Increased cerebral response during a divided attention task following sleep deprivation.
about
Facilitation of task performance and removal of the effects of sleep deprivation by an ampakine (CX717) in nonhuman primates.Sleep disturbance and cognitive deficits in bipolar disorder: toward an integrated examination of disorder maintenance and functional impairmentOverlapping prefrontal systems involved in cognitive and emotional processing in euthymic bipolar disorder and following sleep deprivation: a review of functional neuroimaging studiesSleep deprivation: Impact on cognitive performanceIs it time to turn our attention toward central mechanisms for post-exertional recovery strategies and performance?Partial sleep in the context of augmentation of brain functionEffects of sleep deprivation on cortical activation during directed attention in the absence and presence of visual stimuliThe Case for Addressing Operator FatigueCircadian rhythms, sleep deprivation, and human performanceWidespread hypermetabolism in symptomatic and asymptomatic episodes in Kleine-Levin syndromeCognitive neuroscience of sleepNocturnal mnemonics: sleep and hippocampal memory processingAcute Sleep Deprivation Induces a Local Brain Transfer Information Increase in the Frontal Cortex in a Widespread Decrease Context.Sleep deprivation influences diurnal variation of human time perception with prefrontal activity change: a functional near-infrared spectroscopy studyMeasurement of reaction time in the home for people with dementia: a feasibility studyREM restriction persistently alters strategy used to solve a spatial task.The physiology of willpower: linking blood glucose to self-control.The effects of two types of sleep deprivation on visual working memory capacity and filtering efficiency.Functional brain imaging of a complex navigation task following one night of total sleep deprivation: a preliminary study.Random number generation during sleep deprivation: effects of caffeine on response maintenance and stereotypy.Sleep, plasticity and memory from molecules to whole-brain networks.Sleep deprivation alters functioning within the neural network underlying the covert orienting of attention.How acute total sleep loss affects the attending brain: a meta-analysis of neuroimaging studies.Sleep deprivation alters pupillary reactivity to emotional stimuli in healthy young adults.Altered salience network connectivity predicts macronutrient intake after sleep deprivation.The Effects of 24-hour Sleep Deprivation on the Exploration-Exploitation Trade-off.The impact of moderate sleep loss on neurophysiologic signals during working-memory task performanceIdentifying changes in EEG information transfer during drowsy driving by transfer entropy.Effects of Sleep Deprivation on Phase Synchronization as Assessed by Wavelet Phase Coherence Analysis of Prefrontal Tissue Oxyhemoglobin Signals.Making group inferences using sparse representation of resting-state functional mRI data with application to sleep deprivation.Neurobiological consequences of sleep deprivation.The Effects of the Sleep Quality of 112 Emergency Health Workers in Kayseri, Turkey on Their Professional Life.Impairment of attentional networks after 1 night of sleep deprivationPreliminary fMRI findings in experimentally sleep-restricted adolescents engaged in a working memory task.The combined effect of sleep and time of day on emotion decoding from dynamic visual cues in older adults.An ERP examination of the different effects of sleep deprivation on exogenously cued and endogenously cued attention.Excessive Sleep and Lack of Sleep Are Associated With Slips and Falls in the Adult Korean Population: A Population-Based Cross-Sectional Study.Future research directions in sleep and ADHD: report of a consensus working group.The relationship between sleep and working memory in children with neurological conditions.The Impact of Sleep Disruption on Complex Cognitive Tasks: A Meta-Analysis.
P2860
Q21092790-04329E30-C431-40EC-B0FE-A1A61ABFCD2EQ22252259-0B7ACEBE-97FA-42D3-986C-AB518C16FC2FQ22252260-185AD8B4-9746-42DC-995F-F7B87BF59817Q24657416-A37CD17D-1570-48F8-B49F-AFB97F0C7ABFQ28260126-72B19503-B210-4ABB-B6BA-D8E3051E790AQ28385372-9720337D-F64E-41C5-817C-D94867E4D583Q28391300-BDF0B2E2-24E5-4243-819D-323C867A5642Q28395768-FECE106C-E5B2-48F9-93E7-370762CD7159Q28397877-19F01131-40DA-4258-8DCC-556130FB5893Q28541945-06D32B18-E44E-4577-92F8-D3B33228C3EBQ28655215-68259B3F-0A24-4139-92F5-D56E88B85DE5Q28730197-464CE397-89D1-4BBB-BF36-56849E773471Q30384288-C482B323-137D-4650-8204-2B4D5138608FQ33521911-8B8E6E80-E2B6-4D22-933C-D11B9C689D2CQ33725161-00316E7A-9819-41B1-BD67-34495A4BDAA4Q33841545-FCBFA0EA-020F-4FFA-A5B6-7D400680977DQ34011471-124D9430-18DB-453A-A84C-ADC793449437Q34243969-D582F506-319D-48ED-9DE3-340E0FECF219Q34477754-529680EC-4394-4D49-A6EA-70704391DCA5Q34496193-93B0B385-1556-4651-B537-AADFE090FBD3Q34656050-5EFAF450-8A12-4246-9663-6D86458935E7Q34782529-96473D2E-8A9B-4FD0-8F49-53E07A2E4063Q34887612-198AE0AE-E7B5-4D0C-B7A3-43660644DCEBQ35023727-85B8FD5A-EA38-492D-AF80-240AF89E43B4Q35040819-8D1AB824-A8E4-49AE-889A-73212AE81612Q35040851-385B2D30-28F5-4161-9DE1-F23AE788BB89Q35113079-0BDD3499-320A-48BE-A14C-BC1B99412EEAQ36191853-96AE47AC-222F-415F-9957-7FEEB889A117Q36238331-9CFBA230-D893-496D-BFAD-BB0CDA850B23Q36408740-E70EDFDE-157E-43EF-B7A8-596CF9908D4BQ36828912-F152359D-7FE9-45D8-B236-696B2D572D82Q37010142-62F4C737-B741-44F9-9794-24069A645213Q37089885-25015592-5192-42A7-8133-4929FDD95319Q37125580-3158AB45-F7CC-45E9-823B-158B0C8245E0Q37234636-45307EA1-7262-466B-9A1E-50F139AF409BQ37366938-9539A9ED-2B9C-4260-9481-590206E93A62Q37624049-EC18906A-0EFA-461B-A877-896F9776F190Q38043889-3A8734FA-E76F-4BDF-A72A-77F3937B19A6Q38378120-3A2B0EBB-D275-4EDC-A3DF-BB56E26BC648Q38409595-8BD32BFD-A4B6-4025-880C-00F45F7D9AFC
P2860
Increased cerebral response during a divided attention task following sleep deprivation.
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年学术文章
@wuu
2001年学术文章
@zh
2001年学术文章
@zh-cn
2001年学术文章
@zh-hans
2001年学术文章
@zh-my
2001年学术文章
@zh-sg
2001年學術文章
@yue
2001年學術文章
@zh-hant
name
Increased cerebral response during a divided attention task following sleep deprivation.
@en
Increased cerebral response during a divided attention task following sleep deprivation.
@nl
type
label
Increased cerebral response during a divided attention task following sleep deprivation.
@en
Increased cerebral response during a divided attention task following sleep deprivation.
@nl
prefLabel
Increased cerebral response during a divided attention task following sleep deprivation.
@en
Increased cerebral response during a divided attention task following sleep deprivation.
@nl
P1476
Increased cerebral response during a divided attention task following sleep deprivation
@en
P2093
P356
10.1046/J.1365-2869.2001.00245.X
P577
2001-06-01T00:00:00Z