Disruption of structural connectome hierarchy in age-related hearing loss
Yi Zhen, Hongwei Zheng, Yi Zheng, Zhiming Zheng, Yaqian Yang, Shaoting Tang

TL;DR
Age-related hearing loss disrupts brain connectivity patterns and is linked to changes in gene activity related to ion transport and biological regulation.
Contribution
This study reveals how ARHL affects structural connectome hierarchy and links these changes to transcriptomic profiles.
Findings
ARHL patients show widespread disruptions in structural connectome organization from sensory to association brain areas.
Altered subcortical-cortical connectivity is observed in regions like the left caudate and right hippocampus in ARHL patients.
Structural gradient alterations in ARHL are associated with gene expression profiles related to ion transport and biological regulation.
Abstract
Age-related hearing loss (ARHL) is a common sensory disability among older adults and is considered a risk factor for the development of dementia. Previous work has shown altered brain connectome topology in ARHL, including abnormal nodal strength and clustering coefficient. However, whether ARHL affects the hierarchical organization of structural connectome and how these alterations relate to transcriptomic signatures remain unknown. Here, we apply a gradient mapping framework to the structural connectome derived from diffusion magnetic resonance imaging. We focus on the first three structural gradients that reflect distinct hierarchical organization of structural connectome, and assess ARHL-related changes. We find that, compared to controls, ARHL patients exhibit widespread disruptions of structural connectome organization, spanning from primary sensory areas (e.g., somatomotor…
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Taxonomy
TopicsVestibular and auditory disorders · Advanced Neuroimaging Techniques and Applications · Functional Brain Connectivity Studies
