Function simulation of a 4 degree-of-freedom robot for artery manipulation during vascular surgery

2010 17th Iranian Conference of Biomedical Engineering (ICBME) Pub Date : 2010-11-01 DOI:10.1109/ICBME.2010.5704993

P. Pahlavan, S. Najarian, Ali Abouei, M. Moini

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Abstract

Atheroma is one of the main causes of failure of arterial system. One of the most common approaches of treatment of this aneurysm is the bypass surgery. During this surgery, the surgeon has to free the artery from the surrounding tissue. To accomplish this, a hook, right- angle clamp, is used. However, there is always the possibility of damaging the veins and/or the neural paths around the artery while working with this mechanical hook. The reason for this is that the hook might not exactly circle the artery and its tip follows a different path from artery's outer surface. In this study, we considered a 4-degree-of-planar freedom robot, which is aimed to free the artery with making no damages to surrounding tissue, and analyzed its path following. Movements of the links of the robot were modeled under some boundary conditions, like definite space between the tip of the robot and the outer surface of the artery, and the path followed by the tip of the robot was extracted. Also, the different angles of the joints versus time were extracted and it was concluded that although under the considered boundary condition the goal is achieved, the movement could be improved.

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血管手术中动脉操作四自由度机器人的功能仿真

动脉粥样硬化是动脉系统衰竭的主要原因之一。治疗这种动脉瘤最常见的方法之一是搭桥手术。在手术中，外科医生必须将动脉从周围组织中解放出来。要做到这一点，一个钩，直角钳，是使用。然而，在使用这种机械钩时，总是有可能损坏动脉周围的静脉和/或神经通路。这样做的原因是，钩可能不会完全环绕动脉，它的尖端沿着与动脉外表面不同的路径。在本研究中，我们考虑了一个4个平面自由度的机器人，其目标是在不损伤周围组织的情况下解放动脉，并分析了其路径跟随。在一定的边界条件下，如机器人尖端与动脉外表面之间有一定的空间，对机器人连杆的运动进行建模，提取机器人尖端的运动路径。同时，提取了关节与时间的不同角度，得出了在考虑的边界条件下，虽然达到了目标，但还可以改进运动的结论。

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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2010 17th Iranian Conference of Biomedical Engineering (ICBME)

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