Brain activation during encoding and recognition of verbal and figural information in older adults.

Positron emission tomography (PET) patterns of cerebral blood flow associated with verbal and figural memory are described in relation to their value as functional probes for studying longitudinal changes that occur in the aging brain. Relative to a matching control task, verbal and figural encoding increase blood flow in prefrontal cortex (PFC), anterior cingulate, insular, lateral and medial temporal, occipital cortex and the cerebellum. Additionally, medial temporal regions exhibited greater activity during figural encoding relative to verbal encoding.

One-year age changes in MRI brain volumes in older adults.

Longitudinal studies indicate that declines in cognition and memory accelerate after age 70 years. The neuroanatomic and neurophysiologic underpinnings of cognitive change are unclear, as there is little information on longitudinal brain changes. We are conducting a longitudinal neuroimaging study of nondemented older participants in the Baltimore Longitudinal Study of Aging.

Effects of estrogen replacement therapy on PET cerebral blood flow and neuropsychological performance.

Reports that estrogen may protect against age-associated memory decline and Alzheimer's Disease have kindled interest in the effects of estrogen replacement therapy (ERT) on cognition and brain function. As part of a 9-year study in the Baltimore Longitudinal Study of Aging, we are performing annual magnetic resonance imaging, positron emission tomography (PET), and neuropsychological assessments to examine brain structure and function in individuals aged 55 and older. PET measurements of regional cerebral blood flow (rCBF) are obtained under 3 conditions: rest and verbal and figural delayed recognition memory tasks.

Verbal and figural recognition memory: task development and age associations.

The goal of the present study was to develop and validate parallel tests of verbal and figural delayed-recognition memory with similar task demands and difficulty levels. Such tasks would allow examination of age differences and longitudinal age changes in visual recognition memory for two types of stimuli, activate divergent neural systems, and allow us to use the same procedures within the confines of functional neuroimaging as those we use in standard neuropsychological administration. The tasks introduced here include a delay between target presentation and test phase, are matched in difficulty, and yield moderate levels of performance.

Protein kinase C in the hippocampus is altered by spatial but not cued discriminations: a component task analysis.

The exact role of the mammalian hippocampus in memory formation remains essentially as an unanswered question for cognitive neuroscience. Experiments with humans and with animals indicate that some types of mnemonic associative processes involve hippocampal function while others do not. Support for the spatial processing hypothesis of hippocampal function has stemmed from the impaired performance of rats with hippocampal lesions in tasks that require spatial discriminations, but not cued discriminations.