rats by magnetic compression technique. Surg Endosc. 2022 May 2. doi: 10.1007/s00464-022-09257-z. Epub ahead of print. PMID: 35501603.

* Zhang M, Lyu X, Zhao G, An Y, Lyu Y, Yan X. Establishment of Yan-Zhang’s staging of digestive tract magnetic compression anastomosis in a rat model. Sci Rep. 2022;12:12445.

Brunaldi VO, Galvao Neto M. Endoscopic magnetic bowel anastomosis. Chapter 15. In: Magnetic Surgery, Gagner M, editor. Springer Publisher, New York, NY; 2021, pp 149-58.

Yamanouchi E, Kumano R, Ohdaira H, Suzuki Y. Magnetic compression anastomosis and magnetic compression revision for stenosis. Chapter 16. In: Magnetic Surgery, Gagner M, editor. Springer Publisher, New York, NY; 2021, pp 159-203.

Sedghi S, Kendrick K, Lee SC, Engle S, Yoshida K, Smith B. Magnetic satiety system: the use of magnets to assist in combating obesity. Chapter 19. In: Magnetic Surgery, Gagner M, editor. Springer Publisher, New York, NY; 2021, pp 221-42.

Marrache MK, Itani MI, Farha J, Fayad L, Sharara SL, Kalloo AN, Khashab MA, Kumbhari V. Endoscopic gastrointestinal anastomosis: a review of established techniques. Gastrointest Endosc. 2021 Jan;93(1):34-46.

Winder JS, Rodriguez JH. Emerging endoscopic interventions in bariatric surgery. Surg Clin North Am. 2021;101(2):373-79.

Kamada T, Ohdaira H, Takeuchi H, Takahashi J, Ito E, Suzuki N, Narihiro S, Yoshida M, Yamanouchi E, Suzuki Y. New technique for magnetic compression anastomosis without incision for gastrointestinal obstruction. J Am Coll Surg. 2021 Feb;232(2):170-77.e2.

* Chen H, Ma T, Wang Y, Zhu HY, Feng Z, Wu RQ, Lv Y, Dong DH. Fedora-type magnetic compression anastomosis device for intestinal anastomosis. World J Gastroenterol. 2020 Nov 14;26(42):6614-25.

* Qiao W, Shi A, Ma F, Yan X, Duan J, Wu R, Li D, Lv Y. Further development of magnetic compression for gastrojejunostomy in rabbits. J Surg Res. 2020 Jan;245:249-56.

Hu B, Ye LS. Endoscopic applications of magnets for the treatment of gastrointestinal diseases. World J Gastrointest Endosc. 2019 Dec 16;11(12):548-60.

Bužga M, Machytka E, Holéczy P, Macháčková J. Partial magnetic jejunal diversion (PMJD) in severely obese patients. Rozhl Chir. 2019 Winter;98(2):71-76.

Diaz R, Davalos G, Welsh LK, Portenier D, Guerron AD. Use of magnets in gastrointestinal surgery. Surg Endosc. 2019 Jun;33(6):1721-30.

* Zhao G, Ma J, Yan X, Li J, Ma F, Wang H, Liu Y, Lv Y. Optimized force range of magnetic compression anastomosis in dog intestinal tissue. J Pediatr Surg. 2019 Oct;54(10):2166-71

Graves CE, Co C, Hsi RS, Kwiat D, Imamura-Ching J, Harrison MR, Stoller ML. Magnetic compression anastomosis (magnamosis): first-in-human trial. J Am Coll Surg. 2017;225:676-81.

Toselli L, Martinez-Ferro M, Cervio G, Kwiat D, Imamura-Ching J, Graves CE, Gaston B, Harrison M. Magnetic compression anastomosis (magnamosis) for functional undiversion of ileostomy in pediatric patients. J Laparoendosc Adv Surg Tech A. 2017;27(12):1314-17.

Machytka E, Bužga M, Zonca P, Lautz DB, Ryou M, Simonson DC, Thompson CC. Partial jejunal diversion using an incisionless magnetic anastomosis system: 1-year interim results in patients with obesity and diabetes. Gastrointest Endosc. 2017 Nov;86(5):904-12.

* Arun A, Gaston B, Kwiat D, Imamura-Ching J, Fechter R, Chen S, Jiang H, Harrison M, Roy S. Inductive sensing to detect tissue thickness between magnets for potential application in magnetic compression based anastomosis. ASME J Med Device. 2016 Mar;10(1):011008.

* Ryou M, Aihara H, Thompson CC. Minimally invasive entero-enteral dual-path bypass using self-assembling magnets. Surg Endosc. 2016 Oct;30(10):4533-38.

* Ryou M, Agoston AT, Thompson CC. Endoscopic intestinal bypass creation by using self-assembling magnets in a porcine model. Gastrointest Endosc. 2016;83(4):821-25.

* Diana M, Mutter D, Lindner V, Vix M, Chung H, Demartines N, Marescaux J. A modular magnetic anastomotic device for minimally invasive digestive anastomosis: proof of concept and preliminary data in the pig model. Surg Endosc. 2014 May;28(5):1613-23.

* Wall J, Diana M, Leroy J, Deruijter V, Gonzales KD, Lindner V, Harrison M, Marescaux J. MAGNAMOSIS IV: magnetic compression anastomosis for minimally invasive colorectal surgery. Endoscopy. 2013 Aug;45(8):643-48.

* Leroy J, Perretta S, Diana M, Wall J, Lindner V, Harrison M, Marescaux J. An original endoluminal magnetic anastomotic device allowing pure NOTES transgastric and transrectal sigmoidectomy in a porcine model: proof of concept. Surg Innov. 2012;19(2):109-16.

* Diana M, Wall J, Perretta S, Dallemagne B, Gonzales KD, Harrison MR, Agnus V, Soler L, Nicolau S, Marescaux J. Totally endoscopic magnetic enteral bypass by external guided rendezvous technique. Surg Innov. 2011;18(4):317-20.

* Jamshidi R, Stephenson JT, Clay JG, Pichakron KO, Harrison MR. Magnamosis: magnetic compression anastomosis with comparison to suture and staple techniques. J Pediatr Surg. 2009;44(1):222-28.

Jansen A, Brummelkamp WH, Davies GS, Klopper PJ, Keeman JN. Clinical application of magnetic rings in colorectal anastomoses. Surg Gynecol Obstet. 1981;153(4):537-45.

Section 2 – Side-to-side Duodeno-ileal (DI) Anastomosis

Gagner M, Lapointe-Gagner M. Duodenal bipartition or side-to-side duodeno-ileostomy. Rationale and technical details. Chapter 29. In: Teixeira J, et al, editors. Duodenal Switch and its Derivatives in Bariatric and Metabolic Surgery: A Comprehensive Clinical Guide. Springer Publisher; 2021. In press.

* Gagner M. Safety and efficacy of a side-to-side duodeno-ileal anastomosis for weight loss and type-2 diabetes: duodenal bipartition, a novel metabolic surgery procedure. Ann Surg Innov Res. 2015;14(9):6.

Gagner M. Bipartición duodenoileal con anastomosis laterolateral. Chapter 10. In: Atlas de Cirugia Bariatrica y Metabolica. Abordaje Laparoscópico, Endoscópico y Técnicas Miniinvasivas + Acceso a Contenidos Online. Eds: Palermo M, Rodríguez González A. Amolca Publisher; December 2018.

Gagner M. Emerging techniques in bariatric surgery – laparoscopic duodeno-ileostomy. ACS-2771 Online Video Library of the American College of Surgeons, 2009.

Gagner M. Duodeno-ileal anastomosis with self-assembling magnets: initial concepts and basis of this operation. Obes Surg. 2022 Mar;32(3):932-33. Letter to the Editor

Schlottmann F, Ryou M, Lautz D, Thompson CC, Buxhoeveden R. Sutureless duodeno-ileal anastomosis with self-assembling magnets: safety and feasibility of a novel metabolic procedure. Obes Surg. 2021 Sep;31(9):4195-4202.

Gagner M. Laparoendoscopic magnetic gastrointestinal anastomosis. Chapter 14. In: Magnetic Surgery, Gagner M, editor. Springer Publisher, New York, NY; 2021, pp 135–48.

* Zhao G, Yan X, Ma L, Liu W, Zhang J, Guo H, Liu Y, Lv Y. Biomechanical and performance evaluation of magnetic elliptical-ring compressive anastomoses. J Surg Res. 2019 Jul;239:52-59.

Graves CE, Co C, Hsi RS, Kwiat D, Imamura-Ching J, Harrison MR, Stoller ML. Magnetic compression anastomosis (magnamosis): first-in-human trial. J Am Coll Surg. 2017;225:676-81.

* Ryou M, Aihara H, Thompson CC. Minimally invasive entero-enteral dual-path bypass using self-assembling magnets. Surg Endosc. 2016 Oct;30(10):4533-38.

Section 3 – Side-to-side Duodeno-colic (DC) Anastomosis

* Gagner M. Side-to-side duodeno-colic anastomosis provides dramatic weight loss. A potentially strong anti-diabetic operation for type-2 diabetes. Minerva Chir. 2017;72(3):169-77.

* Zhang M, Lyu X, Zhao G, An Y, Lyu Y, Yan X. Establishment of Yan-Zhang’s staging of digestive tract magnetic compression anastomosis in a rat model. Sci Rep. 2022 Jul 20;12(1):12445.

* Gonzales KD, Douglas G, Pichakron KO, Kwiat DA, Gallardo SG, Encinas JL, Harrison MR. Magnamosis III: delivery of a magnetic compression anastomosis device using minimally invasive endoscopic techniques. J Pediatr Surg 2012;47:1291-95.

Section 4 – [End-to-side] Gastro-jejunal (GJ) Anastomosis

Kusnierz K, Lekston Z, Zhavoronkov D, Mrowiec S, Lampe P. A nickel-titanium memory-shape device for gastrojejunostomy: comparison of the compression anastomosis clip and a hand-sewn anastomosis. J Surg Res. 2014 Mar;187(1):94-100.

Simons-Linares CR, Vargo JJ. Use of magnets in flexible endoscopy. Chapter 10. In: Magnetic Surgery, Gagner M, editor. Springer Publisher, New York, NY; 2021, pp 95-107.

Brunaldi VO, Galvao Neto M. Endoscopic magnetic bowel anastomosis. Chapter 15. In: Magnetic Surgery, Gagner M, editor. Springer Publisher, New York, NY; 2021, pp 149-58.

* Qiao W, Shi A, Ma F, Yan X, Duan J, Wu R, Li D, Lv Y. Further development of magnetic compression for gastrojejunostomy in rabbits. J Surg Res. 2020 Jan;245:249-56.

* Watanabe R, Barberio M, Kanaji S, Lapergola A, Ashoka AH, Andreiuk B, et al. Hybrid fluorescent magnetic gastrojejunostomy: an experimental feasibility study in the porcine model and human cadaver. Surg Endosc. 2020 Mar;34(3):1393-1400.

* An Y, Zhang Y, Liu H, Ma S, Fu S, Lv Y, Yan X. Gastrojejunal anastomosis in rats using the magnetic compression technique. Sci Rep. 2018 Aug 2;8(1):11620.

* Pichakron KO, Jelin EB, Hirose S, Curran PF, Jamshidi R, Stephenson JT, Fechter R, Strange M, Harrison MR. Magnamosis II: Magnetic compression anastomosis for minimally invasive gastrojejunostomy and jejunojejunostomy. J Am Coll Surg. 2011 Jan;212(1):42-49.

* Ryou M, Cantillon-Murphy P, Azagury D, Shaikh SN, Ha G, Greenwalt I, et al. Smart self-assembling magnetS for endoscopy (SAMSEN) for transoral endoscopic creation of immediate gastrojejunostomy (with video). Gastrointest Endosc. 2011 Feb;73(2):353-59.

Chopita N, Villaverde A, Cope C, Bernedo A, Martinez H, Landoni N, Jmelnitzky A, Burgos H. Endoscopic gastroenteric anastomosis using magnets. Endoscopy. 2005;37(4):313-37.

Cope C, Ginsberg GG. Long-term patency of experimental magnetic compression gastroenteric anastomoses achieved with covered stents. Gastrointest Endosc. 2001;53(7):780-84.

* Cope C. Creation of compression gastroenterostomy by means of the oral, percutaneous, or surgical introduction of magnets: feasibility study in swine. J Vasc Interv Radiol. 1995;6:539-45.

* Sackier JM, Jessup G, Krenz H, Allen W, Ahari F. Biofragmentable anastomosis ring for laparoscopic bowel surgery. Surg Endosc. 1994;8(10):1190-94.

Section 5 – End-to-side Single Anastomosis Duodeno-ileostomy (SADI)

Brown WA, de Leon Ballesteros GP, Ooi G, Higa K, Himpens J, Torres A, Shikora S, Kow L, Herrera MF; IFSO appointed task force reviewing the literature on SADI-S/OADS. Single anastomosis duodenal-ileal bypass with sleeve gastrectomy/one anastomosis duodenal switch (SADI-S/OADS) IFSO Position Statement-Update 2020. Obes Surg. 2021 Jan;31(1):3-25.

Kallies K, Rogers AM; American Society for Metabolic and Bariatric Surgery Clinical Issues Committee. American Society for Metabolic and Bariatric Surgery updated statement on single-anastomosis duodenal switch. Surg Obes Relat Dis. 2020;16:825-30.

Sánchez-Pernaute A, Rubio Herrera MA, Pérez-Aguirre E, García Pérez JC, Cabrerizo L, Díez Valladares L, Fernández C, Talavera P, Torres A. Proximal duodenal-ileal end-to-side bypass with sleeve gastrectomy: proposed technique. Obes Surg. 2007;17:1614-18.