Adult age differences in cognitive plasticity have been studied less often in working memory than in episodic memory. The authors investigated the effects of extensive working memory practice on performance improvement, transfer, and short-term maintenance of practice gains and transfer effects. Adults age 20–30 years and 70–80 years practiced a spatial working memory task with 2 levels of processing demands across 45 days for about 15 min per day. In both age groups and relative to age-matched, no-contact control groups, we found (a) substantial performance gains on the practiced task, (b) near transfer to a more demanding spatial n-back task and to numerical n-back tasks, and (c) 3-month maintenance of practice gains and near transfer eff...
INTRODUCTION: Cognitive function performance decreases in older individuals compared to young adults...
Description and explanation of a natural decline of cognitive functions during ontogenetic aging lai...
Age differences in human brain plasticity are assumed, but have not been systematically investigated...
Recent studies suggest that working memory training may benefit older adults; however, findings rega...
Recent studies suggest that working memory training may benefit older adults; however, findings rega...
Background: Old-old age (80+ years) is associated with substantial cognitive decline. In this popula...
Memory impairments constitute an increasing objective and subjective problem with advancing age. The...
To counter age-related decline in cognitive abilities, interventions such as working memory training...
Many cognitive abilities, including working memory and reasoning ability, decline with progressing a...
Few studies have examined working memory (WM) training-related gains and their transfer and maintena...
The present study addresses three questions regarding age differences in working memory: (1) whether...
There is evidence for cognitive as well as neural plasticity across the adult life span, although ag...
The question of whether working memory training leads to generalized improvements in untrained cogni...
The present study examined the efficacy of a verbal working memory (WM) training program in old-old ...
Working memory (WM) is one of the cognitive functions that is susceptible to ageing-related decline....
INTRODUCTION: Cognitive function performance decreases in older individuals compared to young adults...
Description and explanation of a natural decline of cognitive functions during ontogenetic aging lai...
Age differences in human brain plasticity are assumed, but have not been systematically investigated...
Recent studies suggest that working memory training may benefit older adults; however, findings rega...
Recent studies suggest that working memory training may benefit older adults; however, findings rega...
Background: Old-old age (80+ years) is associated with substantial cognitive decline. In this popula...
Memory impairments constitute an increasing objective and subjective problem with advancing age. The...
To counter age-related decline in cognitive abilities, interventions such as working memory training...
Many cognitive abilities, including working memory and reasoning ability, decline with progressing a...
Few studies have examined working memory (WM) training-related gains and their transfer and maintena...
The present study addresses three questions regarding age differences in working memory: (1) whether...
There is evidence for cognitive as well as neural plasticity across the adult life span, although ag...
The question of whether working memory training leads to generalized improvements in untrained cogni...
The present study examined the efficacy of a verbal working memory (WM) training program in old-old ...
Working memory (WM) is one of the cognitive functions that is susceptible to ageing-related decline....
INTRODUCTION: Cognitive function performance decreases in older individuals compared to young adults...
Description and explanation of a natural decline of cognitive functions during ontogenetic aging lai...
Age differences in human brain plasticity are assumed, but have not been systematically investigated...