Computational and physical phantom setups for the second cardiac motion analysis challenge (cMAC2)

Authors:
Mathieu De Craene;Pascal Allain;Hang Gao;Adityo Prakosa;Stephanie Marchesseau;Oudom Somphone;Loic Hilpert;Alain Manrique;Hervé Delingette;Sherif Makram-Ebeid;Nicolas Villain;Jan D'hooge;Maxime Sermesant;Eric Saloux
Affiliations:
Philips Research Medisys, France;Philips Research Medisys, France;Laboratory of Cardiovascular Imaging and Dynamics, University of Leuven, Leuven, Belgium;Inria, Asclepios Research Project, Sophia Antipolis, France;Inria, Asclepios Research Project, Sophia Antipolis, France;Philips Research Medisys, France;Department of Cardiology, University Hospital of Caen, Caen, France;Department of Human Investigations, GIP Cyceron, Caen, France;Inria, Asclepios Research Project, Sophia Antipolis, France;Philips Research Medisys, France;Philips Research Medisys, France;Laboratory of Cardiovascular Imaging and Dynamics, University of Leuven, Leuven, Belgium;Inria, Asclepios Research Project, Sophia Antipolis, France;Department of Cardiology, University Hospital of Caen, Caen, France
Venue:
STACOM'12 Proceedings of the third international conference on Statistical Atlases and Computational Models of the Heart: imaging and modelling challenges
Year:
2012

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Abstract

This paper describes the data setup of the second cardiac Motion Analysis Challenge (cMac2). The purpose of this challenge is to initiate a public data repository for the benchmark of motion and strain quantification algorithms on 3D ultrasound images. The data currently includes synthetic images that combine ultrasound and biomechanical simulators. We also collected sonomicrometry curves and ultrasound images acquired on a Polyvinyl alcohol phantom.