Pedi-Bots: Innovations and progress in robotic pediatric general surgery

Journal of Pediatric Surgery Open Pub Date : 2024-07-01 DOI:10.1016/j.yjpso.2024.100156

Krysta M Sutyak , KuoJen Tsao

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Abstract

Robotic Assisted Surgical Systems for abdominal surgery began human trials in adults in the 1990s [1,2]. The first commercially available system was approved for use in Europe and the United States by 2000 [2,3]. Almost 25 years later, robotic surgery is commonplace in most areas of general surgery in adults and is utilized nationally and internationally throughout most other surgical specialties. The first robotic pediatric surgery, a Nissan fundoplication, was completed in 2000 [4]. In relatively similar time periods where robotic surgery has become widespread in the adult population, its use has remained limited in pediatric patients. This is most often attributed to limitations secondary to the patient's size relative to the size of the robot and instruments[5,6]. In this article, we aim to review the robotic technology currently available in pediatrics, the advantages of robotic surgery, the use and safety of robotics in pediatric general surgery, and the challenges or limitations of its use, highlighting how surgeons and centers are utilizing this technology and implementing robotic practices despite these obstacles.

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Pedi-Bots：机器人小儿普外科的创新与进步

用于腹部手术的机器人辅助手术系统于 20 世纪 90 年代开始在成人中进行人体试验 [1,2]。2000 年，欧洲和美国批准使用第一套商用系统[2,3]。近 25 年后的今天，机器人手术在成人普外科的大部分领域中已司空见惯，并在国内和国际上的大部分其他外科专科中得到应用。首例机器人小儿手术--尼桑胃底折叠术于2000年完成[4]。机器人手术在成人中的普及时间相对较短，但在儿科患者中的应用却一直有限。最常见的原因是，相对于机器人和器械的尺寸而言，患者的体型会受到限制[5,6]。本文旨在回顾目前儿科可用的机器人技术、机器人手术的优势、机器人技术在儿科普外科的应用和安全性，以及其应用所面临的挑战或限制，重点介绍外科医生和中心如何克服这些障碍利用该技术并实施机器人手术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Pediatric Surgery Open

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