使用带触觉反馈的手术机器人的远程手术系统的现场实验。

Field experiment of a telesurgery system using a surgical robot with haptic feedback.

机构信息

Department of Surgery and Science, Graduate School of Medical Sciences, Kyushu University, 3-1-1, Maidashi, Higashi-ku, Fukuoka, 812-8582, Japan.

Committee for Promotion of Remote Surgery Implementation, Japan Surgical Society, Tokyo, Japan.

出版信息

Surg Today. 2024 Apr;54(4):375-381. doi: 10.1007/s00595-023-02732-7. Epub 2023 Sep 1.

DOI:10.1007/s00595-023-02732-7

PMID:37653350

Abstract

PURPOSE

To verify the usefulness of haptic feedback in telesurgery and improve the safety of telerobotic surgery.

METHODS

The surgeon's console was installed at two sites (Fukuoka and Beppu; 140 km apart), and the patient cart was installed in Fukuoka. During the experiment, the surgeon was blinded to the haptic feedback levels and asked to grasp the intestinal tract in an animal model. The surgeon then performed the tasks at each location.

RESULTS

No marked differences in task accuracy or average grasping force were observed between the surgeon locations. However, the average task completion time was significantly longer, and the system usability scale (SUS) was significantly lower rating for remote operations than for local ones. No marked differences in task accuracy or task completion time were observed between the haptic feedback levels. However, with haptic feedback, the organ was grasped with a significantly weaker force than that without it. Furthermore, with haptic feedback, experienced surgeons in robotic surgery tended to perform an equivalent task with weaker grasping forces than inexperienced surgeons.

CONCLUSION

The haptic feedback function is a tool that allows the surgeon to perform surgery with an appropriate grasping force, both on site and remotely. Improved safety is necessary in telesurgery; haptic feedback will thus be an essential technology in robotic telesurgery going forward.

摘要

目的

验证触觉反馈在远程手术中的有效性，提高远程机器人手术的安全性。

方法

将外科医生控制台安装在两个地点（相距 140 公里的福冈和别府），并将患者台车安装在福冈。在实验过程中，外科医生对触觉反馈水平一无所知，并要求在动物模型中抓住肠道。然后，外科医生在每个位置执行任务。

结果

在任务准确性或平均抓取力方面，外科医生所在位置之间没有明显差异。然而，远程操作的平均任务完成时间明显更长，系统可用性量表（SUS）评分明显更低。在触觉反馈水平方面，任务准确性或任务完成时间没有明显差异。然而，有触觉反馈时，器官的抓取力明显小于没有触觉反馈时。此外，有触觉反馈时，经验丰富的机器人手术外科医生往往比经验不足的外科医生用较弱的抓取力完成等效任务。

结论

触觉反馈功能是一种工具，允许外科医生在现场和远程手术中使用适当的抓取力进行手术。远程手术需要提高安全性；因此，触觉反馈将成为未来机器人远程手术的一项关键技术。

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使用带触觉反馈的手术机器人的远程手术系统的现场实验。

Field experiment of a telesurgery system using a surgical robot with haptic feedback.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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