为电阻抗断层扫描(EIT)构建解剖胸椎图谱的体内测量:EIT规范化方法

2014 IEEE International Instrumentation and Measurement Technology Conference (I2MTC) Proceedings Pub Date : 2014-05-12 DOI:10.1109/I2MTC.2014.6860853

T. H. S. Sousa, E. Camargo, Alessandro R. C. Martins, Caio Biasi, A. B. D. C. F. Pinto, R. G. Lima

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引用次数: 2

摘要

在体内的测量是为了开发基于生物组织电学特性的电阻率解剖图谱。这些数据作为EIT算法的正则化。测量是在125 kHz下对猪的生物组织进行的。采用四端插入式电极和计算机自动测量系统获取进给率数据。测量心肌(心外膜表面的三个不同位置)、胸肌和肋间肌、脂肪组织、肋软骨和肺(颅叶、中叶和尾叶)。观察与灌注率和通气率同步的时间变化。正压增高导致肺组织平均吸入时间增高。收集的数据用于提高EIT图像分辨率。

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In vivo measurements for construction an anatomical thoracic atlas for electrical impedance tomography (EIT): Methods for EIT regularizations

In vivo measurements were acquired to develop the anatomical atlas of resistivity based on electrical properties of biological tissues. These data serve as the regularization for EIT algorithm. The measurements were carried out at 125 kHz on biological swine tissues. Plunge electrodes in four-terminal configuration and a computer-automated measurement system were used to acquire admitivity data. Measurements were taken on myocardial muscle (three different positions on epicardial surface), pectoral and intercostals muscles, adipose tissue, costal cartilage and lungs (cranial lobe, middle lobe and caudal lobe). Admitivity temporal variations synchronized with perfusion and ventilation rates were observed. Increased PEEP lead to increased time averaged admitivity in lung tissues. The collected data were used to increased image resolution on EIT.

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2014 IEEE International Instrumentation and Measurement Technology Conference (I2MTC) Proceedings

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