Elastic registration vs. block matching for quantification of cardiac function with 3D ultrasound: Initial results of a direct comparison in silico based on a new evaluation pipeline

This paper presents a comparison between block matching and elastic registration for the estimation of cardiac deformation and strain from 3D ultrasound. The comparison study exploits a new evaluation pipeline recently developed by the authors. The pipeline generates synthetic sequences that are extremely similar to real ultrasound recording while the synthetic cardiac motion is fully controlled by an electro-mechanical model of the heart. Hereto, five synthetic sequences were generated corresponding to one healthy heart and four ischemic ones. Elastic registration returned both the smaller tracking errors and the most robust strain estimates. Although with limitations, this study brings further evidence that the new technique might be ready for extensive clinical testing.

[1]  Frederik Maes,et al.  Influence of the Grid Topology of Free-Form Deformation Models on the Performance of 3D Strain Estimation in Echocardiography , 2013, FIMH.

[2]  Jan D’hooge,et al.  Comparison of a new methodology for the assessment of 3D myocardial strain from volumetric ultrasound with 2D speckle tracking , 2011, The International Journal of Cardiovascular Imaging.

[3]  J. D'hooge,et al.  A fast convolution-based methodology to simulate 2-Dd/3-D cardiac ultrasound images , 2009, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[4]  A. Hennemuth,et al.  3D Strain Assessment in Ultrasound (Straus): A Synthetic Comparison of Five Tracking Methodologies , 2013, IEEE Transactions on Medical Imaging.

[5]  Frederik Maes,et al.  Elastic Image Registration Versus Speckle Tracking for 2-D Myocardial Motion Estimation: A Direct Comparison In Vivo , 2013, IEEE Transactions on Medical Imaging.

[6]  M. Cerqueira,et al.  Standardized myocardial segmentation and nomenclature for tomographic imaging of the heart: A statement for healthcare professionals from the Cardiac Imaging Committee of the Council on Clinical Cardiology of the American Heart Association , 2002, The international journal of cardiovascular imaging.

[7]  M Sermesant,et al.  Preliminary specificity study of the Bestel-Clément-Sorine electromechanical model of the heart using parameter calibration from medical images. , 2013, Journal of the mechanical behavior of biomedical materials.