Functional development of the dorsolateral prefrontal cortex: an analysis utlizing reversible cryogenic depression

Abstract

The dorsolateral prefrontal cortex of rhesus monkeys was functionally inactivated by local hypothermia as the monkeys performed spatial delayed-response and spatial delayed-alternation tasks at different stages of postnatal development. Cryogenic depression of prefrontal cortex at a temperature sufficient to induce 21--25% decrements in delayed-response performance in 34--36-month-old-monkeys, produced deficits of only 7--8% in 19--31-month-old and no detectable loss in younger monkeys, 9--16 months of age. Delayed-alternation performance was impaired by local hypothermia as early as 8.5 months of age, but maximal cooling-induced deficits on this task were not observed before 33 months of age. Thermal gradients mapped in representative monkeys at different stages of development were remarkable similar, indicating that the age-dependent differences in behavior were not attributable to technical factors. The results obtained in the present study on normal developing monkeys confirm the interpretation of previous research on brain-damaged infants that functional maturation of the dorsolateral prefrontal cortex is protracted over several years of postnatal life, and extends the earlier studies by indicating that the lower limit for maturity of dorsolateral function is close to puberty in this species. Further, the present study revealed that delayed-response and delayed-alternation performance are dissociable dorsolateral functions which achieve maturity at different rates. The convergence of evidence from reversible neural depression and permanent lesion methods provides strong validation for neurobehavioral analysis as a general approach to the study of regional maturation of the brain.