A novel affordable user interface for robotic surgery training: design, development and usability study.

IF 3.2 Q1 HEALTH CARE SCIENCES & SERVICES Frontiers in digital health Pub Date : 2024-07-30 eCollection Date: 2024-01-01 DOI:10.3389/fdgth.2024.1428534
Alberto Neri, Mara Coduri, Veronica Penza, Andrea Santangelo, Alessandra Oliveri, Enrico Turco, Mattia Pizzirani, Elisa Trinceri, Domenico Soriero, Federico Boero, Serena Ricci, Leonardo S Mattos
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Abstract

Introduction: The use of robotic systems in the surgical domain has become groundbreaking for patients and surgeons in the last decades. While the annual number of robotic surgical procedures continues to increase rapidly, it is essential to provide the surgeon with innovative training courses along with the standard specialization path. To this end, simulators play a fundamental role. Currently, the high cost of the leading VR simulators limits their accessibility to educational institutions. The challenge lies in balancing high-fidelity simulation with cost-effectiveness; however, few cost-effective options exist for robotic surgery training.

Methods: This paper proposes the design, development and user-centered usability study of an affordable user interface to control a surgical robot simulator. It consists of a cart equipped with two haptic interfaces, a VR visor and two pedals. The simulations were created using Unity, which offers versatility for expanding the simulator to more complex scenes. An intuitive teleoperation control of the simulated robotic instruments is achieved through a high-level control strategy.

Results and discussion: Its affordability and resemblance to real surgeon consoles make it ideal for implementing robotic surgery training programs in medical schools, enhancing accessibility to a broader audience. This is demonstrated by the results of an usability study involving expert surgeons who use surgical robots regularly, expert surgeons without robotic surgery experience, and a control group. The results of the study, which was based on a traditional Peg-board exercise and Camera Control task, demonstrate the simulator's high usability and intuitive control across diverse user groups, including those with limited experience. This offers evidence that this affordable system is a promising solution for expanding robotic surgery training.

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用于机器人手术培训的新型廉价用户界面:设计、开发和可用性研究。
简介过去几十年来,机器人系统在外科领域的应用对患者和外科医生来说都具有划时代的意义。虽然每年机器人外科手术的数量仍在快速增长,但为外科医生提供创新的培训课程以及标准的专业化路径是至关重要的。为此,模拟器发挥了重要作用。目前,领先的 VR 模拟器价格昂贵,限制了教育机构对它们的使用。挑战在于如何在高保真模拟与成本效益之间取得平衡;然而,机器人手术培训几乎不存在成本效益高的选择:本文提出设计、开发一种经济实惠的用户界面,并以用户为中心进行可用性研究,以控制手术机器人模拟器。它由一辆配备两个触觉界面、一个 VR 面罩和两个踏板的小车组成。模拟器使用 Unity 创建,它提供了将模拟器扩展到更复杂场景的多功能性。通过高级控制策略实现了对模拟机器人仪器的直观远程操作控制:该模拟器价格低廉,与真实外科医生控制台相似,因此非常适合在医学院校开展机器人手术培训项目,从而让更多人了解机器人手术。一项由经常使用手术机器人的外科医生、没有机器人手术经验的外科医生和对照组参加的可用性研究结果证明了这一点。这项研究基于传统的棋盘练习和相机控制任务,研究结果表明,模拟器在不同的用户群体(包括经验有限的用户群体)中都具有很高的可用性和直观控制性。这证明,这种经济实惠的系统是扩大机器人手术培训的一个很有前途的解决方案。
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审稿时长
13 weeks
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