Focal traumatic brain injury causes widespread reductions in rat brain norepinephrine turnover from 6 to 24 h.

The effect of right sensorimotor traumatic brain injury (TBI) in male Sprague-Dawley rats on brain norepinephrine (NE) turnover was assessed by measuring the decline of endogenous NE levels following tyrosine hydroxylase inhibition produced with alpha-methyl-p-tyrosine. Right sensorimotor cortex contusions were produced by a pneumatically driven piston which depressed the dural surface by 2 mm at 3.2 m/s. TBI rats were compared to uninjured, anesthetized controls at 6 h and 24 h after surgery. While NE turnover was not affected at the lesion site at 6 h after TBI, it was either abolished or decreased by 33-75% bilaterally in the hypothalamus and in the cerebral cortex surrounding and rostral to the lesion site. In the cortex caudal to the lesion site, NE turnover was completely abolished. NE turnover in cerebral cortex opposite the lesion site and in the contralateral cerebellum was decreased by 51 and 43%, respectively, at 6 h. At 24 h, NE turnover was either abolished or decreased bilaterally by 45-92% in all cortical areas, in the hypothalamus, cerebellum, locus coeruleus and medulla. Thus, right sensorimotor cortex contusion causes a marked, early and widespread depression of brain NE turnover. Since amphetamine increases NE turnover, this may explain the dramatic improvement in behavioral deficits which occurs following amphetamine administration at 24 h after such lesions.