Multiple and interrelated functional asymmetries in rat brain

Normal rats rotate (turn in circles) at night and in response to drugs (e.g. d-amphetamine) during the day. Rats with known circling biases were injected with [1,2-³H]-deoxy-d-glucose, decapitated and glucose utilization was assessed in several brain structures. Most structures showed evidence of functional brain asymmetry. Asymmetries were of three different kinds: (1) a difference in activity between sides of the brain contralateral and ipsilateral to the direction of rotation (midbrain, striatum); (2) a difference in activity between left and right sides (frontal cortex, hippocampus); and (3) an absolute difference in activity between sides that was correlated to the rate of either rotation (thalamus, hypothalamus) or random movement (cerebellum). Amphetamine, administered 15 minutes before a deoxyglucose injection in other rats, altered some asymmetries (striatum, frontal cortex, hippocampus) but not others (midbrain, thalamus, hypothalamus, cerebellum). Different asymmetries appear to be organized along different dimensions in both the rat and human brains.