Title :
Two-dimensional blood flow vectors obtained with bidirectional Doppler ultrasound
Author :
Masuno, Genta ; Nagaoka, Ryo ; Omori, Aiko ; Ishikawa, Yozo ; Akagawa, Osamu ; Arakawa, Mototaka ; Saijo, Yoshifumi
Author_Institution :
Grad. Sch. of Biomed. Eng., Tohoku Univ., Sendai, Japan
Abstract :
Precise measurement of blood flow is important because blood flow closely correlates formation of thrombus and atherosclerotic plaque. Among clinically applied modalities for blood flow measurement, color Doppler ultrasound shows two-dimensional (2D) distribution of one-dimensional blood flow component along the ultrasound beam. In the present study, 2D blood flow vector is obtained with high temporal and bidirectional Doppler ultrasound technique. Linear array probe with the central frequency of 7.5 MHz and an ultrasound data acquisition system with 128 transmit and 128 receive channels were equipped. Frame rate of 5 kHz was achieved by parallel receive beam forming with a wide transmitted wave. The flow velocity was measured from two different angles by beam steering. The interval of two measurements was 0.8 msec and it was considered as almost one moment to obtain 2D blood flow vector. B-mode image and 2D blood flow vector of the pulsatile flow in a carotid artery model showed small vortex at the bifurcation area. The method was also applied for visualization of in vivo blood flow vector in human carotid arteries. 2D blood flow measurement may predict the risk area of thrombus and plaque formation induced by abnormal blood flow.
Keywords :
Doppler measurement; array signal processing; bifurcation; biomedical ultrasonics; blood flow measurement; blood vessels; cardiovascular system; data acquisition; diseases; medical image processing; physiological models; pulsatile flow; vortices; 2D blood flow measurement; 2D blood flow vector; B-mode image; abnormal blood flow; atherosclerotic plaque; beam steering; bidirectional Doppler ultrasound technique; bifurcation area; carotid artery model; central frequency; color Doppler ultrasound; flow velocity; frame rate; frequency 5 kHz; frequency 7.5 MHz; high temporal Doppler ultrasound technique; human carotid arteries; in vivo blood flow vector visualization; linear array probe; one-dimensional blood flow component; parallel receive beam forming; plaque formation; pulsatile flow; receive channels; small vortex; thrombus formation; thrombus risk area; time 0.8 ms; transmit channels; transmitted wave; two-dimensional blood flow vector; two-dimensional distribution; ultrasound beam; ultrasound data acquisition system; Blood flow; Carotid arteries; Doppler effect; Fluid flow measurement; Ultrasonic imaging; Ultrasonic variables measurement; Vectors;
Conference_Titel :
Engineering in Medicine and Biology Society (EMBC), 2014 36th Annual International Conference of the IEEE
Conference_Location :
Chicago, IL
DOI :
10.1109/EMBC.2014.6944770
