What the structural-functional connectome reveals about brain aging: The key role of the fronto-striatal-thalamic circuit and the rejuvenating impact of physical activity

Bonifazi, P.; Erramuzpe, Asier; Díez, Ibai; Gabilondo, Iñigo; Boisgontier, Matthieu P.; Pauwels, Lisa; Stramaglia, Sebastiano; Swinnen, Stephan P.; Cortés, Jesús M.

doi:10.1101/183939

Cited by 2 publications

(2 citation statements)

References 82 publications

(89 reference statements)

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“…One study also found that thalamic volume showed a significant correlation with age (Cherubini et al, 2009). Another study found that the structure–function connectivity between the thalamus and the orbitofrontal and frontal areas made a major contribution to age estimation, which played a key role in the process of healthy aging (Bonifazi et al, 2017). Hughes et al (2012) suggested that age primarily affected thalamic nuclei connecting to the frontal cortex.…”

Section: Discussionmentioning

confidence: 99%

Effects of Age and Sex on Subcortical Volumes

Wang

Luo

et al. 2019

Front. Aging Neurosci.

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PurposeIn an increasingly aging society, it is of great importance to consider trajectories of subcortical volumes at different ages for understanding biological markers of aging. Thus, we investigated sex, age, and their interactions on subcortical volumes, including the basal ganglia (caudate, putamen, accumbens, and pallidum), thalamus, hippocampus, and amygdala.MethodsWe analyzed the adult lifespan trajectory of subcortical volumes and asymmetries in 563 healthy subjects aged from 19 to 86 using magnetic resonance imaging (MRI) data from the publicly available 7IXI data set.ResultsThe sex made strong contributions to the trajectories of subcortical volumes with aging, including the right putamen, right pallidum, bilateral thalamus, hippocampus, and amygdala. The volume of the right putamen, right pallidum, and right thalamus decreased more rapidly in males than in females, and the volume of the left thalamus, bilateral hippocampus, and amygdala in males followed a quadratic model, while those in females followed a linear decline model. The asymmetries in the caudate and hippocampus showed a linear decline, and a sex and age interaction was found in the hippocampus; that is, the asymmetry in the hippocampus decreased only in the males and not in the females. Changes in the accumbens and pallidum fit quadratic trajectories, in which females increased until 39.26 years old in the accumbens asymmetry and then began to rapidly decline, and males showed a linear decline. The asymmetry in the pallidum in males and females showed a slow decreasing period until almost 45 years of age and then increased.ConclusionThe results suggest that compared with females, males have a faster decline in the volume of the right putamen, right pallidum, and right thalamus, while aging occurred later but also faster in the left thalamus, bilateral hippocampus, and amygdala. Interestingly, we found the inflection point in the thalamus, bilateral hippocampus, and amygdala volume in the quadratic model, and after this point, the volume change accelerated with aging, which may have resulted from the stronger work pressure in the middle-aged men and the low levels of testosterone in the older adults. The interaction of age and sex on individual subcortical structures provides evidence to support the impact of sex on psychopathologies associated with degenerative brain disorders in the elderly. The findings may be significant to investigate the occurrence and prevalence of degenerative brain disorders in males and females. Future studies can focus on the functional and behavioral relations with subcortical structures for preventive measures of related disorders.

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Section: Discussionmentioning

confidence: 99%

Effects of Age and Sex on Subcortical Volumes

Wang

Luo

et al. 2019

Front. Aging Neurosci.

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“…Numerous studies have evaluated brain processing of cognitive functions including memory speed, decision-making, attention, and perception during aging using functional magnetic resonance imaging (Branch et al, 2019;Löckenhoff & Rutt, 2017;Löckenhoff et al, 2020;Tausen et al, 2020). These and other morphological studies indicate structural modifications such as decrease of synapse and spine densities, decrease in grey matter and volume as well as microcolumn disorganization in cognitive regions of the brain (Alexander et al, 2020;Bonifazi et al, 2018;Guerra-Gomes et al, 2018;Peters & Kemper, 2012). However, very few studies have addressed the ultrastructural changes occurring during aging.…”

Section: Introductionmentioning

confidence: 99%

Aging affects cognition and hippocampal ultrastructure in male Wistar rats

Lomidze

Zhvania

Tizabi

et al. 2021

Developmental Neurobiology

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It is now well established that aging is associated with emotional and cognitive changes. Although the basis of such changes is not fully understood, ultrastructural alterations in key brain areas are likely contributing factors. Recently, we reported that aging‐related anxiety in male Wistar rats is associated with ultrastructural changes in the central nucleus of amygdala, an area that plays important role in emotional regulation. In this study, we evaluated the cognitive performance of adolescent, adult, and aged male Wistar rats in multi‐branch maze (MBM) as well as in Morris water maze (MWM). We also performed ultrastructural analysis of the CA1 region of the hippocampus, an area intimately involved in cognitive function. The behavioral data indicate significant impairments in few indices of cognitive functions in both tests in aged rats compared to the other two age groups. Concomitantly, a total number of presynaptic vesicles as well as vesicles in the resting pool were significantly lower, whereas postsynaptic mitochondrial area was significantly higher in aged rats compared to the other age groups. No significant differences in presynaptic terminal area or postsynaptic mitochondrial number were detected between the three age groups. These results indicate that selective ultrastructural changes in specific hippocampal region may accompany cognitive decline in aging rats.

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What the structural-functional connectome reveals about brain aging: The key role of the fronto-striatal-thalamic circuit and the rejuvenating impact of physical activity

Cited by 2 publications

References 82 publications

Effects of Age and Sex on Subcortical Volumes

Effects of Age and Sex on Subcortical Volumes

Aging affects cognition and hippocampal ultrastructure in male Wistar rats

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