Title :
Application of ultrasonic thermal imaging in IVUS systems
Author :
Shi, Y. ; Witte, R.S. ; de Ana, F.J. ; Chen, X.C. ; Xie, H. ; O´Donnell, M.
Author_Institution :
Biomed. Eng. Dept., Michigan Univ., Ann Arbor, MI, USA
Abstract :
Sudden disruption of vulnerable coronary plaque is considered by pathologists as the most frequent cause of acute coronary syndromes. These plaques are characterized by a large lipid-rich core with abundant inflammatory cells and a thin fibrous cap, which can be potentially detected with thermal strain imaging (TSI) using IVUS. A phantom experiment using an IVUS array demonstrates the concept and results agree reasonably well with predictions. The in vivo application of this technique faces the major challenge of tissue motion. We propose a practical imaging scheme to minimize mechanical strains caused by tissue motion based on a linear least squares fitting strategy. To test this scheme, thermal strains were artificially superimposed on computed mechanical strain images from clinical data, and results suggest a 1-2°C temperature rise is possible for in vivo plaque detection.
Keywords :
biological tissues; echocardiography; infrared imaging; least squares approximations; medical image processing; phantoms; ultrasonic imaging; IVUS array; IVUS systems; TSI; acute coronary syndromes; fibrous cap; in vivo plaque detection; inflammatory cells; linear least squares fitting strategy; lipid-rich core; mechanical strain; minimized mechanical strains; phantom experiment; thermal strain imaging; thermal strains; tissue motion; ultrasonic thermal imaging; vulnerable coronary plaque; Biomedical imaging; Capacitive sensors; Cardiology; Catheters; Imaging phantoms; In vivo; Lesions; Temperature dependence; Testing; Ultrasonic imaging;
Conference_Titel :
Ultrasonics Symposium, 2004 IEEE
Print_ISBN :
0-7803-8412-1
DOI :
10.1109/ULTSYM.2004.1417979
