The Impact of Age on the Association Between Physical Activity and White Matter Integrity in Cognitively Healthy Older Adults.

Dominik Wolf,Oliver Tüscher,Andreas Fellgiebel,Andreas Mierau,Florian U Fischer,Stefan Teipel,Harald Binder,David Riedel,Katharina Brüggen,Merve Kocabayoglu,Bianca Kollmann,Kristel Knaepen

doi:10.3389/fnagi.2020.579470

Abstract

Cognition emerges from coordinated processing among distributed cortical brain regions, enabled through interconnected white matter networks. Cortical disconnection caused by age-related decline in white matter integrity (WMI) is likely to contribute to age-related cognitive decline. Physical activity (PA) has been suggested to have beneficial effects on white matter structure. However, its potential to counteract age-related decline in WMI is not yet well established. The present explorative study analyzed if PA was associated with WMI in cognitively healthy older adults and if this association was modulated by age. Forty-four cognitively healthy older individuals (aged 60–88 years) with diffusion-tensor imaging (DTI) and PA measurements were included from the AgeGain study. Voxelwise analysis using Tract-Based Spatial Statistics (TBSS) demonstrated that PA was associated with WMI in older adults. However, results emphasized that this association was restricted to high age. The association between PA and WMI was found in widespread white matter regions suggesting a global rather than a regional effect. Supplementary analyses demonstrated an association between the integrity of these regions and the performance in memory [verbal learning and memory test (VLMT)] and executive functioning (Tower of London).Results of the present explorative study support the assumption that PA is associated with WMI in older adults. However, results emphasize that this association is restricted to high age. Since cognitive decline in the elderly is typically most pronounced in later stages of aging, PA qualifies as a promising tool to foster resilience against age-related cognitive decline, via the preservation of the integrity of the brains WM.

Highlights

Normal aging is characterized by a cognitive decline in several cognitive domains, including memory, information processing speed, reasoning, spatial orientation, and numeric abilities (Salthouse, 2010; Park and Schwarz, 2012)
Exploratory regression analyses of the current study demonstrated that white matter integrity (WMI) of regions that were associated with Physical activity (PA) was related to memory and executive functioning
Cortical disconnection caused by an age-related decline in WMI is likely to contribute to age-related cognitive decline

Summary

Introduction

Normal aging is characterized by a cognitive decline in several cognitive domains, including memory, information processing speed, reasoning, spatial orientation, and numeric abilities (Salthouse, 2010; Park and Schwarz, 2012). Cognitive health has been quoted as a major factor for life quality in the elderly and contributes greatly to late-life functioning and independence (Depp and Jeste, 2006; Reichstadt et al, 2007). This significance of cognitive health highlights the importance of a profound understanding of the preservation of cognitive functioning in aging. In line with the variance in age-related cognitive decline, studies have highlighted substantial between-subject variance in age-related changes in white matter integrity (WMI; Madden et al, 2012; Bennett and Madden, 2014; Sexton et al, 2014). The preservation of WMI is a promising approach to prevent cortical disconnection and maintain cognitive abilities within the aging process

Methods

Results

Discussion

Conclusion