Ageing is commonly associated with changes to segregation and integration of functional brain networks, but, in isolation, current network-based approaches struggle to elucidate changes across the many axes of functional organisation. However, the advent of gradient mapping techniques in neuroimaging provides a new means of studying functional organisation in a multi-dimensional connectivity space. Here, we studied ageing and behaviourally-relevant differences in a three-dimensional connectivity space using the Cambridge Centre for Ageing Neuroscience cohort (n = 643). Building on gradient mapping techniques, we developed a set of measures to quantify the dispersion within and between functional communities. We detected a strong shift of th...
Healthy aging is accompanied by neurobiological changes that affect the brain’s functional organizat...
The relationship between age-related changes in brain structural connectivity (SC) and functional c...
Functional connectivity – the co-activation of brain regions – forms the basis of the brain’s functi...
Structural brain markers are studied extensively in the field of neurodegeneration, but are thought ...
Human brain function undergoes complex transformations across the lifespan. We employed resting-stat...
At rest, the brain's sensorimotor and higher cognitive systems engage in organized patterns of c...
AbstractHuman brain function undergoes complex transformations across the lifespan. We employed rest...
The development of large-scale functional organization of the human brain across the lifespan is not...
The development of large-scale functional organization of the human brain across the lifespan is not...
The default network of the human brain has drawn much attention due to its relevance to various brai...
The importance of studying connectivity in the aging brain is increasingly recognized. Recent studie...
The human brain is a complex system in which interactions of billions of neurons give rise to behavi...
The human brain's intrinsic functional architecture reflects behavioural history and can help elucid...
Aging affects functional connectivity between brain areas, however, a complete picture of how aging ...
UNLABELLED: The maintenance of wellbeing across the lifespan depends on the preservation of cognitiv...
Healthy aging is accompanied by neurobiological changes that affect the brain’s functional organizat...
The relationship between age-related changes in brain structural connectivity (SC) and functional c...
Functional connectivity – the co-activation of brain regions – forms the basis of the brain’s functi...
Structural brain markers are studied extensively in the field of neurodegeneration, but are thought ...
Human brain function undergoes complex transformations across the lifespan. We employed resting-stat...
At rest, the brain's sensorimotor and higher cognitive systems engage in organized patterns of c...
AbstractHuman brain function undergoes complex transformations across the lifespan. We employed rest...
The development of large-scale functional organization of the human brain across the lifespan is not...
The development of large-scale functional organization of the human brain across the lifespan is not...
The default network of the human brain has drawn much attention due to its relevance to various brai...
The importance of studying connectivity in the aging brain is increasingly recognized. Recent studie...
The human brain is a complex system in which interactions of billions of neurons give rise to behavi...
The human brain's intrinsic functional architecture reflects behavioural history and can help elucid...
Aging affects functional connectivity between brain areas, however, a complete picture of how aging ...
UNLABELLED: The maintenance of wellbeing across the lifespan depends on the preservation of cognitiv...
Healthy aging is accompanied by neurobiological changes that affect the brain’s functional organizat...
The relationship between age-related changes in brain structural connectivity (SC) and functional c...
Functional connectivity – the co-activation of brain regions – forms the basis of the brain’s functi...