Development of a single port dual arm robotically steerable endoscope for neurosurgical applications.

npj Robotics Pub Date : 2025-01-01 Epub Date: 2025-01-08 DOI:10.1038/s44182-024-00017-w

Ronghuai Qi, Nidhi Malhotra, Timothy A Brumfiel, Kimberly Hoang, Jaydev P Desai

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Abstract

Single-port surgical robots have gained popularity due to less patient trauma and quicker post-surgery recovery. However, due to limited access provided by a single incision, the miniaturization and maneuverability of these robots still needs to be improved. In this paper, we propose the design of a single-port, dual-arm robotically steerable endoscope containing one steerable major cannula and two steerable minor cannulas. By integrating the proposed nine degrees-of-freedom (DoFs) robotically steerable endoscope with an industrial robotic arm and a joystick controller, this robotic system can potentially achieve intuitive, and remote multi-arm manipulation capability. We present the design of the robotically steerable endoscope consisting of tendon-driven joints controlled by a compact actuation system and derive the kinematic and static models. We validate the derived models using different kinematic trajectories with an average RMSE value of 0.98 mm and 0.66 mm for the distal tip position errors of the two steerable minor cannulas.

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神经外科用单端口双臂机器人可操纵内窥镜的研制。

单端口手术机器人因较少的患者创伤和更快的术后恢复而受到欢迎。然而，由于单个切口提供的通道有限，这些机器人的小型化和可操作性仍然需要改进。在本文中，我们提出了一种单端口，双臂机器人可操纵内窥镜的设计，该内窥镜包含一个可操纵的主套管和两个可操纵的小套管。通过将所提出的九自由度机器人内窥镜与工业机械臂和操纵杆控制器相结合，该机器人系统可以实现直观的远程多臂操作能力。设计了一种由紧凑型驱动系统控制的由肌腱驱动关节组成的机器人导向内窥镜，并建立了其运动学和静力学模型。我们使用不同的运动轨迹验证了导出的模型，平均RMSE值为0.98 mm和0.66 mm，用于两个可操纵小套管的远端尖端位置误差。

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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