Title :
Four-dimensional processing of deformable cardiac PET data
Author :
Klein, Gregory J.
Author_Institution :
Center for Functional Imaging, California Univ., Berkeley, CA, USA
Abstract :
A 4D deformable motion algorithm is described for use in the motion compensation of gated cardiac PET. The algorithm makes use of temporal continuity and a non-uniform elastic material model to provide improved estimates of heart motion between time frames. Temporal continuity is enforced by two methods. First, a prediction motion field is calculated using an assumption of constant particle velocity between time frames. Second, incremental motion fields are used as initializations for the estimation of motion fields between distant time frames. The prediction fields augment the algorithm´s ability to estimate motion between noisy adjacent time frames, and the concatenated incremental motion fields improve estimation for large deformations. The estimated motion fields are used to establish a voxel correspondence between volumes, and produce a motion compensated composite volume
Keywords :
biomechanics; cardiology; medical image processing; motion compensation; positron emission tomography; concatenated incremental motion fields; deformable cardiac PET data; four-dimensional processing; gated cardiac PET; heart motion estimates; large deformations; medical diagnostic imaging; motion compensated composite volume; noisy adjacent time frames; nonuniform elastic material model; nuclear medicine; prediction fields; temporal continuity; voxel correspondence between volumes; Computed tomography; Cyclotrons; Deformable models; Heart; Image reconstruction; Laboratories; Motion estimation; Noise shaping; Positron emission tomography; Shape;
Conference_Titel :
Mathematical Methods in Biomedical Image Analysis, 2000. Proceedings. IEEE Workshop on
Conference_Location :
Hilton Head Island, SC
Print_ISBN :
0-7695-0737-9
DOI :
10.1109/MMBIA.2000.852369
