Background:Fluorine-18-2-deoxy-D-glucose([18F]FDG)has been widespread used in tumor detection. This study investigated the dynamic accumulation and the distribution of[18F]FDG in human thyroid cancer bearing nude mice with INER ARO-PET(Animal Rotating PET)scan and autoradiography. Methods: Human thyroid cancer cells were subcutaneously inoculated into 2 nude mice and allowed to grow for 2 months. The mice were anesthetized with pentobarbital(65mg/kg;ip),followed by administration of[18F]FDG through the tail vein. The injected dose of[18F]FDG was 520μCi to one mouse, and 620μCi to theother. Only the plannar images were acquired using the upper and lower detectors of the ARO-PET system for dynamic study. The ARO-PET scanner acquired 30sec/frame dynamic planar images, with 35×31 matrix size ,for 4h.Immediately after the dynamic image acquisition , the mice were sacrificed for micro-autoradiography and histopathological examination with H&E staining. A time-activity curve was generated by drawningregions of interest over the tumor and the contralateral side of thigh as the background control. Results: Dynamic image analyses showed a progressive and consistent increase in the uptake of[18F]FD FDG up to 4h after injection of the radiotracer. The uptake of[18F]FDG by the thyroid cancer was approximately twice higher than that observed on the background control. Inconsistent with the observed uptake of[18F]FDG by ARO-PET, micro-autoradiography showed density of silver grains in the tumor and surrounding granulation tissue. Conclusion: Dynamic analyses of[18F]FDG planar imaging demonstrated progressive accumulation of[18F]FDG in human thyroid tumors. The tumor uptake was about twice higher than the background at 4h after injection of the radiotracer. Tumor uptake of[18F]FDG was confirmed by micro-autoradiography performed on the same animal. The present studies suggest that the ARO-PET scanner can be used for[18F]FDG dynamic distribution studies in small animals by a planar mode of imaging acquisition.