Hemodynamic Quantitative Analysis Based on Doppler Ultrasound for Arteriovenous Shunt Stenosis Screening

Clinically, arteriovenous shunt (AVS) stenosis results in turbulent and pulsatile flow because of high resistance and pressure within a narrowed space inside a stenotic access. Palpation and ultrasound methods are primarily used (first-line examination) to rapidly screen the risk of the degree of st...

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Published in	IEEE access Vol. 7; pp. 171765 - 171775
Main Authors	Wu, Jian-Xing, Chen, Pi-Yun, Liu, Hsiao-Chuan, Lin, Chia-Hung, Chen, Shigao, Shung, K. Kirk
Format	Journal Article
Language	English
Published	Piscataway IEEE 2019 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Blood flow Blood vessels Decision analysis Decision trees degree of stenosis Diameters Dimensionless numbers Doppler effect Doppler ultrasound Flow resistance Flow velocity Fluid dynamics Fluid flow Frequency measurement Hemodialysis Hemodynamics High resistance Machine learning Quantitative analysis quantitative hemodynamic analysis resistive index Reynolds number supracritical Reynolds number Transducers Turbulent flow Ultrasonic imaging Ultrasonic methods Ultrasonic testing Ultrasonic variables measurement
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ISSN	2169-3536 2169-3536
DOI	10.1109/ACCESS.2019.2955742

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Abstract	Clinically, arteriovenous shunt (AVS) stenosis results in turbulent and pulsatile flow because of high resistance and pressure within a narrowed space inside a stenotic access. Palpation and ultrasound methods are primarily used (first-line examination) to rapidly screen the risk of the degree of stenosis (DOS). Therefore, quantitative hemodynamic analysis involving Doppler ultrasound is performed in patients suffering from AVS stenosis and undergoing long-term hemodialysis. Doppler ultrasound with a center frequency of 7.5 MHz can provide substantial resolution and sensitivity to the measurement of blood flow velocity within a range of depth of 20.0-30.0 mm and a scan diameter of 10.0 mm. A hemodynamic method is used to analyze blood flow through a hemodialysis access in terms of dimensionless numbers. In this study, velocities were measured using Doppler ultrasound at three specific sites in vessels, namely, arterial anastomosis, loop, and venous anastomosis sites. Dimensionless numbers, such as supracritical Reynolds numbers, critical peak Reynolds numbers, and resistive indices, are determined in accordance with parallel conditional expression-based rules to create decision trees for the rapid screening of the DOS at the abovementioned specific sites. For the enrolled subjects, results demonstrate that noninvasive hemodynamic analysis with Doppler ultrasound measurements and parallel decision trees has potential for the efficient screening of the DOS in patients suffering from AVS stenosis and undergoing long-term hemodialysis. Experimental results also indicate that the hit and true-positive rates of the proposed screening method in clinical indication are higher than those of the machine learning method.
AbstractList	Clinically, arteriovenous shunt (AVS) stenosis results in turbulent and pulsatile flow because of high resistance and pressure within a narrowed space inside a stenotic access. Palpation and ultrasound methods are primarily used (first-line examination) to rapidly screen the risk of the degree of stenosis (DOS). Therefore, quantitative hemodynamic analysis involving Doppler ultrasound is performed in patients suffering from AVS stenosis and undergoing long-term hemodialysis. Doppler ultrasound with a center frequency of 7.5 MHz can provide substantial resolution and sensitivity to the measurement of blood flow velocity within a range of depth of 20.0-30.0 mm and a scan diameter of 10.0 mm. A hemodynamic method is used to analyze blood flow through a hemodialysis access in terms of dimensionless numbers. In this study, velocities were measured using Doppler ultrasound at three specific sites in vessels, namely, arterial anastomosis, loop, and venous anastomosis sites. Dimensionless numbers, such as supracritical Reynolds numbers, critical peak Reynolds numbers, and resistive indices, are determined in accordance with parallel conditional expression-based rules to create decision trees for the rapid screening of the DOS at the abovementioned specific sites. For the enrolled subjects, results demonstrate that noninvasive hemodynamic analysis with Doppler ultrasound measurements and parallel decision trees has potential for the efficient screening of the DOS in patients suffering from AVS stenosis and undergoing long-term hemodialysis. Experimental results also indicate that the hit and true-positive rates of the proposed screening method in clinical indication are higher than those of the machine learning method.
Author	Shung, K. Kirk Lin, Chia-Hung Chen, Shigao Wu, Jian-Xing Chen, Pi-Yun Liu, Hsiao-Chuan
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SubjectTerms	Blood flow Blood vessels Decision analysis Decision trees degree of stenosis Diameters Dimensionless numbers Doppler effect Doppler ultrasound Flow resistance Flow velocity Fluid dynamics Fluid flow Frequency measurement Hemodialysis Hemodynamics High resistance Machine learning Quantitative analysis quantitative hemodynamic analysis resistive index Reynolds number supracritical Reynolds number Transducers Turbulent flow Ultrasonic imaging Ultrasonic methods Ultrasonic testing Ultrasonic variables measurement
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Title	Hemodynamic Quantitative Analysis Based on Doppler Ultrasound for Arteriovenous Shunt Stenosis Screening
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