Thomas C. Hawk scite author profile

Adult age differences are frequently observed in the performance of memory tasks, but the changes in neural function mediating these differences are largely unknown. We used (H2)15O positron emission tomography (PET) to measure changes in regional cerebral blood flow (rCBF) during Encoding, Baseline, and Retrieval conditions of a recognition memory task. Twelve young adults (20-29 years) and 12 older adults (62-79 years) participated. During each task condition, participants made a two-choice manual response to each of 64 words. Analyses of the performance data yielded evidence of age-related slowing of encoding and retrieval processes, and an age-related decline in the accuracy of yes/no recognition (d'). The rCBF activation associated with both encoding and retrieval was greater for older adults than for young adults, but this pattern was more clearly evident for memory retrieval. For young adults, rCBF activation during retrieval occurred primarily in right prefrontal cortex, whereas older adults exhibited a more bilateral pattern of prefrontal activation. Regression analyses predicting reaction time in the memory task from regional PET counts confirmed that the neural system mediating memory retrieval is more widely distributed for older adults than for young adults. Both age groups exhibited some decrease in rCBF activation in the second half of the test session, relative to the first half. The practice-related decrease in rCBF activation was more prominent for young adults, suggesting that the older adults' recruitment of additional neural systems reflects a more continual allocation of attention to support task performance.

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PET Studies of the Influences of Nicotine on Neural Systems in Cigarette Smokers

Rose¹,

Behm²,

Westman³

et al. 2003

AJP

123

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Brain Morphological Changes and Early Marijuana Use

Wilson

Mathew

Turkington

et al. 2000

Journal of Addictive Diseases

245

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Increasing Uptake Time in FDG-PET: Standardized Uptake Values in Normal Tissues at 1 versus 3 h

et al. 2008

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On FDG imaging at 3 h compared to 1 h, significant changes were apparent, but the magnitude of changes was modest overall. Three-hour delayed imaging demonstrated significantly lower aortic blood pool and adipose tissue activity and significantly higher cerebellum, muscle, spleen, and bone marrow activity. Hepatic and lung activities were not significantly different. These results suggest that previously reported improvements in tumor image contrast with delayed imaging may be primarily due to cumulative FDG uptake within the tumor rather than reduction in normal background activity.

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Time course of tetrahydrocannabinol-induced changes in regional cerebral blood flow measured with positron emission tomography

Mathew

Wilson

Turkington

et al. 2002

Psychiatry Research: Neuroimaging

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Thomas C. Hawk

Adult age differences in the functional neuroanatomy of verbal recognition memory

PET Studies of the Influences of Nicotine on Neural Systems in Cigarette Smokers

Brain Morphological Changes and Early Marijuana Use

Increasing Uptake Time in FDG-PET: Standardized Uptake Values in Normal Tissues at 1 versus 3 h

Time course of tetrahydrocannabinol-induced changes in regional cerebral blood flow measured with positron emission tomography

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