Wall Shear Stress Measurements Based on Ultrasound Vector Flow Imaging
Yigang Du, Alfredo Goddi, Chandra Bortolotto, Yingying Shen, Alex Dell’Era, Fabrizio Calliada, Lei Zhu
Abstract
Wall shear stress (WSS) is considered as a key factor for atherosclerosis development. Previous WSS research based on pulsed wave Doppler (PWD) showed limitations in complex flows. To improve accuracy for nonlaminar flow, a commercial ultrasound vector flow imaging (UVFI)-based WSS calculation is proposed. Errors for PWD are presented theoretically when flow is not laminar. Based on this, simulations of WSS calculations between PWD and UVFI were set up for different turbulent flows. Our simulations show that UVFI has obviously better performance than PWD in WSS calculations. Wall shear stress results in different flow conditions at carotid bifurcations are described.