Evidence for task-dependent memory dysfunction in the aged monkey.

Experimentally naive adult (9-11 years old) and aged (approximately 22-26 years old) female rhesus monkeys were evaluated on 3 neuropsychological tests of memory function. Aged monkeys were impaired in a delayed response test of visuospatial memory when the retention interval of the task was increased from 0 to 10 sec. These animals performed as well as younger subjects, however, at very short delays (0 and 1 sec), when the memory demands of the task were minimal. The same subjects were then trained in a delayed nonmatching to sample (DNMS) test of visual object recognition memory. Although they required significantly more training than the younger subjects to learn the nonmatching principle of the task, aged animals were only minimally impaired when recognition memory was tested at retention intervals ranging from 10 sec to 22 hr. In contrast to their relatively intact performance on the object recognition task, aged monkeys were dramatically impaired in a second version of DNMS that required subjects to remember the temporal order in which objects were presented. These findings support the view that certain memory functions are differentially susceptible to age-dependent deterioration. Since neuropsychological studies in young subjects demonstrate that different brain regions make relatively specific contributions to learning and memory, the task-dependent deficits observed in the aged monkey are important for determining which neural structures mediate age-dependent cognitive dysfunction. According to this perspective, aged monkeys were impaired on tasks known to be sensitive to prefrontal cortical damage, but the same animals performed well on a DNMS procedure that subjects with medial temporal lobe damage fail. These results suggest that prefrontal cortical dysfunction may mediate prominent aspects of age-dependent cognitive impairment in the monkey.