Inhibitory functions are key mechanisms underlying age-related cognitive decline (Park and Gutchess in Cognitive aging: a primer, Psychology Press, Hove 2000), yet how these influence the control of action has not been fully investigated. Using 134 older (age 60-88) and 133 younger adults (age 20-59), we investigated in a motor analogy of the WCST the inhibition of a primed movement plan in favour of a novel one. Although 10% of older adults performed similarly to young adults, the majority failed to inhibit by the sixties, 10-20 years earlier than documented for the WCST (Lezak in Neurological Assessment, Oxford University Press, New York 1995; Haaland et al. in J Gerontol 33:345-346 1987). Around 40% failed to learn on the second attempt,...
As one of the core executive functions, inhibitory control plays an important role in human life. In...
The question of whether and how aging affects humans’ visuomotor adaptation remains controversial. T...
According to Hasher, Zacks, and May (Attention and performance XVII. Cognitive regulation of perform...
Inhibitory functions are key mechanisms underlying age-related cognitive decline (Park and Gutchess ...
Inhibitory functions are key mechanisms underlying age related decline (Park & Gutchess, 2000, in: C...
Action errors can put older adults at risk of injury. Our study is the first to investigate whether ...
Masters Research - Master of Philosophy (MPhil)A central goal of cognitive aging research is to unde...
This study examined the relationship between age and inhibitory functioning within a sample of older...
Advancing age is associated with a decline in physical and cognitive abilities. Multiple theories ha...
The ability to inhibit actions, one of the hallmarks of human motor control, appears to decline with...
Increasing age is accompanied by structural deteriorations in the brain. Yet, somehow, older adults ...
One of the major accounts of cognitive aging states that age effects are related to a deficiency of ...
To examine age-related effects on high-level consciously controlled and low-level automatically cont...
There is controversy whether age-related neuroanatomical and neurophysiological changes in the centr...
Action errors can put older adults at risk of injury. Our study is the first to investigate whether ...
As one of the core executive functions, inhibitory control plays an important role in human life. In...
The question of whether and how aging affects humans’ visuomotor adaptation remains controversial. T...
According to Hasher, Zacks, and May (Attention and performance XVII. Cognitive regulation of perform...
Inhibitory functions are key mechanisms underlying age-related cognitive decline (Park and Gutchess ...
Inhibitory functions are key mechanisms underlying age related decline (Park & Gutchess, 2000, in: C...
Action errors can put older adults at risk of injury. Our study is the first to investigate whether ...
Masters Research - Master of Philosophy (MPhil)A central goal of cognitive aging research is to unde...
This study examined the relationship between age and inhibitory functioning within a sample of older...
Advancing age is associated with a decline in physical and cognitive abilities. Multiple theories ha...
The ability to inhibit actions, one of the hallmarks of human motor control, appears to decline with...
Increasing age is accompanied by structural deteriorations in the brain. Yet, somehow, older adults ...
One of the major accounts of cognitive aging states that age effects are related to a deficiency of ...
To examine age-related effects on high-level consciously controlled and low-level automatically cont...
There is controversy whether age-related neuroanatomical and neurophysiological changes in the centr...
Action errors can put older adults at risk of injury. Our study is the first to investigate whether ...
As one of the core executive functions, inhibitory control plays an important role in human life. In...
The question of whether and how aging affects humans’ visuomotor adaptation remains controversial. T...
According to Hasher, Zacks, and May (Attention and performance XVII. Cognitive regulation of perform...