RT Journal Article SR Electronic T1 Phantom Studies for Estimation of Defect Size on Cardiac 18F SPECT and PET: Implications for Myocardial Viability Assessment JF Journal of Nuclear Medicine JO J Nucl Med FD Society of Nuclear Medicine SP 1579 OP 1585 VO 42 IS 10 A1 Matsunari, Ichiro A1 Yoneyama, Tatsuya A1 Kanayama, Sugako A1 Matsudaira, Masamichi A1 Nakajima, Kenichi A1 Taki, Junichi A1 Nekolla, Stephan G. A1 Tonami, Norihisa A1 Hisada, Kinichi YR 2001 UL http://jnm.snmjournals.org/content/42/10/1579.abstract AB SPECT with 18F-FDG has emerged as an alternative to dedicated PET for the assessment of myocardial viability. However, whether FDG SPECT can reliably quantify the extent of viable and scarred myocardium is uncertain. The aim of this study was to investigate whether SPECT with an 18F-labeled agent would provide information on defect size similar to that provided by dedicated PET. Methods: Imaging was performed using an elliptic cylinder chest phantom with simulated bone, lung, mediastinum, liver, and heart. 18F was administered into the myocardium, mediastinum, right and left ventricular cavities, and liver. Plastic inserts (n = 11) ranging in size from 2% to 60% of the myocardium were used to simulate transmural myocardial infarctions. The chest phantom was imaged with a dedicated PET camera and with a double-head SPECT camera equipped with ultra-high-energy collimators. Both SPECT and PET data were analyzed using a semiquantitative polar map approach. Defects were quantified using various cutoff thresholds ranging from 30% to 80% of peak activity and were expressed as a percentage of the left ventricular myocardium. Defect size as measured by SPECT or PET was compared with true defect size. Results: The measured SPECT defect size was highly variable depending on the cutoff used, whereas PET defect size was relatively constant over the range of cutoffs tested. The mean absolute difference between measured and true defect sizes was minimal at a cutoff of 50% of peak activity for both SPECT (3.3% ± 3.3%) and PET (2.7% ± 2.5%). For this threshold, both SPECT and PET measurements showed an excellent correlation with true defect size (r = 0.98 for SPECT and 0.99 for PET). The correlation between SPECT and PET measurements was also excellent (r = 0.99; P < 0.01). Conclusion: If an appropriate threshold is used to define a defect, SPECT with an 18F-labeled agent can accurately measure defect size similarly to the manner of PET.