Electrode Positioning to Investigate the Changes of the Thoracic Bioimpedance Caused by Aortic Dissection - A Simulation Study.

Q3 Biochemistry, Genetics and Molecular Biology

Journal of Electrical Bioimpedance Pub Date : 2020-06-25 eCollection Date: 2020-01-01 DOI:10.2478/joeb-2020-0007

V Badeli, G M Melito, A Reinbacher-Köstinger, O Bíró, K Ellermann

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引用次数: 9

Abstract

Abstract Impedance cardiography (ICG) is a non-invasive method to evaluate several cardiodynamic parameters by measuring the cardiac-synchronous changes in the dynamic transthoracic electrical impedance. ICG allows us to identify and quantify conductivity changes inside the thorax by measuring the impedance on the thorax during a cardiac cycle. Pathologic changes in the aorta, like aortic dissection, will alter the aortic shape as well as the blood flow and consequently, the impedance cardiogram. This fact distorts the evaluated cardiodynamic parameters, but it could lead to the possibility to identify aortic pathology. A 3D numerical simulation model is used to compute the impedance changes on the thorax surface in case of the type B aortic dissection. A sensitivity analysis is applied using this simulation model to investigate the suitability of different electrode configurations considering several patient-specific cases. Results show that the remarkable pathological changes in the aorta caused by aortic dissection alters the impedance cardiogram significantly.

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电极定位研究主动脉夹层引起胸腔生物阻抗变化的模拟研究。

阻抗心动图(ICG)是一种通过测量动态经胸电阻抗的心脏同步变化来评估几种心动力参数的无创方法。ICG允许我们通过测量心脏周期期间胸腔上的阻抗来识别和量化胸腔内的电导率变化。主动脉的病理改变，如主动脉夹层，会改变主动脉形状和血流量，从而改变阻抗心电图。这一事实扭曲了评估的心动力参数，但它可能导致识别主动脉病理的可能性。采用三维数值模拟模型计算了B型主动脉夹层胸腔表面阻抗的变化。利用该模拟模型进行敏感性分析，研究了不同电极配置的适用性，并考虑了几种患者的具体情况。结果表明主动脉夹层引起的主动脉病理改变明显改变了阻抗心电图。

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