Hippocampal blood flow rapidly and preferentially increases after a bout of moderate-intensity exercise in older adults with poor cerebrovascular health.
Jacqueline A PalmerJill K MorrisSandra A BillingerRebecca J LeppingLaura MartinZachary GreenEric D VidoniPublished in: Cerebral cortex (New York, N.Y. : 1991) (2022)
Over the course of aging, there is an early degradation of cerebrovascular health, which may be attenuated with aerobic exercise training. Yet, the acute cerebrovascular response to a single bout of exercise remains elusive, particularly within key brain regions most affected by age-related disease processes. We investigated the acute global and region-specific cerebral blood flow (CBF) response to 15 minutes of moderate-intensity aerobic exercise in older adults (≥65 years; n = 60) using arterial spin labeling magnetic resonance imaging. Within 0-6 min post-exercise, CBF decreased across all regions, an effect that was attenuated in the hippocampus. The exercise-induced CBF drop was followed by a rebound effect over the 24-minute postexercise assessment period, an effect that was most robust in the hippocampus. Individuals with low baseline perfusion demonstrated the greatest hippocampal-specific CBF effect post-exercise, showing no immediate drop and a rapid increase in CBF that exceeded baseline levels within 6-12 minutes postexercise. Gains in domain-specific cognitive performance postexercise were not associated with changes in regional CBF, suggesting dissociable effects of exercise on acute neural and vascular plasticity. Together, the present findings support a precision-medicine framework for the use of exercise to target brain health that carefully considers age-related changes in the cerebrovascular system.
Keyphrases
- high intensity
- physical activity
- resistance training
- magnetic resonance imaging
- liver failure
- healthcare
- public health
- cerebral ischemia
- mental health
- computed tomography
- white matter
- health information
- skeletal muscle
- mass spectrometry
- magnetic resonance
- body composition
- resting state
- cognitive impairment
- brain injury
- single molecule
- community dwelling
- atomic force microscopy
- diffusion weighted imaging