EMBED for wordpress. Want more? Advanced embedding details, examples, and help! Graziano, Mary E. Wheeler and Charles G. Johnson and Johan J. Bolhuis -- Part two: Learning and memory: molecules, cells and circuits.
Brennan and Eric B. Smulders and Timothy J. Westerberg, H. Computerized working memory training after stroke — a pilot study. Brain Inj. Dahlin, E. Transfer of learning after updating training mediated by the striatum. Jolles, D. Practice effects in the brain: changes in cerebral activation after working memory practice depend on task demands.
Neuroimage 52 , — Mozolic, J. A cognitive training intervention increases resting cerebral blood flow in healthy older adults. Schneiders, J. Separating intra-modal and across-modal training effects in visual working memory: an fMRI investigation.
Subramaniam, K. Computerized cognitive training restores neural activity within the reality monitoring network in schizophrenia. Neuron 73 , — The impact of auditory working memory training on the fronto-parietal working memory network. Kuhn, S. The dynamics of change in striatal activity following updating training. Brain Mapp. Schweizer, S. Training the emotional brain: improving affective control through emotional working memory training.
Functional brain connectivity at rest changes after working memory training. Takeuchi, H. Effects of working memory training on functional connectivity and cerebral blood flow during rest. Cortex 49 , — Intensive cognitive training in schizophrenia enhances working memory and associated prefrontal cortical efficiency in a manner that drives long-term functional gains. Neuroimage 99 , — Activation of multi-modal cortical areas underlies short-term memory.
Thompson, T. Intensive working memory training produced functional changes in large-scale frontoparietal networks. Kundu, B. Strengthened effective connectivity underlies transfer of working memory training to tests of short-term memory and attention. This study uses transcranial magnetic stimulation and EEG to show increases in connectivity after WM training in children. Astle, D. Cognitive training enhances intrinsic brain connectivity in childhood.
Using resting-state MEG, this study shows how training-induced improvements in WM capacity are associated with increases in functional connectivity. Gibson, E. Neuronal activity promotes oligodendrogenesis and adaptive myelination in the mammalian brain. Science , Yeung, M. Dynamics of oligodendrocyte generation and myelination in the human brain. Cell , — Training of working memory impacts structural connectivity. Age-dependent changes in prefrontal intrinsic connectivity. McNab, F.
Changes in cortical dopamine D1 receptor binding associated with cognitive training. Sawaguchi, T. D1 dopamine receptors in prefrontal cortex: involvement in working memory. Wass, C. Dopamine D1 sensitivity in the prefrontal cortex predicts general cognitive abilities and is modulated by working memory training. Backman, L. Effects of working-memory training on striatal dopamine release. Working memory plasticity modulated by dopamine transporter genotype.
Soderqvist, S. Dopamine, working memory, and training induced plasticity: implications for developmental research. Shang, C. Association between the DAT1 gene and spatial working memory in attention deficit hyperactivity disorder.
Polymorphisms in the dopamine receptor 2 gene region influence improvements during working memory training in children and adolescents. Hirvonen, M. Psychiatry 9 , — Nymberg, C. Neuropsychopharmacology 39 , — Richmond, L. Transcranial direct current stimulation enhances verbal working memory training performance over time and near transfer outcomes.
Delatour, B. Functional role of rat prelimbic—infralimbic cortices in spatial memory: evidence for their involvement in attention and behavioural flexibility. Brain Res. Erlich, J. A cortical substrate for memory-guided orienting in the rat. Neuron 72 , — Harvey, C.
Choice-specific sequences in parietal cortex during a virtual-navigation decision task. Nature , 62—68 Light, K.
Working memory training promotes general cognitive abilities in genetically heterogeneous mice. Cassanelli, P. Working memory training triggers delayed chromatin remodeling in the mouse corticostriatothalamic circuit. Psychiatry 60 , 93— Ren, M. Arc regulates experience-dependent persistent firing patterns in frontal cortex. Yuan, Y. Cortical neural responses to previous trial outcome during learning of a directional choice task. Logothetis, N. Neurophysiological investigation of the basis of the fMRI signal.
What we can do and what we cannot do with fMRI. Short, S. Associations between white matter microstructure and infants' working memory. Neuroimage 64 , — Article PubMed Google Scholar. Vestergaard, M. White matter microstructure in superior longitudinal fasciculus associated with spatial working memory performance in children. Ullman, H. Structural maturation and brain activity predict future working memory capacity during childhood development. Ostby, Y. Morphometry and connectivity of the fronto-parietal verbal working memory network in development.
Kennedy, K. Aging white matter and cognition: differential effects of regional variations in diffusion properties on memory, executive functions, and speed. Neuropsychologia 47 , — Increased brain activity in frontal and parietal cortex underlies the development of visuo-spatial working memory capacity during childhood.
Crone, E. Neurocognitive development of the ability to manipulate information in working memory. Scherf, K. Brain basis of developmental change in visuospatial working memory. Childhood cognitive development as a skill.
Darki, F. The role of fronto-parietal and fronto-striatal networks in the development of working memory: a longitudinal study. Cortex 25 , — Download references. You can also search for this author in PubMed Google Scholar.
Correspondence to Torkel Klingberg. Probability that the firing rate of one neuron in two identical stimulus conditions is different depending on the subject's choice. A phenomenon whereby a stimulus that has been repeated elicits a smaller response than does a stimulus that appears for the first time. A stable state of activation of a network, with a spatial location maximally activated and adjacent locations activated to a lesser extent, forming a bump.
Mechanism of representing of two variables, whereby the activity of a neuron depends linearly on one continuous variable, multiplied by second variable. A model or algorithm achieving a classification decision of what a stimulus is, based on the combined activity of multiple neurons or voxels. Reprints and Permissions.
The neuroscience of working memory capacity and training. Nat Rev Neurosci 17, — Download citation. Published : 26 May Issue Date : July Anyone you share the following link with will be able to read this content:. Sorry, a shareable link is not currently available for this article.
Provided by the Springer Nature SharedIt content-sharing initiative. Advanced search. Sign up for the Nature Briefing newsletter — what matters in science, free to your inbox daily.
Skip to main content Thank you for visiting nature. Subjects Computational neuroscience Electrophysiology Functional magnetic resonance imaging Working memory. Key Points The amount of information that can be maintained in working memory WM is limited. Abstract Working memory — the ability to maintain and manipulate information over a period of seconds — is a core component of higher cognitive functions. Access through your institution. Easton, A.
The Cognitive Neuroscience of Social Behavior. New York: Psychology Press. Eskritt, M. Canadian Journal of Experimental Psychology, 55, Farah, M. Oxford, UK: Blackwell. Frick, R. Testing visual short-term memory: Simultaneous versus sequential presentations. Memory and Cognition, 13, Gazzaniga, M.
Gellatly, A. The development of skill at concentration. Aus- tralian Journal of Psychology, 40, Ghazanfer, A. Hamilton, C. What develops in visuo-spatial working memory development? European Journal of Cognitive Psychology, 15, Hitch, G. Development of memory span for spo- ken words: The role of rehearsal and item identification processes. British Journal of Developmental Psychology, 11, Hopkins, W. The global-to-local precedence in perception by humans, chimpanzees, and macaques.
Animal Cognition, 5, Hulme, C. Speech rate and the develop- ment of short-term memory span. Journal of Experimental Child Psychology, 28, Krasnegor, N. Baltimore: Brookes Publishing. Menzel, C. Unprompted recall and reporting of hidden objects by a chimpanzee Pan troglodytes after extended delays.
Journal of Comparative Psychology, , Parker, A. Pickering, S. The development of visuo-spatial working memory. Memory, 9, Development of memory for pattern and path: Further evidence for the fractionation of visuo-spatial memory.
Quarter- ly Journal of Experimental Psychology, 54A, Portman, R. Acquisition and retention of verbal and visuospatial information across the life span: From five to ninety-five years of age. Posner, M. Cognitive Neuroscience of Attention. New York: Guilford Press. Rumbaugh, D. Language learning by a chimpanzee. New York: Academic Press. Journal of Comparative Psy- chology, , Savage-Rumbaugh, E.
Ape language: From conditioned response to symbol. New York: Columbia University Press. Schumann-Hengsteler, R. Journal of Genetic Psychology, , Visuospatial memory in children: Which memory codes are used in the Concentration game? Psychologische Beitrage, 38, Shah, P. The separability of working memory resources for spatial thing and language processing: An individual differences approach. Journal of Experimental Psychology: General, , Washburn, D. Concentration performance with and without articulatory sup- pression.
Stroop-like effects for monkeys and humans: Processing speed or strength of association? Psychological Science, 5, A species difference in visuospatial memory in adult humans and rhesus monkeys: The concentration game. International Journal of Comparative Psychology, 15, A difference in visuospatial memo- ry between humans and macaques: Memory for what or memory for where? In- ternational Journal of Comparative Psychology, 16, Rhesus monkeys Macaca mulatta select Arabic numerals or visual quantities corresponding to a number of sequentially completed maze trials By David Washburn.
0コメント