Precision and accuracy of regional radioactivity quantitation using the maximum likelihood EM reconstruction algorithm

Carson, R E; Yan, Y; Chodkowski, B; Yap, T K; Daube-Witherspoon, M E

doi:10.1109/42.310884

Title: Precision and accuracy of regional radioactivity quantitation using the maximum likelihood EM reconstruction algorithm

Journal Article · Thu Sep 01 00:00:00 EDT 1994 · IEEE Transactions on Medical Imaging (Institute of Electrical and Electronics Engineers); (United States)

DOI:https://doi.org/10.1109/42.310884· OSTI ID:6926009

Carson, R E; Yan, Y; Chodkowski, B; Yap, T K; Daube-Witherspoon, M E ^[1]

National Institutes of Health, Bethesda, MD (United States)

The imaging characteristics of maximum likelihood (ML) reconstruction using the EM algorithm for emission tomography have been extensively evaluated. There has been less study of the precision and accuracy of ML estimates of regional radioactivity concentration. The authors developed a realistic brain slice simulation by segmenting a normal subject's MRI scan into gray matter, white matter, and CSF and produced PET sinogram data with a model that included detector resolution and efficiencies, attenuation, scatter, and randoms. Noisy realizations at different count levels were created, and ML and filtered backprojection (FBP) reconstructions were performed. The bias and variability of ROI values were determined. In addition, the effects of ML pixel size, image smoothing and region size reduction were assessed. ML estimates at 1,000 iterations (0.6 sec per iteration on a parallel computer) for 1-cm[sup 2] gray matter ROIs showed negative biases of 6% [+-] 2% which can be reduced to 0% [+-] 3% by removing the outer 1-mm rim of each ROI. FBP applied to the full-size ROIs had 15% [+-] 4% negative bias with 50% less noise than ML. Shrinking the FBP regions provided partial bias compensation with noise increases to levels similar to ML. Smoothing of ML images produced biases comparable to FBP with slightly less noise. Because of its heavy computational requirements, the ML algorithm will be most useful for applications in which achieving minimum bias is important.

Cite

Export

Save

OSTI ID:: 6926009

Journal Information:: IEEE Transactions on Medical Imaging (Institute of Electrical and Electronics Engineers); (United States), Vol. 13:3; ISSN 0278-0062

Country of Publication:: United States

Language:: English

Similar Records

A maximum likelihood method for calculation of tomographic region-of-interest (ROI) values

Conference · Wed May 01 00:00:00 EDT 1985 · J. Nucl. Med.; (United States) · OSTI ID:6926009

Larson, S M; Carson, R E; Green, M V

The SRT reconstruction algorithm for semiquantification in PET imaging

Journal Article · Thu Oct 15 00:00:00 EDT 2015 · Medical Physics · OSTI ID:6926009

Gaitanis, Anastasios; Samartzis, Alexandros P.; Fokas, Athanasios S.

Region of interest evaluation of SPECT image reconstruction methods using a realistic brain phantom

Conference · Tue Dec 31 00:00:00 EST 1996 · OSTI ID:6926009

Xia, Weishi; Glick, S J; Soares, E J

Related Subjects

62 RADIOLOGY AND NUCLEAR MEDICINE
BRAIN
POSITRON COMPUTED TOMOGRAPHY
ACCURACY
ALGORITHMS
IMAGE PROCESSING
BODY
CENTRAL NERVOUS SYSTEM
COMPUTERIZED TOMOGRAPHY
DIAGNOSTIC TECHNIQUES
EMISSION COMPUTED TOMOGRAPHY
MATHEMATICAL LOGIC
NERVOUS SYSTEM
ORGANS
PROCESSING
TOMOGRAPHY
550601* - Medicine- Unsealed Radionuclides in Diagnostics

Title: Precision and accuracy of regional radioactivity quantitation using the maximum likelihood EM reconstruction algorithm

Citation Formats

Similar Records

Related Subjects