机器人辅助减重代谢手术:优势与存在的问题
Robotic-assisted metabolic and bariatric surgery: advantages and challenges
Received date: 2025-05-05
Online published: 2025-09-01
近年,随着人工智能(AI)技术的崛起及深度应用,其对各行业的渗透已成为不可逆转的趋势。在此背景下,机器人辅助减重代谢手术如何把握自身优势,借助AI技术发展浪潮,实现新的技术革命是值得探讨的问题。本文系统介绍机器人辅助减重代谢手术的发展历程、核心优势及存在问题,探讨其未来发展方向,以期为该领域后续研究与临床实践提供参考。
关键词: 机器人辅助减重代谢手术; 减重代谢手术; 肥胖症
董光龙 , 刘浩 , 田嘉时 . 机器人辅助减重代谢手术:优势与存在的问题[J]. 外科理论与实践, 2025 , 30(03) : 197 -201 . DOI: 10.16139/j.1007-9610.2025.03.03
The rise and deep integration of artificial intelligence (AI) technology have led to its irreversible penetration across various industries. Against this backdrop, it is worth discussing how robotic-assisted metabolic and bariatric surgery can leverage its core strengths and capitalize on advancements in AI to achieve technological innovation. This article systematically reviewed the evolution, key advantages, and current limitations of robotic-assisted metabolic and bariatric surgery, explored future directions, and provided insights for subsequent research and clinical practice.
| [1] | KOLIAKI C, DALAMAGA M, LIATIS S. Update on the obesity epidemic: after the sudden rise, is the upward trajectory beginning to flatten?[J]. Curr Obes Rep, 2023, 12(4):514-527. |
| [2] | BOUTARI C, MANTZOROS C S. A 2022 update on the epidemiology of obesity and a call to action: as its twin COVID-19 pandemic appears to be receding, the obesity and dysmetabolism pandemic continues to rage on[J]. Metabolism,2022,133:155217. |
| [3] | LINGHU E. Obesity and chronic diarrhea: a new syndrome?[J]. Chin Med J(Engl), 2022, 135(15):1806-1807. |
| [4] | SANDOVAL D A, PATTI M E. Glucose metabolism after bariatric surgery: implications for T2DM remission and hypoglycaemia[J]. Nat Rev Endocrinol, 2023, 19(3):164-176. |
| [5] | DAVIES M J, ARODA V R, COLLINS B S, et al. Ma-nagement of hyperglycemia in type 2 diabetes, 2022. A consensus report by the American Diabetes Association (ADA) and the European Association for the Study of Diabetes (EASD)[J]. Diabetes Care,2022, 45(11):2753-2786. |
| [6] | 中国医师协会外科医师分会肥胖和代谢病外科专家工作组, 中国医师协会外科医师分会肥胖代谢外科综合管理专家工作组, 中国肥胖代谢外科研究协作组. 中国肥胖代谢外科数据库:2023年度报告[J]. 中华肥胖与代谢病电子杂志, 2024, 10(2):73-83. |
| Chinese Society for Metabolic and Bariatric Surgery (CSMBS), Chinese Society for Integrated Health of Metabolic and Bariatric Surgery (CSMBS IH), Chinese Obesity and Metabolic Surgery Collaborative (COMES Collaborative). Chinese obesity and metabolic surgery database: annual report 2023[J]. Chin J Obes Metab Dis (electronic edition), 2024, 10(2):73-83. | |
| [7] | 中国医师协会外科医师分会肥胖和糖尿病外科医师委员会, 中国肥胖代谢外科研究协作组. 中国肥胖代谢外科数据库:2022年度报告[J]. 中华肥胖与代谢病电子杂志, 2023, 9(2):83-91. |
| Chinese Society for Metabolic and Bariatric Surgery (CSMBS), Chinese Obesity and Metabolic Surgery Colla-borative (COMES Collaborative). Chinese obesity and metabolic surgery database: annual report 2022[J]. Chin J Obes Metab Dis (electronic edition), 2023, 9(2):83-91. | |
| [8] | CAMPOS G M, KHORAKI J, BROWNING M G, et al. Changes in utilization of bariatric surgery in the United States from 1993 to 2016[J]. Ann Surg, 2020, 271(2):201-209. |
| [9] | NGUYEN N T, VARELA J E. Bariatric surgery for obesity and metabolic disorders: state of the art[J]. Nat Rev Gastroenterol Hepatol, 2017, 14(3):160-169. |
| [10] | GIUDICELLI G, GERO D, ROMULO L, et al. Global benchmarks in primary robotic bariatric surgery redefine quality standards for Roux-en-Y gastric bypass and sleeve gastrectomy[J]. Br J Surg, 2024, 111(1):znad374. |
| [11] | CADIERE G B, HIMPENS J, VERTRUYEN M, et al. The world’s first obesity surgery performed by a surgeon at a distance[J]. Obes Surg, 1999, 9(2):206-209. |
| [12] | 中国研究型医院学会微创外科学专业委员会, 中国医药教育协会代谢病学专业委员会. 机器人辅助袖状胃切除术操作指南(2020年版)[J]. 腹腔镜外科杂志, 2021, 26(1):1-6. |
| Minimally Invasive Surgery Committee of the Chinese Research Hospital Association, Metabolic Diseases Committee of China Medical Education Association. Operational guidelines for robot-assisted sleeve gastrectomy (2020 Edition)[J]. J Laparosc Surg, 2021, 26(1):1-6. | |
| [13] | BAUERLE W B, MODY P, ESTEP A, et al. Current trends in the utilization of a robotic approach in the field of bariatric surgery[J]. Obes Surg, 2023, 33(2):482-491. |
| [14] | SENATORE A M, MONGELLI F, MION F U, et al. Costs of robotic and laparoscopic bariatric surgery: a retrospective propensity score-matched analysis[J]. Obes Surg, 2024, 34(10):3694-3702. |
| [15] | RAFFAELLI M, GRECO F, PENNESTRì F, et al. Robotic-assisted Roux-en-Y gastric bypass with the novel platform HugoTM RAS: preliminary experience in 15 patients[J]. Updates Surg, 2024, 76(1):179-185. |
| [16] | RAHIMI A O, ASHOURI Y, MAEGAWA F, et al. Robotic bariatric surgery in older adults, is it safer than the laparoscopic approach? A 7-year analysis of Metabolic and Bariatric Surgery Accreditation and Quality Improvement Program (MBSAQIP) database[J]. Obes Surg, 2023, 33(9):2671-2678. |
| [17] | RATTI F, INGALLINELLA S, CATENA M, et al. Learning curve in robotic liver surgery: easily achievable, evolving from laparoscopic background and team-based[J]. HPB (Oxford), 2025, 27(1):45-55. |
| [18] | KERMANSARAVI M, CHIAPPETTA S, SHAHABI SHAHMIRI S, et al. International expert consensus on the current status and future prospects of artificial intelligence in metabolic and bariatric surgery[J]. Sci Rep, 2025, 15(1):9312. |
| [19] | SAEIDI H, OPFERMANN J D, KAM M, et al. Autonomous robotic laparoscopic surgery for intestinal anastomosis[J]. Sci Robot, 2022, 7(62):eabj2908. |
| [20] | PAVONE G, PACILLI M, GERUNDO A, et al. Can robotic gastric bypass be considered a valid alternative to laparoscopy? Our early experience and literature review[J]. Front Surg, 2024,11:1303351. |
| [21] | NORASI H, HALLBECK M S, ELLI E F, et al. Impact of preferred surgical modality on surgeon wellness: a survey of workload, physical pain/discomfort, and neuromusculoskeletal disorders[J]. Surg Endosc, 2023, 37(12):9244-9254. |
| [22] | HILT L, SHERMAN B, TAN W H, et al. Bariatric surgeon ergonomics: a comparison of laparoscopy and robo-tics[J]. J Surg Res, 2024,295:864-873. |
| [23] | SPURZEM G J, BRODERICK R C, KUNKEL E K, et al. Robotic bariatric surgery reduces morbidity for revisional gastric bypass when compared to laparoscopic: outcome of 8-year MBSAQIP analysis of over 40,000 cases[J]. Surg Endosc, 2024, 38(11):6294-6304. |
| [24] | RAHIMI A O, HSU C H, MAEGAWA F, et al. First assistant in bariatric surgery: a comparison between laparoscopic and robotic approaches: a 4-year analysis of the MBSAQIP database (2016-2019)[J]. Obes Surg, 2024, 34(3):866-873. |
| [25] | KHIZIR L, BHANDARI V, KALOTH S, et al. From diagnosis to precision surgery: the transformative role of artificial intelligence in urologic imaging[J]. J Endourol, 2024, 38(8):824-835. |
| [26] | AMINIAN A, ZAJICHEK A, ARTERBURN D E, et al. Predicting 10-year risk of end-organ complications of type 2 diabetes with and without metabolic surgery: a machine learning approach[J]. Diabetes Care, 2020, 43(4):852-859. |
| [27] | FER D, ZHANG B, ABUKHALIL R, et al. An artificial intelligence model that automatically labels roux-en-Y gastric bypasses, a comparison to trained surgeon annotators[J]. Surg Endosc, 2023, 37(7):5665-5672. |
| [28] | ALI M, ZHU X, WANG Y, et al. A retrospective study of post-operative complications and cost analysis in robotic rectal resection versus laparoscopic rectal resection[J]. Front Surg, 2022,9:969038. |
| [29] | AFFOLTER J, MüHLH?USSER J, MARENGO M, et al. Costs of robotic and laparoscopic bariatric surgery: a systematic review and meta-analysis[J]. Surg Endosc, 2025, 39(5):2784-2798. |
| [30] | LEANG Y J, MAYAVEL N, YANG W T W, et al. Robotic versus laparoscopic gastric bypass in bariatric surgery: a systematic review and meta-analysis on perioperative outcomes[J]. Surg Obes Relat Dis, 2024, 20(1):62-71. |
| [31] | HIRRI F, PICKERING O J, CARTER N C, et al. Learning curves for adoption of robotic bariatric surgery: a systematic review of safety, efficiency and clinical outcomes[J]. J Robot Surg, 2024, 18(1):349. |
| [32] | KAUFFELS A, REICHERT M, ASKEVOLD I, et al. Establishing robotic bariatric surgery at an academic tertiary hospital: a learning curve analysis for totally robotic Roux-en-Y gastric bypass[J]. J Robot Surg, 2023, 17(2):577-585. |
| [33] | KOELLER E, LUHRS A R, GIORGI M. Changes in utilization of robotic bariatric surgery and effect on patient outcomes from 2015-2020[J]. J Robot Surg, 2023, 17(5):2041-2045. |
| [34] | GAYTáN FUENTES O F, BARAJAS GALICIA E, CHáVEZ GARCíA G, et al. Revisional bariatric surgery using robotic-assisted surgery in a national medical center in Mexico[J]. J Robot Surg, 2024, 18(1):247. |
| [35] | 汪波, 马丹丹, 钟蓝海, 等. 达芬奇机器人与腹腔镜下袖状胃切除术治疗肥胖症的疗效比较[J]. 华南国防医学杂志, 2019, 33(10):673-676,707. |
| WANG B, MA D D, ZHONG L H, et al. Comparative study of clinical efficacy of Da Vinci robotic and laparoscopic sleeve gastrectomy in treatment of obesity[J]. Mil Med J S Chin, 2019, 33(10):673-676,707. | |
| [36] | SPURZEM G J, BRODERICK R C, KUNKEL E K, et al. Robotic sleeve gastrectomy has higher complication rates compared to laparoscopic: 8-year analysis of robotic versus laparoscopic primary bariatric surgery[J]. Surg Obes Relat Dis, 2025, 21(4):372-381. |
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