Prefrontal activation may predict working-memory training gain in normal aging and mild cognitive impairment
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Linda Heskamp | Jurgen A. H. R. Claassen | Roy P. C. Kessels | Anouk Vermeij | R. Kessels | J. Claassen | L. Heskamp | A. Vermeij | E. Simons | P. Dautzenberg | Esther M. F. Simons | Paul L. J. Dautzenberg | Anouk Vermeij
[1] U. Lindenberger,et al. A theoretical framework for the study of adult cognitive plasticity. , 2010, Psychological bulletin.
[2] Yvonne Brehmer,et al. Working-memory training in younger and older adults: training gains, transfer, and maintenance , 2012, Front. Hum. Neurosci..
[3] B. Schmand,et al. Nederlandse leestest voor volwassenen , 2012 .
[4] J A H R Claassen,et al. Reproducibility of cerebral blood volume measurements by near infrared spectroscopy in 16 healthy elderly subjects , 2006, Physiological measurement.
[5] Shu-Chen Li,et al. Working memory plasticity in old age: practice gain, transfer, and maintenance. , 2008, Psychology and aging.
[6] Priti Shah,et al. Aging, Training, and the Brain: A Review and Future Directions , 2009, Neuropsychology Review.
[7] Ingrid R Olson,et al. Working memory training and transfer in older adults. , 2011, Psychology and aging.
[8] Martin van Boxtel,et al. Cognitive interventions in healthy older adults and people with mild cognitive impairment: A systematic review , 2013, Ageing Research Reviews.
[9] N. Bargalló,et al. Dynamic Functional Reorganizations and Relationship with Working Memory Performance in Healthy Aging , 2012, Front. Hum. Neurosci..
[10] Bing Li,et al. Cognitive intervention for persons with mild cognitive impairment: A meta-analysis , 2011, Ageing Research Reviews.
[11] Jacob Cohen. Statistical Power Analysis for the Behavioral Sciences , 1969, The SAGE Encyclopedia of Research Design.
[12] S. Folstein,et al. "Mini-mental state". A practical method for grading the cognitive state of patients for the clinician. , 1975, Journal of psychiatric research.
[13] P. Reuter-Lorenz,et al. Neurocognitive Aging and the Compensation Hypothesis , 2008 .
[14] J. Morris,et al. Current concepts in mild cognitive impairment. , 2001, Archives of neurology.
[15] Kristen M. Kennedy,et al. Age trajectories of functional activation under conditions of low and high processing demands: An adult lifespan fMRI study of the aging brain , 2015, NeuroImage.
[16] Eva Meisenzahl,et al. Altered brain activation during a verbal working memory task in subjects with amnestic mild cognitive impairment. , 2010, Journal of Alzheimer's disease : JAD.
[17] Heidrun Wabnitz,et al. The physiological origin of task-evoked systemic artefacts in functional near infrared spectroscopy , 2012, NeuroImage.
[18] S. Rombouts,et al. Altered resting state networks in mild cognitive impairment and mild Alzheimer's disease: An fMRI study , 2005, Human brain mapping.
[19] Arthur F. Kramer,et al. Behavioural Brain Research Age-related Differences in Cortical Recruitment and Suppression: Implications for Cognitive Performance , 2022 .
[20] Jurgen A. H. R. Claassen,et al. Effects of Aging on Cerebral Oxygenation during Working-Memory Performance: A Functional Near-Infrared Spectroscopy Study , 2012, PloS one.
[21] Katja Hagen,et al. Aging-related cortical reorganization of verbal fluency processing: a functional near-infrared spectroscopy study , 2013, Neurobiology of Aging.
[22] Marco Ferrari,et al. A brief review on the history of human functional near-infrared spectroscopy (fNIRS) development and fields of application , 2012, NeuroImage.
[23] Bradley P. Sutton,et al. Span, CRUNCH, and Beyond: Working Memory Capacity and the Aging Brain , 2010, Journal of Cognitive Neuroscience.
[24] Andrew J Saykin,et al. Cholinergic enhancement of frontal lobe activity in mild cognitive impairment. , 2004, Brain : a journal of neurology.
[25] Hauke R. Heekeren,et al. Load Modulation of BOLD Response and Connectivity Predicts Working Memory Performance in Younger and Older Adults , 2011, Journal of Cognitive Neuroscience.
[26] Ann-Christine Ehlis,et al. Event-related functional near-infrared spectroscopy (fNIRS): Are the measurements reliable? , 2006, NeuroImage.
[27] Yvonne Brehmer,et al. Plasticity of brain and cognition in older adults , 2014, Psychological Research.
[28] Mark W. Greenlee,et al. Structural and functional neural correlates of visuospatial information processing in normal aging and amnestic mild cognitive impairment , 2012, Neurobiology of Aging.
[29] Matthias Kliegel,et al. Working memory training and transfer in older adults: effects of age, baseline performance, and training gains. , 2014, Developmental psychology.
[30] Susanne M. Jaeggi,et al. Impact of working memory training on memory performance in old-old adults. , 2008, Psychology and aging.
[31] F. Yetkin,et al. FMRI of working memory in patients with mild cognitive impairment and probable Alzheimer’s disease , 2005, European Radiology.
[32] B. Carretti,et al. Benefits of training working memory in amnestic mild cognitive impairment: specific and transfer effects , 2012, International Psychogeriatrics.
[33] Aitana Bigorra,et al. Impact of working memory training on hot executive functions (decision-making and theory of mind) in children with ADHD: a randomized controlled trial , 2016 .
[34] S. Gauthier,et al. Training-related brain plasticity in subjects at risk of developing Alzheimer's disease. , 2011, Brain : a journal of neurology.
[35] D. McNamara,et al. Working memory capacity and strategy use , 2001, Memory & cognition.
[36] Ellen M. Migo,et al. Alterations in working memory networks in amnestic mild cognitive impairment , 2015, Neuropsychology, development, and cognition. Section B, Aging, neuropsychology and cognition.
[37] S. Kesler,et al. Neural correlates of cognitive intervention in persons at risk of developing Alzheimer’s disease , 2014, Front. Aging Neurosci..
[38] Y. Stern,et al. Efficiency, capacity, compensation, maintenance, plasticity: emerging concepts in cognitive reserve , 2013, Trends in Cognitive Sciences.
[39] T. Wüstenberg,et al. Working Memory Load-Dependent Brain Response Predicts Behavioral Training Gains in Older Adults , 2014, The Journal of Neuroscience.
[40] J. Grier,et al. Nonparametric indexes for sensitivity and bias: computing formulas. , 1971, Psychological bulletin.
[41] Masako Okamoto,et al. Three-dimensional probabilistic anatomical cranio-cerebral correlation via the international 10–20 system oriented for transcranial functional brain mapping , 2004, NeuroImage.
[42] L. Nyberg,et al. Neural correlates of variable working memory load across adult age and skill: dissociative patterns within the fronto-parietal network. , 2009, Scandinavian journal of psychology.
[43] K. Sathian,et al. Mnemonic strategy training partially restores hippocampal activity in patients with mild cognitive impairment , 2012, Hippocampus.
[44] A. Meyer-Lindenberg,et al. Neurophysiological correlates of age-related changes in working memory capacity , 2006, Neuroscience Letters.
[45] K. Sathian,et al. Activation and Effective Connectivity Changes Following Explicit-Memory Training for Face–Name Pairs in Patients With Mild Cognitive Impairment , 2011, Neurorehabilitation and neural repair.
[46] B Oeseburg,et al. Can Cerebral Blood Volume Be Measured Reproducibly with an Improved near Infrared Spectroscopy System? , 2001, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.
[47] Yaakov Stern,et al. Task difficulty modulates young–old differences in network expression , 2012, Brain Research.
[48] Nelson Cowan,et al. Working Memory Capacity , 2005 .
[49] P. H. Koh,et al. False positives in functional near-infrared topography. , 2009, Advances in experimental medicine and biology.
[50] Thomas Dresler,et al. Neural correlates of a standardized version of the trail making test in young and elderly adults: A functional near-infrared spectroscopy study , 2014, Neuropsychologia.
[51] Lars Bäckman,et al. Transfer of Learning After Updating Training Mediated by the Striatum , 2008, Science.
[52] H. Brodaty,et al. Functional Alterations in Brain Activation and Deactivation in Mild Cognitive Impairment in Response to a Graded Working Memory Challenge , 2011, Dementia and Geriatric Cognitive Disorders.
[53] J. Démonet,et al. The Pattern and Loci of Training-Induced Brain Changes in Healthy Older Adults Are Predicted by the Nature of the Intervention , 2014, PloS one.
[54] Michael Valenzuela,et al. Cognitive and memory training in adults at risk of dementia: A Systematic Review , 2011, BMC geriatrics.
[55] Erika Borella,et al. Working memory training in older adults: evidence of transfer and maintenance effects. , 2010, Psychology and aging.
[56] Kathryn M. McMillan,et al. N‐back working memory paradigm: A meta‐analysis of normative functional neuroimaging studies , 2005, Human brain mapping.
[57] Hauke R. Heekeren,et al. Performance level modulates adult age differences in brain activation during spatial working memory , 2009, Proceedings of the National Academy of Sciences.
[58] S. Leurgans,et al. The neuropathology of probable Alzheimer disease and mild cognitive impairment , 2009, Annals of neurology.
[59] Paige E. Scalf,et al. Training-induced plasticity in older adults: Effects of training on hemispheric asymmetry , 2007, Neurobiology of Aging.
[60] Martin Bellander,et al. Neural correlates of training-related working-memory gains in old age , 2011, NeuroImage.
[61] R. Cabeza. Hemispheric asymmetry reduction in older adults: the HAROLD model. , 2002, Psychology and aging.
[62] Patricia A. Reuter-Lorenz,et al. Age differences in prefontal recruitment during verbal working memory maintenance depend on memory load , 2010, Cortex.
[63] R. Petersen. Mild cognitive impairment as a diagnostic entity , 2004, Journal of internal medicine.
[64] T. Tombaugh,et al. The Mini‐Mental State Examination: A Comprehensive Review , 1992, Journal of the American Geriatrics Society.
[65] R. Kessels,et al. Transfer and maintenance effects of online working-memory training in normal ageing and mild cognitive impairment , 2016, Neuropsychological rehabilitation.
[66] Jurgen A. H. R. Claassen,et al. Very-low-frequency oscillations of cerebral hemodynamics and blood pressure are affected by aging and cognitive load , 2014, NeuroImage.
[67] Susan Whitfield-Gabrieli,et al. Cognitive training changes hippocampal function in mild cognitive impairment: a pilot study. , 2011, Journal of Alzheimer's disease : JAD.
[68] Bernd Ibach,et al. Neural correlates of emotional working memory in patients with mild cognitive impairment , 2008, Neuropsychologia.
[69] D. Delpy,et al. Measurement of Cranial Optical Path Length as a Function of Age Using Phase Resolved Near Infrared Spectroscopy , 1994 .
[70] Y. Joanette,et al. Hemispheric Asymmetry Reduction in Older Adults during Access to Semantic Memory , 2011 .
[71] Rong Zhang,et al. Oscillations in cerebral blood flow and cortical oxygenation in Alzheimer's disease , 2012, Neurobiology of Aging.