Andrew Hebrank scite author profile

With age, the brain undergoes comprehensive changes in its function and physiology. Cerebral metabolism and blood supply are among the key physiologic processes supporting the daily function of the brain and may play an important role in age-related cognitive decline. Using MRI, it is now possible to make quantitative assessment of these parameters in a noninvasive manner. In the present study, we concurrently measured cerebral metabolic rate of oxygen (CMRO(2)), cerebral blood flow (CBF), and venous blood oxygenation in a well-characterized healthy adult cohort from 20 to 89 years old (N = 232). Our data showed that CMRO(2) increased significantly with age, while CBF decreased with age. This combination of higher demand and diminished supply resulted in a reduction of venous blood oxygenation with age. Regional CBF was also determined, and it was found that the spatial pattern of CBF decline was heterogeneous across the brain with prefrontal cortex, insular cortex, and caudate being the most affected regions. Aside from the resting state parameters, the blood vessels' ability to dilate, measured by cerebrovascular reactivity to 5% CO(2) inhalation, was assessed and was reduced with age, the extent of which was more prominent than that of the resting state CBF.

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β-Amyloid burden in healthy aging

Rodrigue¹,

Kennedy²,

Devous³

et al. 2012

Neurology

372

313

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The Impact of Sustained Engagement on Cognitive Function in Older Adults

Park¹,

Lodi‐Smith

Drew³

et al. 2013

Psychol Sci

339

291

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In the research reported here, we tested the hypothesis that sustained engagement in learning new skills that activated working memory, episodic memory, and reasoning over a period of 3 months would enhance cognitive function in older adults. In three conditions with high cognitive demands, participants learned to quilt, learned digital photography, or engaged in both activities for an average of 16.51 hr a week for 3 months. Results at posttest indicated that episodic memory was enhanced in these productive-engagement conditions relative to receptive-engagement conditions, in which participants either engaged in nonintellectual activities with a social group or performed low-demand cognitive tasks with no social contact. The findings suggest that sustained engagement in cognitively demanding, novel activities enhances memory function in older adulthood, but, somewhat surprisingly, we found limited cognitive benefits of sustained engagement in social activities.

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Age and culture modulate object processing and object-scene binding in the ventral visual area

Goh

Chee

Tan

et al. 2007

Cognitive, Affective, & Behavioral Neuroscience

158

125

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Neural Specificity Predicts Fluid Processing Ability in Older Adults

Park¹,

Carp²,

Hebrank³

et al. 2010

Journal of Neuroscience

128

119

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We investigated whether individual differences in neural specificity-the distinctiveness of different neural representations-could explain individual differences in cognitive performance in older adults. Neural specificity was estimated based on how accurately multivariate pattern analysis identified neural activation patterns associated with specific experimental conditions. Neural specificity calculated from a same/different task on two categories of visual stimuli (faces and houses) significantly predicted performance on a range of fluid processing behavioral tasks (dot-comparison, digit-symbol, Trails-A, Trails-B, verbal-fluency) in older adults, whereas it did not correlate with a measure of crystallized knowledge (Shipley-vocabulary). In addition, the neural specificity measure accounted for 30% of the variance in a composite measure of fluid processing ability. These results are consistent with the hypothesis that loss of neural specificity, or dedifferentiation, contributes to reduced fluid processing ability in old age.

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Andrew Hebrank

Alterations in Cerebral Metabolic Rate and Blood Supply across the Adult Lifespan

β-Amyloid burden in healthy aging

The Impact of Sustained Engagement on Cognitive Function in Older Adults

Age and culture modulate object processing and object-scene binding in the ventral visual area

Neural Specificity Predicts Fluid Processing Ability in Older Adults

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