@article {Vines157, author = {Douglass C. Vines and Masanori Ichise and Jeih-San Liow and Hiroshi Toyama and Robert B. Innis}, title = {Evaluation of 2 Scatter Correction Methods Using a Striatal Phantom for Quantitative Brain SPECT}, volume = {31}, number = {3}, pages = {157--160}, year = {2003}, publisher = {Society of Nuclear Medicine}, abstract = {Objective: Scatter correction is an important factor in quantitative SPECT. In this study, we evaluated 2 methods of scatter correction for brain SPECT. The first is based on thresholding the energy spectrum (ES), and the second is based on a modification of the transmission-dependent convolution subtraction (TDCS) method. Methods: SPECT imaging of a skull striatal phantom was performed using a triple-head camera with and without scatter correction. The striatal compartments were filled with 123I, and the brain shell cavity (background) was filled with varying concentrations of 123I to obtain striatal-to-background ratios of 2, 5, 10, 15, 20, and 25 to 1, respectively, which were considered to be the expected ratios. SPECT-measured ratios of striatal-to-background counts were determined with scatter correction (both ES and TDCS methods) and without scatter correction and were then compared with the expected ratios. Results: Without scatter correction, measured striatal-to-background ratios were underestimated by an average of 41.7\%, compared with the expected ratios. The ES method of scatter correction underestimated the striatal-to-background ratios by an average of 27.4\%, a significant improvement (P \< 0.04) over those without scatter correction. With the TDCS method of scatter correction, the ratios were underestimated by only 3.3\% (P \< 0.03). TDCS ratios were significantly (P \< 0.04) higher than ES ratios and were nearly identical to the expected ratios. Conclusion: These results suggest that scatter correction significantly improves the striatal-to-background ratios. The TDCS method appears to correct scatter more effectively than does the ES method for the striatal phantom, thus providing more accurate quantification.}, issn = {0091-4916}, URL = {https://tech.snmjournals.org/content/31/3/157}, eprint = {https://tech.snmjournals.org/content/31/3/157.full.pdf}, journal = {Journal of Nuclear Medicine Technology} }