DEVELOPMENT OF AN AFFORDABLE HI-RESOLUTION ACTIVITY MONITOR SYSTEM FOR LABORATORY-ANIMALS

We describe a hardware and software system for recording and analyzing the spatial and temporal pattern of locomotor activity of laboratory animals. The system offers maximal spatial resolution 500-fold greater than existing light beam monitors. An infrared motion analysis system s (MacReflex, Qualysis) simultaneously tracks the location of up to 20 subjects (identified by reflective markers) to within 0.04 mm at a ra te of up to 50 Hz. Macintosh software provides measures of distance tr aveled, amount of area traversed, number of position changes (microeve nts), average time between movements, number of left and right turns, number of forward movements and reversals, as well as temporal and spa tial scaling exponents. This system was validated by comparing these p arameters to direct observer scoring of video tapes and other commerci ally available activity monitors. Our findings show that applying refl ective markers to the subjects does not significantly alter activity l evels. The effect of pharmacological manipulation with d-amphetamine i s provided to show the value of the different activity parameters. The main advantages of this system are very high spatial resolution, capa city to monitoring up to 20 animals simultaneously at reasonable cost, and lack of sensitivity of the system to ambient lighting. The main l imitation is the need to apply reflective markers.