This retrospective study investigated the feasibility of short-duration 18F-FDG PET/CT imaging for underweight patients with lung cancer. Methods: Short-duration imaging conditions were established so that the noise-equivalent count density satisfied the reference level proposed by the Japanese Society of Nuclear Medicine. Results: Scan time could be reduced from 120 to 52 s/bed position (a 57% reduction) by optimizing Bayesian penalized likelihood (Q.Clear) reconstruction parameters using a β of 650 while preserving image noise levels similar to those in standard-duration imaging (β = 350). Although SUVmax decreased under the shorter-scan condition, the change in SUVpeak was approximately -5% for lesions with diameters of more than 20 mm. Conclusion: The acquisition time for 18F-FDG PET for underweight lung cancer patients can be shortened by 57% without compromising image quality. SUVpeak appears to be a reliable, robust quantitative metric for evaluating larger lesions under such conditions.
Sagara et al. (Tue,) studied this question.