Title :
Murine Spatiotemporal Cardiac Segmentation
Author :
Gilliam, Andrew D. ; Acton, Scott T.
Author_Institution :
Univ. of Virginia, Charlottesville
Abstract :
A promising frontier in the further understanding of cardiac dysfunction is the study of intra-myocardial mechanics, probing parameters such as myocardial strain, twist, and torsion. Techniques such as displacement encoding with stimulated echoes (DENSE) in cardiac magnetic resonance (cMR) imaging and speckle tracking in echocardiography (STE) are already providing quantitative measurements of myocardial function in a safe and non-invasive manner. However, extracting meaningful myocardial motion from the acquired imagery remains a tedious, time-consuming, and highly variable process. This research develops an automated method to recover myocardial tissue motion from murine DENSE cMR imagery. On average, the proposed automated technique is able to obtain a root mean squared error of less than a pixel when compared to semi-automatic methods.
Keywords :
biomechanics; biomedical MRI; echocardiography; image motion analysis; image segmentation; mean square error methods; medical image processing; muscle; spatiotemporal phenomena; cardiac dysfunction; cardiac magnetic resonance imaging; echocardiography; intra-myocardial mechanics; murine DENSE cMR imagery; murine spatiotemporal cardiac segmentation; myocardial tissue motion recovery; root mean squared error; speckle tracking; Displacement measurement; Echocardiography; Encoding; Image segmentation; Magnetic field induced strain; Magnetic resonance; Magnetic resonance imaging; Myocardium; Spatiotemporal phenomena; Speckle; DENSE; LV function; cardiac magnetic resonance imaging (MRI); image analysis; myocardial tagging;
Conference_Titel :
Signals, Systems and Computers, 2007. ACSSC 2007. Conference Record of the Forty-First Asilomar Conference on
Conference_Location :
Pacific Grove, CA
Print_ISBN :
978-1-4244-2109-1
Electronic_ISBN :
1058-6393
DOI :
10.1109/ACSSC.2007.4487313
