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The functional brain favours segregated modular connectivity at old age unless affected by neurodegeneration

Chen Xue, Joe Necus, Luis R. Peraza, Ramtin Mehraram, Yanjiang Wang, John T. O’Brien, Andrew M. Blamire, Marcus Kaiser, John‐Paul Taylor

2021Communications Biology23 citationsDOIOpen Access PDF

Abstract

Brain's modular connectivity gives this organ resilience and adaptability. The ageing process alters the organised modularity of the brain and these changes are further accentuated by neurodegeneration, leading to disorganisation. To understand this further, we analysed modular variability-heterogeneity of modules-and modular dissociation-detachment from segregated connectivity-in two ageing cohorts and a mixed cohort of neurodegenerative diseases. Our results revealed that the brain follows a universal pattern of high modular variability in metacognitive brain regions: the association cortices. The brain in ageing moves towards a segregated modular structure despite presenting with increased modular heterogeneity-modules in older adults are not only segregated, but their shape and size are more variable than in young adults. In the presence of neurodegeneration, the brain maintains its segregated connectivity globally but not locally, and this is particularly visible in dementia with Lewy bodies and Parkinson's disease dementia; overall, the modular brain shows patterns of differentiated pathology.

Topics & Concepts

NeurodegenerationNeuroscienceDementiaModular designPsychologyModularity (biology)AgeingBiologyDiseaseMedicineComputer sciencePathologyEvolutionary biologyOperating systemGeneticsFunctional Brain Connectivity StudiesAdvanced Neuroimaging Techniques and ApplicationsNeural dynamics and brain function
The functional brain favours segregated modular connectivity at old age unless affected by neurodegeneration | Litcius