Abstract

We have recently developed a combined PET and CT scanner which allows, for the first time, registered CT and PET images to be acquired sequentially in a single device, overcoming alignment problems due to internal organ movement, variations in scanner bed profile, and positing of the patient for the scan. The PET/CT combines a Siemens Somatom AR.SP spiral CT scanner with a rotating EVAT ART PET scanner. To date, the PET/CT scanner has been used to study over sixty cancer patients.
The aims of this competitive continuation are to extend the development and validation of the CT-based attenuation correction and to implement a new acquisition and image reconstruction procedures involving continuous patient bed motion. In order to achieve good signal-to-noise (SNR) for imaging any region of the body, it is proposed to improve both the CT-based attenuation correction procedure and the uniformity of the noise structure in the PET emission scan. CT-based attenuation correction provides almost noiseless correction factors. However, a number of aspects have emerged in which CT-based attenuation correction could be significantly improved. These include accounting for the effects of respiratory motion, truncation of the CT field-of-view, beam hardening, and intravenous contrast agents. In addition, validation of the CT-based correction will be performed by comparing emission scans reconstructed with CT-based factors to emission images reconstructed with factors obtained from standard PET transmission scans. For this purpose, the PET/CT scanner is equipped with collimated cesium point sources operating in singles mode. Further improvement in SNR can also be achieved by implementing continuous bed motion acquisition for the PET emission scan. Such an approach obviates the need to acquire overlapping bed positions that lead to axially varying SNR and lower overall efficiency. A feature of continuous bed motion will be the use of list mode data acquisition, which also offers the possibility of directly correcting for patient movement during the scan. The proposed developments in methodology will further improve the image quality of PET/CT studies.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA065856-05
Application #
6376116
Study Section
Diagnostic Radiology Study Section (RNM)
Project Start
1995-07-01
Project End
2003-03-31
Budget Start
2001-04-01
Budget End
2002-03-31
Support Year
5
Fiscal Year
2001
Total Cost
$319,768
Indirect Cost

  Institution

Name
University of Pittsburgh
Department
Radiation-Diagnostic/Oncology
Type
Schools of Medicine
DUNS #
053785812
City
Pittsburgh
State
PA
Country
United States
Zip Code
15213

  Publications

Townsend, David W (2008) Combined positron emission tomography-computed tomography: the historical perspective. Semin Ultrasound CT MR 29:232-5
Townsend, David W (2008) Positron emission tomography/computed tomography. Semin Nucl Med 38:152-66
Townsend, D W (2008) Multimodality imaging of structure and function. Phys Med Biol 53:R1-R39
Townsend, David W (2008) Dual-modality imaging: combining anatomy and function. J Nucl Med 49:938-55
Townsend, D W (2004) Physical principles and technology of clinical PET imaging. Ann Acad Med Singapore 33:133-45
Townsend, David W (2004) From 3-D positron emission tomography to 3-D positron emission tomography/computed tomography: what did we learn? Mol Imaging Biol 6:275-90
Townsend, David W; Carney, Jonathan P J; Yap, Jeffrey T et al. (2004) PET/CT today and tomorrow. J Nucl Med 45 Suppl 1:4S-14S
Beyer, T; Townsend, D W; Blodgett, T M (2002) Dual-modality PET/CT tomography for clinical oncology. Q J Nucl Med 46:24-34
Townsend, David W; Beyer, Thomas (2002) A combined PET/CT scanner: the path to true image fusion. Br J Radiol 75 Spec No:S24-30
Comtat, Claude; Kinahan, Paul E; Fessler, Jeffrey A et al. (2002) Clinically feasible reconstruction of 3D whole-body PET/CT data using blurred anatomical labels. Phys Med Biol 47:1-20

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