The investigators propose to investigate the performance of the image reconstruction software with resolution recovery correction for bone SPECT studies. The investigators estimate that in only 30 minutes, using this new technique of collimator de-blurring, one could perform a fully 3-dimensional SPECT whole-body bone study, essentially obviating the necessity for doing planar bone studies. In the scope of the proposed project, the investigators group aims to test the hypothesis that one can perform a Tc-99m whole-body SPECT study in the same time as a regular routine planar bone study, with greater localization accuracy, and greater lesion detection. To establish a "gold standard" necessary to assess the performance of the SPECT bone scans, the investigators will compare number of malignant lesions detected in patients who are proven to have metastatic skeletal bone lesions on PET F-18 whole-body scans, with whole-body Tc-99m SPECT lesions. The investigators also propose to compare the detection of SPECT scans with standard planar bone scans. This will allow for two major comparisons (a) the accuracy of SPECT bone studies compared to planar bone studies, and (b) the accuracy of SPECT bone scans compared to F-18 PET studies. Most prior studies purporting to show the superiority of F-18 bone scans to Tc-99 bone scans were done only against either planar scans or a combination of planar scans and partial SPECT studies over the spine. We anticipate that F-18 bone scans, due to the higher counting statistics of PET agents, will show more lesions than SPECT, but the exact increase in sensitivity has never been compared to whole-body SPECT scans.
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