Institute of Forming Technology & Equipment, Shanghai Jiao Tong University, Shanghai, 200030, China.
Institute of Medical Robotics, Shanghai Jiao Tong University, Shanghai, 200240, China.
Int J Comput Assist Radiol Surg. 2024 Sep;19(9):1809-1820. doi: 10.1007/s11548-024-03194-z. Epub 2024 May 29.
Continuum manipulators (CMs) show great potential in transoral laryngeal surgery due to their flexibility. However, CMs for transoral surgery face several issues: large size, which reduces practicality; intersegment coupling, which causes undesired deflection; and a lack of versatility that limits their applicability across different patient groups.
This work combines a rod-driven proximal segment and a cable-driven distal segment to achieve piecewise stiffness, alleviating the issue of intersegment coupling. A rigid constraint tube is integrated into the proximal segment to diversify its bending behavior. Preliminary experiments are conducted to validate the design concept.
The proposed CM has an overall diameter of only 6.5 mm. The proximal segment can achieve a 90° bending with various curvatures. At the working configuration, the coupling error between the proximal segment and the distal segment is less than 1 mm. The effectiveness of the proposed CM is successfully validated using a human model.
The proposed continuum manipulator possesses the desirable characteristics of small size, low coupling, and high versatility, indicating its great potentialities for the diagnosis and treatment of laryngeal lesion.
连续体机械手(CMs)由于其灵活性,在经口喉部手术中显示出巨大的潜力。然而,用于经口手术的 CMs 面临几个问题:尺寸大,降低了实用性;节段间耦合,导致不期望的偏斜;以及缺乏通用性,限制了它们在不同患者群体中的适用性。
这项工作结合了杆驱动的近端节段和电缆驱动的远端节段,以实现分段刚度,减轻节段间耦合的问题。刚性约束管被集成到近端节段中,以使其弯曲行为多样化。进行了初步实验以验证设计概念。
所提出的 CM 的总直径仅为 6.5mm。近端节段可以实现各种曲率的 90°弯曲。在工作配置中,近端节段和远端节段之间的耦合误差小于 1mm。使用人体模型成功验证了所提出的 CM 的有效性。
所提出的连续体机械手具有尺寸小、耦合低和通用性高的理想特性,表明其在喉部病变的诊断和治疗方面具有巨大的潜力。
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