Caudate functional networks influence brain structural changes with aging
Silvia Basaia, Matteo Zavarella, Giulia Rugarli, Giacomo Sferruzza, Camilla Cividini, Elisa Canu, Laura Cacciaguerra, Marco Bacigaluppi, Gianvito Martino, Massimo Filippi, Federica Agosta

TL;DR
This study shows that brain regions connected to the medial caudate are more vulnerable to aging-related structural changes.
Contribution
The study identifies how the functional organization of the caudate nucleus influences age-related structural brain changes.
Findings
Elderly individuals show increased functional connectivity in frontal, parietal, temporal, and occipital lobes compared to younger adults.
Medial caudate connected regions show greater atrophy in elderly subjects compared to lateral caudate connected regions.
Functional connectivity patterns differ between medial and lateral caudate regions in young adults.
Abstract
Neurogenesis decline with aging may be associated with brain atrophy. Subventricular zone neuron precursor cells possibly modulate striatal neuronal activity via the release of soluble molecules. Neurogenesis decay in the subventricular zone may result in structural alterations of brain regions connected to the caudate, particularly to its medial component. The aim of this study was to investigate how the functional organization of caudate networks relates to structural brain changes with aging. One hundred and fifty-two normal subjects were recruited: 52 young healthy adults (≤35 years old), 42 middle-aged (36 ≤ 60 years old) and 58 elderly subjects (≥60 years old). In young adults, stepwise functional connectivity was used to characterize regions that connect to the medial and lateral caudate at different levels of link-step distances. A statistical comparison between the connectivity…
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Taxonomy
TopicsFunctional Brain Connectivity Studies · Neuroscience and Neuropharmacology Research · Memory and Neural Mechanisms
