利用相关声学测量中的时间谱差异进行血管狭窄检测
VASCULAR STENOSIS DETECTION USING TEMPORAL-SPECTRAL DIFFERENCES IN CORRELATED ACOUSTIC MEASUREMENTS.
作者信息
Panda B, Mandal S, Majerus S J A
机构信息
Department of Biomedical Engineering, Case Western Reserve University.
Department of Electrical Engineering and Computer Science, Case Western Reserve University.
出版信息
IEEE Signal Process Med Biol Symp. 2019 Dec;2019. doi: 10.1109/spmb47826.2019.9037853. Epub 2020 Mar 19.
Central venous stenosis is often undiagnosed in patients with hemodialysis vascular access, partly due to imaging difficulties. Noninvasive, point-of-care detection could rely on detecting regions of turbulent blood flow caused by blood velocity changes. Here we present flexible microphone arrays for time-correlated measures of blood flow sounds and a new signal processing approach to calculate time correlation between spectral features. Continuous wavelet transform was used to produce an auditory spectral flux analytic signal, which was thresholded to identify systolic start and end phases. Microphone arrays were tested on pulsatile flow phantoms with blood flow rates of 850-1,200 mL/min and simulated stenosis from 10-85%. Measured results showed an inversion in the time onset of systolic spectral content for sites proximal and distal to stenosis for hemodynamically significant stenoses (+22 ms for stenosis<50% and -20 to -38 ms for stenosis>50%). Equivalent blood velocity increases were calculated as 142-155 cm/s in stenotic phantoms, which are within the physiologic range as measured by ultrasound.
中心静脉狭窄在血液透析血管通路患者中常常未被诊断出来,部分原因是成像困难。非侵入性的即时检测可以依靠检测由血流速度变化引起的血流紊乱区域。在此,我们展示了用于血流声音时间相关测量的柔性麦克风阵列以及一种计算频谱特征之间时间相关性的新信号处理方法。连续小波变换被用于生成听觉频谱通量分析信号,该信号经过阈值处理以识别收缩期的起始和结束阶段。麦克风阵列在血流速度为850 - 1200 mL/分钟的脉动流模型上进行了测试,并模拟了10% - 85%的狭窄情况。测量结果显示,对于具有血流动力学意义的狭窄,狭窄近端和远端部位收缩期频谱内容的时间起始出现反转(狭窄<50%时为 +22毫秒,狭窄>50%时为 -20至 -38毫秒)。在狭窄模型中计算出的等效血流速度增加为142 - 155厘米/秒,这在超声测量的生理范围内。
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