Executive functions that are dependent upon the frontal-parietal network decline considerably during the course of normal aging. To delineate neuroanatomical correlates of age-related executive impairment, we investigated the relation between cortical thickness and executive functioning in 73 younger (20-32 years) and 56 older (60-71 years) healthy adults. Executive functioning was assessed using the Wisconsin Card Sorting Test (WCST). Cortical thickness was measured at each location of the cortical mantle using surface-based segmentation procedures on high-resolution T1-weighted magnetic resonance images. For regions involved in WCST performance, such as the lateral prefrontal and parietal cortices, we found that thicker cortex was related...
Even in the absence of pathology such as Alzheimer's disease, aging is associated with cognitive dec...
International audienceThe current experiment aimed to explore age differences in brain activity asso...
The relationship between brain structure, cortical physiology, and learning ability in older adults ...
Executive functions that are dependent upon the frontal-parietal network decline considerably during...
Age and cortical structure are both associated with cognition, but characterizing this relationship ...
Age and cortical structure are both associated with cognition, but characterizing this relationship ...
This cross-sectional study was designed to investigate grey matter changes that occur in healthy agi...
Background The term executive functions (EF) describes a set of higher cognitive abilities/skills ne...
While aging is typically associated with cognitive decline, some individuals are able to diverge fro...
Aging is associated with microstructural white matter (WM) changes. WM microstructural characteristi...
The study examined the relationship of lateral frontal cortical volume and thickness with cognitive ...
The neuroanatomical bases of episodic memory (EM) and executive functions (EFs) have been widely add...
Frontal lobe structures decline faster than most other brain regions in older adults. Age-related ch...
Prior studies suggest that relationships between regional cortical thickness and domain-specific cog...
AbstractAcross development children show marked improvement in their executive functions (EFs), incl...
Even in the absence of pathology such as Alzheimer's disease, aging is associated with cognitive dec...
International audienceThe current experiment aimed to explore age differences in brain activity asso...
The relationship between brain structure, cortical physiology, and learning ability in older adults ...
Executive functions that are dependent upon the frontal-parietal network decline considerably during...
Age and cortical structure are both associated with cognition, but characterizing this relationship ...
Age and cortical structure are both associated with cognition, but characterizing this relationship ...
This cross-sectional study was designed to investigate grey matter changes that occur in healthy agi...
Background The term executive functions (EF) describes a set of higher cognitive abilities/skills ne...
While aging is typically associated with cognitive decline, some individuals are able to diverge fro...
Aging is associated with microstructural white matter (WM) changes. WM microstructural characteristi...
The study examined the relationship of lateral frontal cortical volume and thickness with cognitive ...
The neuroanatomical bases of episodic memory (EM) and executive functions (EFs) have been widely add...
Frontal lobe structures decline faster than most other brain regions in older adults. Age-related ch...
Prior studies suggest that relationships between regional cortical thickness and domain-specific cog...
AbstractAcross development children show marked improvement in their executive functions (EFs), incl...
Even in the absence of pathology such as Alzheimer's disease, aging is associated with cognitive dec...
International audienceThe current experiment aimed to explore age differences in brain activity asso...
The relationship between brain structure, cortical physiology, and learning ability in older adults ...