Spatial memory impairments following damage to the mediodorsal nucleus of the thalamus in rhesus monkeys.

The present study assessed whether the mediodorsal nucleus (MD) of the primate thalamus subserves some of the same learning and memory functions mediated by its prefrontal cortical projection areas. Behavioral effects of MD lesions were evaluated in 14 young adult rhesus monkeys, using tests known to be sensitive to damage in different regions of the prefrontal cortex. Performance on a spatial delayed alternation task was significantly (P less than 0.

Time discrimination with positional responses after selective prefrontal lesions in monkeys.

Monkeys with ablations of the cortex in the principal sulcus who were impaired on a spatial delayed reaction test were unimpaired on a time discrimination test in which length of time since the last trial signalled the spatial position of the correct foodwell. The finding undermines the view that the classical delayed reaction deficit after lateral prefrontal lesions reflects the loss of temporal structuring of the stream of sensory input. The result is consistent instead with the alternative view that the classical deficit reflects a spatial memory disorder.

Cognitive deficit caused by regional depletion of dopamine in prefrontal cortex of rhesus monkey.

Depletion of dopamine in a circumscribed area of association cortex in rhesus monkeys produces an impairment in spatial delayed alternation performance nearly as severe as that caused by surgical ablation of the same area. This behavioral deficit can be pharmacologically reversed with dopamine agonists such as L-dopa and apomorphine. These data provide direct evidence that dopamine plays an important role in a specific cortical function.

Postnatal maturation of subcortical projections from the prefrontal cortex in the rhesus monkey.

Orbital and dorsolateral prefrontal lesions were performed on a series of rhesus monkeys at 2, 6, or 24 months of age. The consequent degeneration in the efferent pathways from these cortical regions to the caudate nucleus, the dorsomedial nucleus of the thalamus and adjacent structures was studied at 5- and 15-day survival times by a modification of the Nauta-Gygax method for tracing degenerating fibers. Following dorsolateral lesions, considerable numbers of black-impregnated degenerating fibers were found in the parvocellular division of the dorsomedial nucleus and in the fiber bundles of the internal capsule and the subcallosal fasciculus at all ages.

Primate drinking system as defined by electrical stimulation of the brain (ESB).

Four rhesus monkeys were examined by ESB for drinking sites in structures that had been previously demonstrated to support drinking behavior. Three yielded a significantly greater proportion of drinking sites than expected from the earlier study, and one yielded significantly less. As the exploration proceeded, the proportion of sites yielding drinking greatly increased in the drinkers and decreased in the nondrinker, and the ratio of stimulus-bound to nonstimulus-bound drinking sites increased in the drinkers but decreased in the nondrinker.