Myocardial motion estimation in gated-MRI using optical flow refined with scale-space

Author

Gutierrez, M.A. ; Rebelo, M.S. ; Furuie, S.S. ; Melo, C.P. ; Moura, L. ; Avila, L. ; Parga, J.R.

Author_Institution

InCor-Sao Paulo Heart Inst., Brazil

fYear

1997

fDate

7-10 Sep 1997

Firstpage

153

Lastpage

156

Abstract

Although MR imaging techniques are able to show cardiac motion qualitatively, no information is provided about motion of the tissue within the epicardial and endocardial boundaries using standard procedures. This work describes a method to quantify the myocardial motion from 3D MR images based on Optical Flow technique. To improve derivatives estimation, a fundamental step in any Optical Flow implementation, the authors applied the one parameter Gaussian derivative operator, obtained from the scale-space approach. The method quantifies the 3D LV motion by a series of 3D velocity vector fields and this vectorial information is used to estimate the scalar parameter. Myocardial kinetic energy. The evolution of the kinetic energy parameter during the cardiac cycle may represent the cardiac conditions

Keywords

biomechanics; biomedical NMR; cardiology; image sequences; medical image processing; motion estimation; 3D MR images; MR imaging techniques; cardiac conditions; gated-MRI; kinetic energy parameter evolution; medical diagnostic imaging; myocardial motion estimation; one parameter Gaussian derivative operator; refined optical flow; scale-space; Biomedical optical imaging; Heart; Image motion analysis; Kinetic energy; Magnetic resonance imaging; Motion estimation; Myocardium; Nuclear magnetic resonance; Radio frequency; Tellurium;

fLanguage

English

Publisher

ieee

Conference_Titel

Computers in Cardiology 1997

Conference_Location

Lund

ISSN

0276-6547

Print_ISBN

0-7803-4445-6

Type

conf

DOI

10.1109/CIC.1997.647853

Filename

647853