基于MEMS微气泡压力传感器的心血管功能性狭窄监测智能导丝研究

项目名称： 基于MEMS微气泡压力传感器的心血管功能性狭窄监测智能导丝研究

项目编号： No.51475307

项目类型： 面上项目

立项/批准年度： 2015

项目学科： 机械、仪表工业

项目作者： 刘景全

作者单位： 上海交通大学

项目金额： 84万元

中文摘要： 冠脉造影是评价心血管狭窄的金标准，但它仅从形态学评价冠脉狭窄，无法功能性评价狭窄对心肌血流灌注的影响。血流分数储备测定（FFR）是功能性判断冠脉狭窄对心肌灌注的有效手段。但目前基于单个刚性压力传感器的FFR导丝只能通过连续回拉判定心血管病变狭窄程度，影响测量精度和延长体内测量时间。本项目提出一种基于MEMS微气泡压力传感器的心血管功能性狭窄监测智能导丝，该导丝采用多点微气泡压力传感器，无需连续回拉多次测量，一次可同时测定冠脉的狭窄。研究一种新型的微气泡压力传感器，基于三电极理论的阻抗来测量压力变化，探索微压力传感器在导线表面的形成方法。研究用于评价导丝性能的心血管模拟实验平台，基于弹性腔理论建立血流动力学模型，并将数值模拟与实验相结合。最后通过动物实验验证导线的可行性。通过相关理论分析、设计、工艺和实验研究，解决该智能导丝的理论和实验的关键问题，为评价心血管功能性狭窄提供一种新方法。

中文关键词： 微机电系统；压力传感器；微气泡；智能导丝；血流分数储备测定

英文摘要： Coronary angiography is the gold standard for evaluating cardiovascular stenosis, but it is only morphological evaluation of coronary stenosis, not functional stenosis evaluation of the impact on myocardial perfusion. Fractional Flow Reserve (FFR) is an effective means to determine the functional coronary stenosis on myocardial perfusion. But the current FFR catheter based on a single rigid pressure sensor can only be pulled back and forth to realize the measurement of the stenosis cardiovascular disease, which affects measurement accuracy and extends the in vivo measurement time. This project proposes smart micro-catheter for monitoring cardio-vascular function stenosis based on micro-bubble pressure sensor. This smart micro-catheter has multi-point micro-bubble pressure sensors, which does not need to pull back and forth and just takes one measurement to detect the coronary stenosis. The new type of micro-bubble pressure sensors are studied, which are based on the three-electrode system to measure the pressure. The method of fixing the micro-pressure sensors on the wire surface is investigated. In order to evaluate the performance of the smart micro-cathether, the cardiovascular simulation platform will be established, which is based on the flow dynamic model of elastic cavity theory and the combination of numerical and experimental analyses. Finally, the animal experiments verify the feasibility of this cathether. Through theoretical analyses, design, process and experimental research, the key issues of the theory and experiment of the smart cathether will be addressed, which will provide a new method for the evaluation of cardiovascular function stenosis.

英文关键词： MEMS;Pressure sensor;Micro-bubble;Smart cathether;FFR