Abstract
3D cine DENSE MRI: Ventricular segmentation and myocardial
strain analysis
Daniel Alejandro Auger 11 February 2013
Displacement encoding with stimulated echoes (DENSE) is a quantitative magnetic
resonance imaging (MRI) technique which measures myocardial displacement at a
pixel resolution. Regional myocardial strain can then be calculated, providing a useful
clinical measure of myocardial function. Right ventricular (RV) function is difficult to
quantify because of its asymmetrical geometry, thin myocardial wall and eccentric
motion. Novel motion and strain analysis techniques using 3D cine DENSE are
presented for the RV. Three dimensional tissue tracking methods offer the ability to
quantify RV strain at a previously unattainable spatial resolution. The RV is divided
into four anatomical segments in order to provide regional measures of strain across
the cardiac cycle. Results compare favorably to previous studies, showing variation in
strain according to structure. Segmenting the myocardium from 3D cine DENSE data
is necessary for regional myocardial strain quantification. This prohibitively time
consuming step is a limiting factor for the use of 3D cine DENSE in a clinical
environment. A semi-automated left ventricular segmentation algorithm is introduced
to minimize the data analysis time. The segmentation is initialized by interactively
placing guide points along the left ventricles borders at a single cardiac phase. A
mathematical model is fitted to the points and used to generate epicardial and
endocardial surfaces. Each surface is then propagated across the cardiac cycle using
the displacement information inherent in the phase data. Segmentation results
compare well to corresponding manually defined contours, and the time required to
segment an entire three dimensional data set is reduced by 10 fold, with only 5.6% of
contours requiring readjustment. Finally, methods are presented to quantify biventricular
cardiac dyssynchrony using strain measurements obtained from multiple
planes of 2D cine DENSE data. Results illustrate the variation of regional strain
across the cardiac cycle between healthy and diseased hearts. Dyssynchrony is
quantified using time to onset and time to peak strain metrics. Results illustrate biventricular strain variations reflecting right and left bundle branch blocks.
Auger, D (2021). 3d Cine Dense Mri: Ventricular Segmentation And Myocardial Strain Analysis. Afribary. Retrieved from https://tracking.afribary.com/works/3d-cine-dense-mri-ventricular-segmentation-and-myocardial-strain-analysis
Auger, Daniel "3d Cine Dense Mri: Ventricular Segmentation And Myocardial Strain Analysis" Afribary. Afribary, 15 May. 2021, https://tracking.afribary.com/works/3d-cine-dense-mri-ventricular-segmentation-and-myocardial-strain-analysis. Accessed 18 Dec. 2024.
Auger, Daniel . "3d Cine Dense Mri: Ventricular Segmentation And Myocardial Strain Analysis". Afribary, Afribary, 15 May. 2021. Web. 18 Dec. 2024. < https://tracking.afribary.com/works/3d-cine-dense-mri-ventricular-segmentation-and-myocardial-strain-analysis >.
Auger, Daniel . "3d Cine Dense Mri: Ventricular Segmentation And Myocardial Strain Analysis" Afribary (2021). Accessed December 18, 2024. https://tracking.afribary.com/works/3d-cine-dense-mri-ventricular-segmentation-and-myocardial-strain-analysis