RT Journal Article SR Electronic T1 Quantitative Assessment of the Influence of Location, Internal Temperature, Idle Time, and Normalization on the Sensitivity of a Mobile PET/CT Scanner JF Journal of Nuclear Medicine Technology JO J. Nucl. Med. Technol. FD Society of Nuclear Medicine SP 147 OP 150 DO 10.2967/jnmt.108.052555 VO 36 IS 3 A1 Belakhlef, Sam A1 Church, Cliff A1 Hays, Allison A1 Fraser, Ron A1 Lakhanpal, Suresh YR 2008 UL http://tech.snmjournals.org/content/36/3/147.abstract AB The superiority of PET/CT and 18F-FDG imaging in cancer assessment has created the need in rural community hospitals to acquire this technology. However, high cost and lack of patient volume have prohibited these institutions from attaining in-house scanners. By using mobile PET/CT scanners, small rural hospitals are able to deliver this valuable clinical tool to their patients. As mobile PET/CT scanners are shifted from one site to another, however, they are exposed to harsher and frequently varying ecologic conditions that can alter their performance. Because of the importance of the standardized uptake value in cancer evaluation and its linear relationship to the sensitivity of the scanner, we investigated conditions affecting the sensitivity of the mobile PET/CT scanner. Methods: We used a 68Ge cylindric phantom with 2 bed frames scanned for 3 min each to simulate a patient to assess quantitatively the influence of location, increase in scanner internal temperature, idle time, and normalization on the sensitivity of the mobile PET/CT scanner. The raw phantom data were acquired and reconstructed with the parameters used for oncology patients. The scanner sensitivity values (Bq/mL) were obtained from circular regions of interest drawn on the phantom images. These values were compared with the true phantom activity concentration after it was decay-corrected to the specific scanning day. Results: The average sensitivity errors (mean ± SD) of this mobile PET/CT scanner at sites 1–4 were 1.84% ± 0.98%, 2.43% ± 2.05%, 2.08% ± 0.91%, and 4.34% ± 1.93%, respectively. A 41.17% increase in the scanner internal temperature decreased its sensitivity by an average of 16.09% ± 3.58%. After day 1 and day 2, its average sensitivity errors were 3.27% ± 0.01% and 2.65% ± 0.02%, respectively. Before and after normalization, the average sensitivity errors were 3.06% ± 1.37% and 2.69% ± 1.69%, respectively. Conclusion: Temperature and normalization affected the sensitivity of the scanner the most and should be monitored closely, with normalization performed as recommended by the manufacturer.