用于血管系统模型光弹性应力分析的人体血压模拟

C. Tercero, S. Ikeda, M. Matsushima, T. Fukuda, Erick Tijerino, M. Negoro, I. Takahashi
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引用次数: 0

摘要

开发一种数值准则来评估对血管系统模型的压力,在评估人类技能、机器人和医疗工具方面具有应用价值。这一标准将使更好的血管内手术医疗培训和更好的医疗技术和工具的发展。我们建议使用人体血压模拟在血管壁模型中产生的应力作为这一标准;并利用光弹性效应测量了应力大小的主成分。为此,我们以平均误差的5.6%模拟了人体血压,我们开发了一个屏蔽的聚氨酯血管模型,使水循环和避免压力低于182 mmHg的塑性变形。我们开发了计算模型墙应力的软件。对人体血压模拟和导丝产生的应力在四个范围内进行了数值比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Human blood pressure simulation for photoelastic stress analysis in models of vasculature
The development of a numerical criterion to evaluate the stress on models of vasculature has applications in evaluation of human skills, robots and medical tools. This criterion will enable better medical training for endovascular surgery and the development of better medical techniques and tools. We propose to use the stress produced by human blood pressure simulation in the wall of the model of vasculature as this criterion; and to measure the principal component of stress magnitude using photoelastic effect. For that we simulated human blood pressure with a 5.6% of average error, we developed a shielded urethane model of vasculature enabling water circulation and avoiding plastic deformation with pressures below 182 mmHg. We developed software to calculate the stress of the model wall. Stress produced by human blood pressure simulation and a guide wire were compared numerically in four ranges.
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