Validation of attenuation correction using transmission truncation compensation with a small field of view dedicated cardiac SPECT camera system

Although attenuation correction (AC) has been successfully applied to large field of view (LFOV) cameras, applicability to small field of view (SFOV) cameras is a concern due to truncation. This study compared perfusion images between a LFOV and SFOV camera with truncation compensation, using the same AC solution. Seventy-eight clinically referred patients underwent rest-stress single-photon emission computed tomography (SPECT) using both a SFOV and LFOV camera in a randomized sequence. Blinded images were interpreted by a consensus of three experienced readers. The percentage of normal images for SFOV and LFOV was significantly higher with than without AC (72% vs 44% and 72% vs 49%, both P < .001). Interpretive agreement between cameras was better with than without AC (kappa = 0.736 to 0.847 vs 0.545 to 0.774). Correlation for the summed stress score was higher with than without AC (r (2) = 0.892 vs 0.851, both P < 0.001) while Bland Altman analysis demonstrated narrower limits with than without AC (4.0 to -4.3 vs 5.9 to -5.6). Attenuation correction using truncation compensation with a SFOV camera yields similar results to a LFOV camera. The higher interpretive agreement between cameras after attenuation correction suggests that such images are preferable to non-attenuation-corrected images.