Cerebral metabolic changes in Alzheimer's disease: neurobehavioral patterns.

Regional cerebral glucose metabolism was surveyed in 37 Alzheimer's disease (AD) patients and 21 normal controls using positron emission tomography. Where possible, brain regions were specified according to their neurobehavioral function rather than as anatomically demarcated structures. Absolute metabolic values revealed significant differences (p < 0.05) between AD patients and controls for whole brain and the more superior supratentorial brain slices. Normalized values (region/brain stem) showed the most striking declines (p < 0.001) in the association cortex (heteromodal region -21%; unimodal region -19%) and the primary sensory-motor cortex (-13%), with motor, auditory, and visual areas more affected than somatosensory areas. Limbic and paralimbic systems were equally affected (-14%; -11%; p < 0.001). Thalamus, striatum, cerebellum and brain stem were minimally or not affected. Neurobehaviorally defined hypometabolic regions largely parallel affected areas noted in anatomic and previous metabolic studies, with the possible exception of metabolic deficits in the primary sensory-motor complex. Conceivably, brain areas unaffected morphologically by the pathophysiological processes of AD may become dysfunctional due to a disruption of connectivity between regions.