INTRODUCTION: The rate of biological change in middle-adulthood is relatively under-studied. Here, we used behavioral testing in conjunction with structural magnetic resonance imaging to examine the effects of chronological age on associative learning proficiency and on brain regions that previous functional MRI studies have closely related to the domain of associative learning.METHODS: Participants (n=66) completed a previously established associative learning paradigm, and consented to be scanned using structural magnetic resonance imaging. Age-related effects were investigated both across sub-groups in the sample (younger vs. older) and across the entire sample (using regression approaches).RESULTS: Chronological age had substantial effe...
Age is often associated with a decline in cognitive abilities that are important for maintaining fun...
Magnetic resonance imaging (MRI) studies of brain and neurocognitive aging rarely include oldest-old...
It is poorly understood how healthy aging affects neural mechanisms underlying motor learning. We us...
The rate of biological change in middle-adulthood is relatively under-studied. Here, we used behavio...
Healthy aging is accompanied by declines in the ability to learn associations between events, even w...
The ability to learn associations between events is critical for everyday functioning (e.g., decisio...
The ability to learn associations between events is critical for everyday functioning (e.g., decisio...
Little is still known about the neuroanatomical substrates related to changes in specific cognitive ...
Objective: Longitudinal comparisons of neurocognitive functioning often reveal stability or age-rela...
The number of individuals experiencing age-related cognitive decline will increase as the population...
<div><p>Ageing is associated with grey matter atrophy and changes in task-related neural activations...
OBJECTIVE: It has been shown that verbal working and associative memory have different developmental...
The brain adapts to structural and functional changes that naturally occur over the latter half of t...
Ageing is associated with grey matter atrophy and changes in task-related neural activations. This s...
International audienceCognitive procedural learning occurs in three qualitatively different phases (...
Age is often associated with a decline in cognitive abilities that are important for maintaining fun...
Magnetic resonance imaging (MRI) studies of brain and neurocognitive aging rarely include oldest-old...
It is poorly understood how healthy aging affects neural mechanisms underlying motor learning. We us...
The rate of biological change in middle-adulthood is relatively under-studied. Here, we used behavio...
Healthy aging is accompanied by declines in the ability to learn associations between events, even w...
The ability to learn associations between events is critical for everyday functioning (e.g., decisio...
The ability to learn associations between events is critical for everyday functioning (e.g., decisio...
Little is still known about the neuroanatomical substrates related to changes in specific cognitive ...
Objective: Longitudinal comparisons of neurocognitive functioning often reveal stability or age-rela...
The number of individuals experiencing age-related cognitive decline will increase as the population...
<div><p>Ageing is associated with grey matter atrophy and changes in task-related neural activations...
OBJECTIVE: It has been shown that verbal working and associative memory have different developmental...
The brain adapts to structural and functional changes that naturally occur over the latter half of t...
Ageing is associated with grey matter atrophy and changes in task-related neural activations. This s...
International audienceCognitive procedural learning occurs in three qualitatively different phases (...
Age is often associated with a decline in cognitive abilities that are important for maintaining fun...
Magnetic resonance imaging (MRI) studies of brain and neurocognitive aging rarely include oldest-old...
It is poorly understood how healthy aging affects neural mechanisms underlying motor learning. We us...