Agile 3D-Navigation of a Helical Magnetic Swimmer

J. Leclerc, Haoran Zhao, Daniel Bao, Aaron T. Becker, M. Ghosn, D. Shah
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引用次数: 2

Abstract

Rotating miniature magnetic swimmers are de-vices that could navigate within the bloodstream to access remote locations of the body and perform minimally invasive procedures. The rotational movement could be used, for example, to abrade a pulmonary embolus. Some regions, such as the heart, are challenging to navigate. Cardiac and respiratory motions of the heart combined with a fast and variable blood flow necessitate a highly agile swimmer. This swimmer should minimize contact with the walls of the blood vessels and the cardiac structures to mitigate the risk of complications. This paper presents experimental tests of a millimeter-scale magnetic helical swimmer navigating in a blood-mimicking solution and describes its turning capabilities. The step-out frequency and the position error were measured for different values of turn radius. The paper also introduces rapid movements that increase the swimmer’s agility and demonstrates these experimentally on a complex 3D trajectory.
螺旋磁泳者的敏捷3d导航
旋转的微型磁性游泳器可以在血液中导航,到达身体的偏远部位,并进行微创手术。例如,这种旋转运动可用于清除肺栓塞。有些区域,比如心脏,很难导航。心脏的心脏和呼吸运动,加上快速多变的血液流动,需要一个高度敏捷的游泳者。游泳者应尽量减少与血管壁和心脏结构的接触,以减轻并发症的风险。本文介绍了一种毫米级磁性螺旋游泳者在模拟血液溶液中导航的实验测试,并描述了它的转向能力。测量了不同转弯半径值下的步进频率和位置误差。本文还介绍了增加游泳者敏捷性的快速运动,并在复杂的3D轨迹上进行了实验演示。
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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