Cardiac SPECT is typically performed clinically with static imaging protoco
ls and visually assessed for perfusion defects based upon the relative inte
nsity of myocardial regions. Dynamic imaging, however, has the potential to
provide quantitative measures of flow, possibly improving diagnosis. The o
bjective of this study was to compare the information content of dynamic an
d static thallium SPECT imaging as measures of myocardial perfusion. Studie
s were performed in four canines, each with an occlusion placed on the left
anterior descending coronary artery. Dynamic SPECT imaging was performed a
t rest and under adenosine stress, and subsets of the data were summed to p
rovide corresponding static datasets for identical physiologic conditions.
Microsphere-derived flow measurements were used as the gold standard. The d
ynamic data were fit to a two-compartment model to provide regional estimat
es of wash-in rate parameters. Occluded-to-normal ratios were also calculat
ed for each canine study. The results show comparable correlations with mic
rospheres for both wash-in and static scaled image intensities. The dynamic
data provided higher defect contrasts, which were more accurate than the s
tatic occluded to normal ratios. Preliminary studies were also performed in
two patients and the static and dynamic data compared. These results show
that dynamic thallium imaging may provide improved diagnostic information c
ompared to static imaging for myocardial perfusion SPECT studies.