A soft robotic "Add-on" for colonoscopy: increasing safety and comfort through force monitoring.

npj Robotics Pub Date : 2025-01-01 Epub Date: 2025-06-13 DOI:10.1038/s44182-025-00028-1

Viola Del Bono, Max McCandless, Arincheyan Gerald, Emma Capaldi, Johann Pang, Casper Muter, Mark Baldiswieler, Hiroyuki Aihara, Sheila Russo

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Abstract

Colonoscopy is vital for diagnosing colorectal cancer, but limitations in instrument dexterity and sensor feedback can affect safety and patient comfort. We propose a disposable soft robotic "add-on" that attaches to existing endoscopic tools, enhancing safety without requiring custom instruments or workflow changes. The robot features soft optical sensors for 3D shape detection and force monitoring. If excessive force is detected, soft actuators redistribute pressure. A graphical interface provides real-time force data alongside the endoscope camera view. Validation experiments show accurate 3D shape reconstruction (8.51% curvature error, 9.67% orientation error) and force estimation up to 6 N with 3.38% accuracy. In-vitro tests confirm effective force redistribution, while ex-vivo tests on a bovine colon demonstrate smooth integration with minimal impact on the user learning curve. In-vivo swine studies validate safety and feasibility, confirming compatibility with existing tools and minimal disruption to clinical workflows, ensuring an efficient colonoscopy experience.

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结肠镜检查的软机器人“附加组件”：通过力监测提高安全性和舒适性。

结肠镜检查对诊断结直肠癌至关重要，但仪器灵巧性和传感器反馈的局限性会影响安全性和患者舒适度。我们提出了一种一次性软机器人“附加组件”，可附加到现有的内窥镜工具上，无需定制仪器或更改工作流程即可提高安全性。该机器人具有用于3D形状检测和力监测的软光学传感器。如果检测到压力过大，软执行机构将重新分配压力。图形界面提供实时力数据与内窥镜相机视图。验证实验表明，三维形状重构精度为8.51%（曲率误差为8.51%），方向误差为9.67%（方向误差为9.67%），力估计精度为3.38% （6 N）。体外测试证实了有效的力再分配，而在牛结肠上进行的离体测试显示了平滑的整合，对用户学习曲线的影响最小。猪体内研究验证了安全性和可行性，确认了与现有工具的兼容性，并将对临床工作流程的干扰降至最低，确保了高效的结肠镜检查体验。

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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npj Robotics

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