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Tracking of LV Endocardial Surface on Real-Time Three-Dimensional Ultrasound with Optical Flow

Qi Duan; Elsa D. Angelini; Susan L. Herz; Olivier Gerard; Pascal Allain; Kevin D. Costa; Christopher M. Ingrassia; Shunichi Homma; Jeffrey W. Holmes; Andrew F. Laine

Title:
Tracking of LV Endocardial Surface on Real-Time Three-Dimensional Ultrasound with Optical Flow
Author(s):
Duan, Qi
Angelini, Elsa D.
Herz, Susan L.
Gerard, Olivier
Allain, Pascal
Costa, Kevin D.
Ingrassia, Christopher M.
Homma, Shunichi
Holmes, Jeffrey W.
Laine, Andrew F.
Date:
Type:
Presentations
Department:
Biomedical Engineering
Permanent URL:
Notes:
Functional Imaging and Modeling of the Heart: Third International Workshop: FIMH 2005: Barcelona, Spain, June 2-4, 2005: Proceedings, Lecture Notes in Computer Science, Volume 3504 (Berlin: Springer, 2005), pp. 434-445.
Abstract:
Real-time three-dimensional (RT3D) ultrasound with matrix-phased array transducers enable fast, non-invasive visualization of cardiac ventricles. Segmentation of ventricular volumes on RT3D ultrasound is typically performed at end-diastole (ED) and end-systole (ES). Automation of the segmentation process and propagation of segmentation in time is challenging. In this context, a correlation-based 3D+Time optical flow algorithm was applied for tracking of myocardial surfaces. Initialization was performed with either manual tracing or QLAB© software (Philips Medical Systems).
Subject(s):
Biomedical engineering
Publisher DOI:
10.1007/11494621_43
Item views:
318
Metadata:
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