Quantitative investigation of in vitro flow using three-dimensional colour Doppler ultrasound
- 作者:Guo ; Zhenyu ; Moreau ; Michel ; Rickey ; Daniel W. ; Picot ; Paul A. ; Fenster ; Aaron
- 关键词:3D colour Doppler ultrasound ; Quantitative flow measurement ; Vascular phantom ; Wall shear stress ; Flow visualization ; Velocity accuracy
- 刊名:Ultrasound in Medicine and Biology
- 出版年:1995
- 期刊代码:82_03015629
- 类别:ph
- 出版时间:1995
- 卷:21
- 期:6
- 页码:807-816
- 文件大小:860 K
摘要
A quantitative in vitro flow study was performed by using a three-dimensional colour Doppler imaging system. This system was based on a clinical ultrasound instrument with its transducer mounted on a motor-driven translation stage. A vascular and tissue-mimicking phantom containing two wall-less vessels, one normal and another stenotic, was used to quantify the measurement accuracy of the flow velocity and the flow field. Steady state flows, having Reynolds numbers ranging between 460 and 1300, were generated by a computer-controlled positive displacement pump. Effects of the parameter settings of the ultrasound instrument on results of the estimation of flow field were also studied. Experimental results show that our three-dimensional colour Doppler system's velocity accuracy was better than 7%of the Nyquist velocity and its spatial accuracy was better than 0.5 mm. The system showed a good correlation (r = 0.999) between the estimated and the true mean flow velocity, and a good correlation (r = 0.998) between the estimated maximum and the true mean flow velocity. This study is our first step toward validating the measurement of the three-dimensional velocity and wall shear stress distributions by using three-dimensional colour Doppler ultrasound.