Design and Experiment on a Novel SMA Driven Micro-catheter for Active Navigation in Vascular Interventions

2022 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO) Pub Date : 2022-08-08 DOI:10.1109/3M-NANO56083.2022.9941608

Chengyang Li, Kecai Xie, Zhongjing Ren, Peng Yan

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引用次数: 4

Abstract

This paper presents a shape memory alloy (SMA) driven micro-catheter for active navigation in vascular interventions. SMA wires with microscale diameters and silicone rubber are employed for developing prototypes of such catheters. Selectively processed U shape SMA wires are biasedly embedded into silicone rubber to form the distal actuators with submillimeter diameters, which are characterized by infrared and CCD cameras. The transformation temperatures of SMA wires used for creation of distal actuator is proven to be approximately 35°C by the infrared imaging. The deflection angles of distal actuators are determined by the residual stress resulting from biased SMA wires and their shape memory effect. As a result, distal deflection within acute angles range is accomplished with actuators in submillimeter diameters. A micro-catheter (0.8 mm in diameter) with a distal actuator (0.5 mm in diameter) is mounted inside a vascular introducing sheath fixed on a 3D vascular model to experimentally validate the ability of proposed catheter for navigation.

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新型SMA驱动的血管介入主动导航微导管的设计与实验

提出了一种形状记忆合金(SMA)驱动的微导管，用于血管干预中的主动导航。微直径的SMA钢丝和硅橡胶被用于开发这种导管的原型。将选择性加工的U形SMA导线偏置嵌入硅橡胶中，形成直径为亚毫米的远端致动器，并通过红外和CCD相机对其进行表征。红外成像结果表明，用于制造远端执行器的SMA丝的转变温度约为35℃。远端致动器的偏转角度是由SMA钢丝偏置产生的残余应力及其形状记忆效应决定的。因此，在锐角范围内的远端偏转是由亚毫米直径的驱动器完成的。将微导管(直径0.8 mm)与远端驱动器(直径0.5 mm)安装在固定在3D血管模型上的血管引入鞘内，以实验验证所提出导管的导航能力。

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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2022 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO)

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