The effects of a six-month exercise intervention on white matter microstructure in older adults at risk for diabetes

The effects of a six-month exercise intervention on white matter microstructure in older adults at risk for diabetes

•Various exercise regimes have different yet converging benefits for brain health.•Resistance and balance-and-tone training result in white matter integrity changes.•Exercise positively impacts white matter related to cognitive and motor function. Older adults with prediabetes or obesity (i.e., thos...

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Bibliographic Details
Published in:Cerebral circulation - cognition and behavior Vol. 7; p. 100369
Main Authors: Lien, Ryu, Furlano, Joyla A., Witt, Suzanne T., Xian, Chengqian, Nagamatsu, Lindsay S.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-01-2024
Elsevier
Subjects:
Brain health
Diabetes risk
Exercise intervention
Resistance training
Special Issue on Non- Pharmacological Dementia
White matter microstructure
Brain health
Resistance training
Diabetes risk
Exercise intervention
White matter microstructure
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Summary:•Various exercise regimes have different yet converging benefits for brain health.•Resistance and balance-and-tone training result in white matter integrity changes.•Exercise positively impacts white matter related to cognitive and motor function. Older adults with prediabetes or obesity (i.e., those at risk for diabetes) exhibit impaired structural brain networks. Given findings that resistance training (RT) can combat brain impairments in many populations, this study aimed to test the effects of this type of exercise on white matter microstructure in older adults at risk for diabetes. Seventeen community-dwelling older adults (mean age 67.8 ± 5.7, 52.9 % female) with prediabetes or obesity were randomly allocated to thrice weekly RT or balance and tone training (BAT; control group) for six months. Diffusion weighted imaging via a 3T scanner was used to assess changes in white matter parameters –fractional anisotropy (FA), mean diffusivity (MD), radial diffusivity (RD) – over time. Participants in the RT group showed no significant changes in FA but had increased MD and RD in various regions related to cognitive function including the cingulate gyrus. Participants in the control group had both increased and decreased FA depending on the specific white matter tracts; increased FA was seen in areas related to motor coordination such as the middle cerebellar peduncle. The control group also exhibited decreased MD and RD in areas responsible for motor function (e.g., left anterior limb of the internal capsule). We conclude that both resistance and balance exercises result in changes in white matter microstructure albeit in divergent tracts that may be linked to the specific exercises performed.
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ISSN:2666-2450
2666-2450
DOI:10.1016/j.cccb.2024.100369