Title :
Pipeline for the quantification of cardiac strain based on optical flow using 4D ultrasound data
Author :
Lorsakul, A. ; Duan, Q. ; Po, M. ; Hyodo, E. ; Wang, Y. ; Homma, S. ; Laine, A.F.
Author_Institution :
Dept. of Biomed. Eng., Columbia Univ., New York, NY, USA
Abstract :
4D ultrasound has the potential to provide complex temporal information needed for the proper diagnosis of cardiac pathologies. The objective of this study is to demonstrate a potential pipeline for the clinical evaluation of 4D cardiac strain using only 4D (RT3D) ultrasound data. First, 4D cardiac ultrasound data is collected using a Siemens SC2000 Ultrasound machine. Then, the raw Rho-Theta data is down-sampled into Cartesian space, and de-noised using an anisotropic diffusion filter. A mask of the myocardium is semi-automatically segmented, based on which a motion field is extracted using an optical flow algorithm. Finally, the computed strain measurements are overlaid on the original images and the myocardium mask.
Keywords :
biomechanics; biomedical measurement; biomedical ultrasonics; cardiology; filtering theory; image motion analysis; image segmentation; image sequences; medical image processing; ultrasonic imaging; 4D cardiac strain; 4D cardiac ultrasound; Cartesian space; anisotropic diffusion filter; cardiac pathologies; motion field; optical flow algorithm; pipeline; semi-automatic segmentation; strain measurements; Anisotropic magnetoresistance; Capacitive sensors; Data mining; Image motion analysis; Image segmentation; Myocardium; Optical filters; Pathology; Pipelines; Ultrasonic imaging;
Conference_Titel :
Bioengineering Conference, Proceedings of the 2010 IEEE 36th Annual Northeast
Conference_Location :
New York, NY
Print_ISBN :
978-1-4244-6879-9
DOI :
10.1109/NEBC.2010.5458141
