12 October 2017 Acoustic beam anomalies in automated breast imaging
Author Affiliations +
J. of Medical Imaging, 4(4), 045001 (2017). doi:10.1117/1.JMI.4.4.045001
Abstract
In B-mode imaging of the dependent or compressed breast, wave incidence at steep angles can change propagation directions and induce areas of signal dropout. To evaluate the image anomalies in reasonable simulation times, we performed full-wave studies for center frequencies of 1 and 4 MHz. Speed of sound and density of skin, typical coupling gel, and adipose tissue were assigned to the test couplant. Compared with commercial gel, skin-like couplant reduced the dropout area at 1 and 4 MHz by 57.1% and 96.7%, respectively, consistent with a decreased average beam deflection in the breast. Conversely, the adipose-like couplant increased the dropout area from that of simulated commercial gel by 26.5% and 36.7% at 1 and 4 MHz, respectively. In addition, the skin-like couplant resulted in the greatest beam deflection inside the breast among all couplants. The findings could aid the use of three-dimensional simulations to design ultrasound couplants for beam passage through tissue boundaries at steep angles to improve corrections of signal dropout and defocusing and in compound imaging.
© 2017 Society of Photo-Optical Instrumentation Engineers (SPIE)
Rungroj Jintamethasawat, Xiaohui Zhang, Paul L. Carlson, Marilyn A. Roubidoux, Oliver D. Kripfgans, "Acoustic beam anomalies in automated breast imaging," Journal of Medical Imaging 4(4), 045001 (12 October 2017). http://dx.doi.org/10.1117/1.JMI.4.4.045001 Submission: Received 23 June 2017; Accepted 14 September 2017
Submission: Received 23 June 2017; Accepted 14 September 2017
JOURNAL ARTICLE
10 PAGES


SHARE
KEYWORDS
Skin

Breast

Acoustics

Tissues

Ultrasonography

Signal attenuation

Breast imaging

Back to Top