一种预测软组织内主动肌腱驱动的缺口针偏转的模型。

Blayton Padasdao, Bardia Konh
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引用次数: 0

摘要

过去十年见证了微创和机器人辅助手术领域的重大进展。针头插入是一种微创技术,已在近距离治疗、消融、药物输送和活检等程序中证明其有效性。由于复杂的针头-组织相互作用、针头和组织运动、缺乏驱动和控制以及感知和可视化较差,在组织内手动操纵针头是一项具有挑战性的任务。最近,已经提出了主动肌腱驱动的缺口针和机器人操纵系统,以帮助外科医生将针引导到目标位置的期望轨迹中。这项工作介绍了一种新的偏转模型,用于软组织内主动肌腱驱动的缺口针转向,用于基于模型的机器人控制。该模型是为预测单层组织中的针头偏转而开发的。为了验证所提出的偏转模型,进行了五组针头插入实验,用倾斜尖端的主动针头插入单层体模组织。采用实时机器人辅助超声跟踪方法对针头插入过程中的针尖进行跟踪。结果表明,该模型预测针头偏转,平均误差为0.58 ± 0.14 mm,用于倾斜尖端的主动针插入单层体模组织中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Model to Predict Deflection of an Active Tendon-Driven Notched Needle Inside Soft Tissue.

The last decade has witnessed major progress in the field of minimally invasive and robotic-assisted surgeries. Needle insertion, a minimally invasive technique, has proven its efficacy in procedures such as brachytherapy, ablation, drug delivery, and biopsy. Manual needle steering inside tissue is a challenging task due to complex needle-tissue interactions, needle and tissue movement, lack of actuation and control, as well as poor sensing and visualization. Recently, active tendon-driven notched needles, and robotic manipulation systems have been proposed to assist surgeons to guide the needles in desired trajectories toward target positions. This work introduces a new deflection model for the active tendon-driven notched needle steering inside soft tissue for intention to use in model-based robotic control. The model is developed to predict needle deflection in a single-layer tissue. To validate the proposed deflection model, five sets of needle insertion experiments with a bevel-tipped active needle into single-layer phantom tissues were performed. A real-time robot-assisted ultrasound tracking method was used to track the needle tip during needle insertion. It was shown that the model predicts needle deflection with an average error of 0.58 ± 0.14 mm for the bevel-tipped active needle insertion into a single-layer phantom tissue.

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