医疗导向针自动化的安全启动区域

IF 9.4 1区计算机科学 Q1 ROBOTICS

IEEE Transactions on Robotics Pub Date : 2025-03-17 DOI:10.1109/TRO.2025.3552323

Janine Hoelscher;Inbar Fried;Spiros Tsalikis;Jason Akulian;Robert J. Webster;Ron Alterovitz

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引用次数: 0

摘要

可操纵针头是一种微创设备，可以通过弯曲路径来避免关键的解剖障碍，从而实现新的医疗程序。我们引入了一种新的启动姿态鲁棒性指标，用于可操纵的针运动计划。可操纵针头的部署通常包括医生手动将可操纵针头以预先计算的开始姿势放置在组织表面，并将控制权交给机器人，然后机器人自动引导针头穿过组织到达目标。人与机器人之间的切换对手术的成功至关重要，因为即使是计划开始姿势的微小偏差也会改变可操纵针的可到达工作空间。我们的度量是基于一种新颖的几何方法来有效地计算医生在位置和方向上偏离计划开始姿势的距离，从而使可操纵针仍然可以到达目标。我们通过模拟肝脏和肺部的情况来评估我们的指标。我们的评价表明，我们的度量可以应用于由不同的可操纵针运动规划器计算的规划，并且可以有效地选择具有大安全启动区域的规划。

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Safe Start Regions for Medical Steerable Needle Automation

Steerable needles are minimally invasive devices that can enable novel medical procedures by following curved paths to avoid critical anatomical obstacles. We introduce a new start pose robustness metric for steerable needle motion plans. A steerable needle deployment typically consists of a physician manually placing a steerable needle at a precomputed start pose on the surface of tissue and handing off control to a robot, which then autonomously steers the needle through the tissue to the target. The handoff between humans and robots is critical for procedure success, as even small deviations from a planned start pose change the steerable needle's reachable workspace. Our metric is based on a novel geometric method to efficiently compute how far the physician can deviate from the planned start pose in both position and orientation such that the steerable needle can still reach the target. We evaluate our metric through simulation in liver and lung scenarios. Our evaluation shows that our metric can be applied to plans computed by different steerable needle motion planners and that it can be used to efficiently select plans with large safe start regions.

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来源期刊

IEEE Transactions on Robotics 工程技术-机器人学

CiteScore

14.90

自引率

5.10%

发文量

259

审稿时长

6.0 months

期刊介绍： The IEEE Transactions on Robotics (T-RO) is dedicated to publishing fundamental papers covering all facets of robotics, drawing on interdisciplinary approaches from computer science, control systems, electrical engineering, mathematics, mechanical engineering, and beyond. From industrial applications to service and personal assistants, surgical operations to space, underwater, and remote exploration, robots and intelligent machines play pivotal roles across various domains, including entertainment, safety, search and rescue, military applications, agriculture, and intelligent vehicles. Special emphasis is placed on intelligent machines and systems designed for unstructured environments, where a significant portion of the environment remains unknown and beyond direct sensing or control.