Research ArticleComputer Simulation
Factor Analysis for Extraction of Blood Time-Activity Curves in Dynamic FDG-PET Studies
Hsiao-Ming Wu, Carl K. Hoh, Yong Choi, Heinrich R. Schelbert, Randall A. Hawkins, Michael E. Phelps and Sung-Cheng Huang
Journal of Nuclear Medicine September 1995, 36 (9) 1714-1722;
Hsiao-Ming Wu
Carl K. Hoh
Yong Choi
Heinrich R. Schelbert
Randall A. Hawkins
Michael E. Phelps
This is a PDF-only article. The first page of the PDF of this article appears above.
In this issue
Factor Analysis for Extraction of Blood Time-Activity Curves in Dynamic FDG-PET Studies
Hsiao-Ming Wu, Carl K. Hoh, Yong Choi, Heinrich R. Schelbert, Randall A. Hawkins, Michael E. Phelps, Sung-Cheng Huang
Journal of Nuclear Medicine Sep 1995, 36 (9) 1714-1722;
Jump to section
Related Articles
- No related articles found.
Cited By...
- Quantification of Brain Glucose Metabolism by 18F-FDG PET with Real-Time Arterial and Image-Derived Input Function in Mice
- Discriminant Analysis of 18F-Fluorothymidine Kinetic Parameters to Predict Survival in Patients with Recurrent High-Grade Glioma
- Kinetics of 3'-Deoxy-3'-18F-Fluorothymidine During Treatment Monitoring of Recurrent High-Grade Glioma
- 1-11C-Acetate Kinetics of Prostate Cancer
- 18F-FDOPA Kinetics in Brain Tumors
- Comparison of Image-Derived and Arterial Input Functions for Estimating the Rate of Glucose Metabolism in Therapy-Monitoring 18F-FDG PET Studies
- Assessment of Myocardial Metabolism in Diabetic Rats Using Small-Animal PET: A Feasibility Study
- Minimally Invasive Method of Determining Blood Input Function from PET Images in Rodents
- In Vivo Measurement of Brain Monoamine Oxidase B Occupancy by Rasagiline, Using 11C-L-Deprenyl and PET
- Quantification of Regional Myocardial Blood Flow Using Dynamic H215O PET and Factor Analysis