Construction of arteriovenous circulation system to gain of the close feeling to insert a catheter into human vessel

Q4 Engineering Journal of Biorheology Pub Date : 2018-01-01 DOI:10.17106/JBR.32.56
M. Hiroura, T. Hirota, J. Mukai, Ryoko Masaki, Yosuke Naoki, Yuta Tominaga, H. Date, Takeshi Yokoyama
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引用次数: 0

Abstract

We first developed a model of the normal human left heart and simulated blood and clarified the relationship between catheter insertion load and temperature in the coronary artery. The close feeling to insert a catheter into human vessels could be reproduced for medical staff. We also developed an arteriovenous circulation simulator (AVCS), simulating the normal heart and blood vessels, reproduced hemodynamics and simulated angiography and catheterization procedures. Using an auxiliary artificial heart, simulated blood was circulated through AVCS and blood pressure was set to 120/72 mmHg of peripheral vascular resistance by a pressure gradient regulator. Because the increase in contrast agent volume in the circulation fluid of AVCS affects X-ray fluoroscopy, we also developed methods for neutralization and removal of ionic contrast agents. The developed AVCS enabled to simulate following procedures:
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动静脉循环系统的构建,获得导管插入血管的亲密感
我们首先建立了正常人左心模型,模拟血液,明确了导管插入负荷与冠状动脉温度的关系。将导管插入人体血管的亲密感可以为医务人员再现。我们还开发了一个动静脉循环模拟器(AVCS),模拟正常的心脏和血管,再现血流动力学和模拟血管造影和导管插入术过程。采用辅助人工心脏,模拟血液经AVCS循环,通过压力梯度调节器将血压设定为外周血管阻力120/72 mmHg。由于AVCS循环液中造影剂体积的增加影响x线透视,我们还开发了中和和去除离子造影剂的方法。开发的AVCS能够模拟以下程序:
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来源期刊
Journal of Biorheology
Journal of Biorheology Engineering-Mechanical Engineering
CiteScore
0.50
自引率
0.00%
发文量
5
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