Coordinated hand use is an essential component of many activities of daily living. Although previous studies have demonstrated age-related behavioral deficits in bimanual tasks, studies that assessed the neural basis underlying such declines in function do not exist. In this fMRI study, 16 old and 16 young healthy adults performed bimanual movements varying in coordination complexity (i.e., in-phase, antiphase) and movement frequency (i.e., 45, 60, 75, 90% of critical antiphase speed) demands. Difficulty was normalized on an individual subject basis leading to group performances (measured by phase accuracy/stability) that were matched for young and old subjects. Despite lower overall movement frequency, the old group "overactivated" brain a...
Changes in both brain structure and neurophysiological function regulating homotopic as well as hete...
In bimanual coordination, older and younger adults activate a common cerebral network but the elderl...
To study age-related differences in neural activation during motor learning, functional magnetic res...
Daily activities requiring simultaneous use of both hands are routine in human life. Buttoning a shi...
Aging is accompanied by marked changes in motor behavior and its neural correlates. At the behaviora...
In bimanual coordination, older and younger adults activate a common cerebral network but the elderl...
Motor performance decline observed during aging is linked to changes in brain structure and function...
In bimanual coordination, older and younger adults activate a common cerebral network but the elderl...
The aim of this study was to examine whether older adults use the same task-specific brain activatio...
In bimanual coordination, older and younger adults activate a common cerebral network but the elderl...
The aim of this study was to examine whether older adults use the same task-specific brain activatio...
The cerebellum appears to undergo late maturation in children and early decline at older age. Whethe...
The aim of this study was to examine whether older adults use the same task-specific brain activatio...
The gradually growing cohort of older citizens is one of the most important socio-economic problems ...
Bimanual finger coordination declines with age. However, relatively little is known about the neurop...
Changes in both brain structure and neurophysiological function regulating homotopic as well as hete...
In bimanual coordination, older and younger adults activate a common cerebral network but the elderl...
To study age-related differences in neural activation during motor learning, functional magnetic res...
Daily activities requiring simultaneous use of both hands are routine in human life. Buttoning a shi...
Aging is accompanied by marked changes in motor behavior and its neural correlates. At the behaviora...
In bimanual coordination, older and younger adults activate a common cerebral network but the elderl...
Motor performance decline observed during aging is linked to changes in brain structure and function...
In bimanual coordination, older and younger adults activate a common cerebral network but the elderl...
The aim of this study was to examine whether older adults use the same task-specific brain activatio...
In bimanual coordination, older and younger adults activate a common cerebral network but the elderl...
The aim of this study was to examine whether older adults use the same task-specific brain activatio...
The cerebellum appears to undergo late maturation in children and early decline at older age. Whethe...
The aim of this study was to examine whether older adults use the same task-specific brain activatio...
The gradually growing cohort of older citizens is one of the most important socio-economic problems ...
Bimanual finger coordination declines with age. However, relatively little is known about the neurop...
Changes in both brain structure and neurophysiological function regulating homotopic as well as hete...
In bimanual coordination, older and younger adults activate a common cerebral network but the elderl...
To study age-related differences in neural activation during motor learning, functional magnetic res...