Neuroimaging, cognition, light and circadian rhythmsDisrupted sleep: from molecules to cognitionPERIOD3, circadian phenotypes, and sleep homeostasisA human sleep homeostasis phenotype in mice expressing a primate-specific PER3 variable-number tandem-repeat coding-region polymorphismInterindividual variation in sleep duration and its association with sleep debt in young adultsModelling changes in sleep timing and duration across the lifespan: Changes in circadian rhythmicity or sleep homeostasis?Circadian regulation of human cortical excitabilityCircadian dynamics in measures of cortical excitation and inhibition balance.Differential effects of a dual orexin receptor antagonist (SB-649868) and zolpidem on sleep initiation and consolidation, SWS, REM sleep, and EEG power spectra in a model of situational insomniaDeveloping Biomarker Arrays Predicting Sleep and Circadian-Coupled Risks to Health.Altered sleep and behavioral activity phenotypes in PER3-deficient miceAmplitude reduction and phase shifts of melatonin, cortisol and other circadian rhythms after a gradual advance of sleep and light exposure in humansCircadian regulation of slow waves in human sleep: Topographical aspectsDissociating effects of global SWS disruption and healthy aging on waking performance and daytime sleepinessUncovering residual effects of chronic sleep loss on human performance.Age-related reduction in daytime sleep propensity and nocturnal slow wave sleep.Regulation and functional correlates of slow wave sleepAge-related reduction in the maximal capacity for sleep--implications for insomnia.Slow-wave sleep, diabetes, and the sympathetic nervous systemThe suitability of actigraphy, diary data, and urinary melatonin profiles for quantitative assessment of sleep disturbances in schizophrenia: a case report.Brain responses to violet, blue, and green monochromatic light exposures in humans: prominent role of blue light and the brainstem.Light, sleep, and circadian rhythms: together againHypercapnia is a key correlate of EEG activation and daytime sleepiness in hypercapnic sleep disordered breathing patientsIntegration of human sleep-wake regulation and circadian rhythmicity.Comparing the effects of nocturnal sleep and daytime napping on declarative memory consolidation.Timing and consolidation of human sleep, wakefulness, and performance by a symphony of oscillators.Getting through to circadian oscillators: why use constant routines?Daytime light exposure dynamically enhances brain responses.Morning sleep inertia in alertness and performance: effect of cognitive domain and white light conditions.Mathematical models for sleep-wake dynamics: comparison of the two-process model and a mutual inhibition neuronal model.EEG power spectra response to a 4-h phase advance and gaboxadol treatment in 822 men and women.Sleep and circadian rhythm disruption in schizophrenia.Plasma melatonin rhythms in young and older humans during sleep, sleep deprivation, and wake.Survival analysis indicates that age-related decline in sleep continuity occurs exclusively during NREM sleepPER3 polymorphism and cardiac autonomic control: effects of sleep debt and circadian phase.Sleep function: current questions and new approaches.Light as a modulator of cognitive brain function.Blood transcriptome based biomarkers for human circadian phase.The effects of self-selected light-dark cycles and social constraints on human sleep and circadian timing: a modeling approach.Slow-wave sleep deficiency and enhancement: implications for insomnia and its management.
P50
Q21129313-FE7FBC3B-5009-408D-B74B-E4AD28E5EDC1Q23912724-19F7AAD5-F00B-40F6-8947-5324D05F9BEAQ24310709-B14AE74B-FF89-4460-A39C-201539EA357EQ24338357-5D8A6828-706F-429E-8BB7-02D250889DE7Q24539091-8C696C45-288C-415E-9BFC-53093AED06F4Q26778639-75581B39-13DF-44D3-A23E-D418CF36FDCDQ27313881-A9215CD8-E830-4390-840D-0A82EAF437C4Q27347234-A30A818E-4A01-4D9E-8DD8-6DB43934BC83Q28257245-8BDAD9BC-1D9A-4C44-912A-D27A383A97BCQ28389654-3A6F67CE-0604-4DEB-88D5-9DF7D178539EQ28510370-4B920B9B-5606-414E-A725-45D47FC9900AQ28732017-C22FD691-6F04-4DED-962C-CDF537FB4A9BQ30405886-24BE950B-0C4E-44EB-A1E0-CA1ACC71C4AEQ30424391-6A1ADD73-5FEC-4981-BC1F-E127119B06BBQ30435526-367E2ED7-CC3B-4488-8A37-693595A33B55Q30480304-752D8C18-5A2C-411B-8530-0AA1A57AE414Q30483201-47CA2EE5-D8C3-496D-8602-BE4B1326D2E4Q30484540-FD046D76-CC38-4A92-9B44-F9267B32FDEAQ30493861-3818DA17-6BB9-4B51-BCD5-8065095E7601Q31039975-28DA4E47-1DEC-43EA-89BB-B5655D00D34FQ33307547-1095F643-A7B6-4017-B7A9-1FE77413099FQ33472704-C9F2D7CB-15BD-4050-8AD2-32BBABEEFBB9Q33714452-661B71D8-BA11-4F41-9BDC-C564D2E3708EQ34109854-9320DF43-D319-4D83-A473-979EFA509351Q34208070-BAB3307C-B948-4162-B0DE-26C7D551D692Q34439846-FF797DF6-44AD-460B-AC73-4157C5C75E71Q34524160-973EE778-4CAA-4531-A0E5-F91E2983687AQ34558947-D63856D6-C0D1-4A09-8B75-3B549863D666Q34657758-889308A2-B785-4940-9900-32B5CDA03C8CQ35217262-05182ECF-F331-4AFE-A5D2-199FF5633E30Q35311652-291F5070-3D59-4102-8257-85008CD63B5EQ35864323-9558F276-A742-4885-831F-56091B6CFAF5Q36151473-0BC838FC-B3AA-4755-BF15-D724E9D89155Q36312825-70C521F1-7E65-4D31-B52A-5113A5006840Q37038933-41DE37AF-357B-4AA5-9ADC-4BEA33D09E89Q37497521-F7176199-BD81-475E-994A-CCF46F967F2BQ37596141-39F88C0D-ACD5-4922-B8FE-23F4EC68D14BQ37653222-20535D3C-DC5C-4E59-A1B8-95BEE4C97105Q37721585-3B305153-F04B-40FF-B1F1-C9C8FD29C06FQ37761383-769DF7C9-3C53-4D41-9D3A-073D794CA11F
P50
description
Dutch academic
@en
Dutch academic
@en-ca
Dutch academic
@en-gb
Nederlands onderzoeker
@nl
investigador neerlandés
@es
أكاديمي هولندي
@ar
name
Derk-Jan Dijk
@ast
Derk-Jan Dijk
@ca
Derk-Jan Dijk
@en
Derk-Jan Dijk
@es
Derk-Jan Dijk
@fr
Derk-Jan Dijk
@nl
Derk-Jan Dijk
@sl
type
label
Derk-Jan Dijk
@ast
Derk-Jan Dijk
@ca
Derk-Jan Dijk
@en
Derk-Jan Dijk
@es
Derk-Jan Dijk
@fr
Derk-Jan Dijk
@nl
Derk-Jan Dijk
@sl
prefLabel
Derk-Jan Dijk
@ast
Derk-Jan Dijk
@ca
Derk-Jan Dijk
@en
Derk-Jan Dijk
@es
Derk-Jan Dijk
@fr
Derk-Jan Dijk
@nl
Derk-Jan Dijk
@sl
P21
P31
P569
1958-01-01T00:00:00Z