DocumentCode
2002948
Title
Implementation and applications of a combined CT/SPECT system
Author
Hasegawa, B.H. ; Tang, H.R. ; Da Silva, A.J. ; Iwata, K. ; Wu, M.C. ; Wong, K.H.
Author_Institution
UCSF Phys. Res. Lab., California Univ., San Francisco, CA, USA
Volume
3
fYear
1999
fDate
1999
Firstpage
1373
Abstract
Combined radionuclide/radiographic (e.g., SPECT/CT, PET/CT) imaging systems are being developed for correlation of structure and function, primarily for assessment of patients with cancer. Another important aspect of these approaches is the possibility of using anatomical data from CT to derive patient-specific compensations for perturbations in the radionuclide data. For example, a patient-specific attenuation map can be derived from CT and incorporated into an iterative reconstruction algorithm to correct the radionuclide image for photon attenuation. In addition, the geometry, location, and configuration of anatomical regions can be determined using CT, from which recovery coefficients or other geometrical factors can be derived to compensate the radionuclide data for errors caused by the limited spatial resolution of radionuclide images. The use of CT to derive correction factors for these perturbations allows combined X-ray/radionuclide imaging techniques to achieve a high degree of accuracy in the absolute quantitation of radiopharmaceuticals
Keywords
cancer; compensation; computerised tomography; diagnostic radiography; image reconstruction; image registration; iterative methods; medical image processing; single photon emission computed tomography; absolute quantitation; anatomical regions; cancer patient assessment; collimator response; combined CT/SPECT system; combined X-ray/radionuclide imaging; combined radionuclide/radiographic imaging; geometrical factors; high degree of accuracy; image correction; image reconstruction; image registration software; iterative reconstruction algorithm; limited spatial resolution; myocardium; patient-specific compensations; phantom model; photon attenuation; porcine model; radionuclide data perturbations; radionuclide uptake; radiopharmaceuticals; recovery coefficients; structure-function correlation; Attenuation; Cancer; Computed tomography; Diagnostic radiography; Geometry; Positron emission tomography; Reconstruction algorithms; Single photon emission computed tomography; Spatial resolution; X-ray imaging;
fLanguage
English
Publisher
ieee
Conference_Titel
Nuclear Science Symposium, 1999. Conference Record. 1999 IEEE
Conference_Location
Seattle, WA
ISSN
1082-3654
Print_ISBN
0-7803-5696-9
Type
conf
DOI
10.1109/NSSMIC.1999.842811
Filename
842811
Link To Document