PET imaging of freely moving interacting rats.

Abstract Awake rat brain positron emission tomography (PET) has previously been developed to avoid the influence of anesthesia on the rat brain response. In the present work, we further the awake rat brain scanning methodology to establish simultaneous scanning of two interacting rats in a high resolution, large field of view PET scanner. Awake rat imaging methodology based on point source tracking was adapted to be used in a dedicated human brain scanner, the ECAT high resolution research tomograph (HRRT). Rats could freely run on a horizontal platform of 19.4 × 23 cm placed inside the HRRT. The developed methodology was validated using a motion resolution phantom experiment, 3 awake single rat [18F]FDG scans as well as an [18F]FDG scan of 2 interacting rats. The precision of the point source based motion tracking was 0.359 mm (standard deviation). Minor loss of spatial resolution was observed in the motion corrected reconstructions (MC) of the resolution phantom compared to the motion-free reconstructions (MF). The full-width-at-half-maximum of the phantom rods were increased by on average 0.37 mm in the MC compared to the MF. During the awake scans, extensive motion was observed with rats moving throughout the platform area. The average rat head motion speed was 1.69 cm/s. Brain regions such as hippocampus, cortex and cerebellum could be recovered in the motion corrected reconstructions. Relative regional brain uptake of MC and MF was strongly correlated (Pearson's r ranging from 0.82 to 0.95, p < 0.0001). Awake rat brain PET imaging of interacting rats was successfully implemented on the HRRT scanner. The present method allows a large range of motion throughout a large field of view as well as to image two rats simultaneously opening the way to novel rat brain PET study designs. Highlights • Brain PET scans of two interacting rats were performed in a large FOV scanner. • High speed, accurate motion tracking without additional hardware. • Motion corrected images with good spatial resolution and accurate quantification. • The method enables to study the animal brain response in a social context. [ABSTRACT FROM AUTHOR]