Title :
Prospects for quantitative CT imaging in the presence of foreign metal bodies using statistical image reconstruction
Author :
Williamson, J.F. ; Whiting, B.R. ; Benac, J. ; Murphy, R.J. ; Blaine, G.J. ; O´Sullivan, J.A. ; Politte, D.G. ; Snyder, D.L.
Author_Institution :
Dept. of Radiat. Oncology, Washington Univ., St. Louis, MO, USA
Abstract :
Radiation oncology treatment planning presents several challenges to CT imaging, including imaging in the presence of complex metal intracavitary applicators and the need to noninvasively measure photon cross sections. Using synthetic sinograms in which noise, a polyenergetic spectrum, and scatter are modeled, the performance of three algorithms is compared: filtered back projection, deterministic iterative deblurring, and a modern model-based stochastic iterative reconstruction technique. The model-based algorithm performs well, but requires knowledge of metal object locations and shapes to fully eliminate streaking artifacts.
Keywords :
computerised tomography; dosimetry; filtering theory; image reconstruction; image restoration; iterative methods; medical image processing; radiation therapy; statistical analysis; stochastic processes; algorithms; complex metal intracavitary applicators; deterministic iterative deblurring; dose calculation; filtered back projection; foreign metal bodies; metal object locations; metal object shapes; model-based algorithm; model-based stochastic iterative reconstruction technique; noise; photon cross sections; polyenergetic spectrum; quantitative CT imaging; radiation oncology treatment planning; scatter; statistical image reconstruction; streaking artifacts; synthetic sinograms; Applicators; Computed tomography; Electromagnetic scattering; Image reconstruction; Iterative algorithms; Noise shaping; Oncology; Particle scattering; Shape; Stochastic resonance;
Conference_Titel :
Biomedical Imaging, 2002. Proceedings. 2002 IEEE International Symposium on
Print_ISBN :
0-7803-7584-X
DOI :
10.1109/ISBI.2002.1029341
