Title :
Fully 4D reconstruction of gated cardiac images
Author :
Gravier, Erwan ; Yang, Yongyi ; King, Michael A.
Author_Institution :
Dept. of Electr. & Comput. Eng., Illinois Inst. of Technol., Chicago, IL, USA
Abstract :
In this paper we investigate the benefits of a spatiotemporal approach for the reconstruction of cardiac image sequences. To account for the temporal correlations among the gated frames, we introduce a temporal prior based on motion compensation in an image sequence. The image sequences are reconstructed simultaneously through a maximum a posteriori (MAP) framework. To evaluate the performance of our algorithm we used signal to noise ratio, time activity curves, and a channelized Hotelling observer (CHO). We simulated gated cardiac perfusion imaging with Tc-99m-sestamibi using the 4D gated mathematical cardiactorso (gMCAT) phantom. Our experiments show that the proposed algorithm can improve both the reconstruction accuracy of the myocardium and the detectability of perfusion defects without causing significant motion-blurring.
Keywords :
cardiology; haemorheology; image reconstruction; image sequences; maximum likelihood estimation; medical image processing; motion compensation; single photon emission computed tomography; spatiotemporal phenomena; 4D gated mathematical cardiactorso phantom; Tc-99m-sestamibi; channelized Hotelling observer; fully 4D image reconstruction; gated cardiac images; gated cardiac perfusion imaging; image sequences; maximum a posteriori method; motion blurring; motion compensation; myocardium; signal-to-noise ratio; spatiotemporal approach; time activity curves; Computational modeling; Image reconstruction; Image sequences; Imaging phantoms; Motion compensation; Motion estimation; Reconstruction algorithms; Signal to noise ratio; Spatiotemporal phenomena; Tomography;
Conference_Titel :
Nuclear Science Symposium Conference Record, 2005 IEEE
Print_ISBN :
0-7803-9221-3
DOI :
10.1109/NSSMIC.2005.1596642
