Abstract is: Charles A. Czeisler (born 1952) is an American physician and sleep researcher. He is a researcher and author in the fields of both circadian rhythms and sleep medicine.
| human | Q5 |
| P2381 | Academic Tree ID | 175276 |
| P646 | Freebase ID | /m/0g9vfnw |
| P213 | ISNI | 0000000116887660 |
| P244 | Library of Congress authority ID | n83208619 |
| P2798 | Loop ID | 9870 |
| P8189 | National Library of Israel J9U ID | 987007366380505171 |
| P1006 | Nationale Thesaurus voor Auteursnamen ID | 068561687 |
| P1015 | NORAF ID | 90270141 |
| P1207 | NUKAT ID | n2005128085 |
| P856 | official website | http://dms.hms.harvard.edu/neuroscience/fac/Czeisler.php |
| P7293 | PLWABN ID | 9810571724605606 |
| P214 | VIAF ID | 94281313 |
| P10832 | WorldCat Entities ID | E39PBJrKQFjwwRwhbhkKhFCbBP |
| P6424 | affiliation string | Harvard Medical School | |
| P69 | educated at | Harvard University | Q13371 |
| Stanford University | Q41506 | ||
| Stanford University School of Medicine | Q4115969 | ||
| Harvard College | Q49123 | ||
| P108 | employer | Harvard University | Q13371 |
| P734 | family name | Czeisler | Q105585287 |
| Czeisler | Q105585287 | ||
| Czeisler | Q105585287 | ||
| P101 | field of work | chronobiology | Q506874 |
| P735 | given name | Charles | Q2958359 |
| Charles | Q2958359 | ||
| P106 | occupation | physician | Q39631 |
| neuroscientist | Q6337803 | ||
| P1344 | participant in | World Economic Forum Annual Meeting 2014 | Q114717230 |
| P21 | sex or gender | male | Q6581097 |
| Q24630975 | A common polymorphism near PER1 and the timing of human behavioral rhythms |
| Q34193115 | A phase response curve to single bright light pulses in human subjects |
| Q44079723 | Absence of circadian phase resetting in response to bright light behind the knees |
| Q36940311 | Acute effects of bright light exposure on cortisol levels |
| Q30444228 | Acute sleep deprivation and circadian misalignment associated with transition onto the first night of work impairs visual selective attention |
| Q44968863 | Adaptation of human pineal melatonin suppression by recent photic history. |
| Q42775284 | Addition of a non-photic component to a light-based mathematical model of the human circadian pacemaker |
| Q48672816 | Age-related change in the relationship between circadian period, circadian phase, and diurnal preference in humans |
| Q28391821 | Armodafinil for treatment of excessive sleepiness associated with shift work disorder: a randomized controlled study |
| Q30414566 | Assessment of drowsiness based on ocular parameters detected by infrared reflectance oculography |
| Q46439497 | Bilateral oculosympathetic paresis associated with loss of nocturnal melatonin secretion in patients with spinal cord injury. |
| Q30407149 | Blue light stimulates cognitive brain activity in visually blind individuals |
| Q47316827 | Circadian Rhythms in Plasma Brain-derived Neurotrophic Factor Differ in Men and Women |
| Q53059303 | Circadian misalignment affects sleep and medication use before and during spaceflight. |
| Q37730786 | Circadian phase resetting by a single short-duration light exposure |
| Q35138168 | Common sleep disorders increase risk of motor vehicle crashes and adverse health outcomes in firefighters |
| Q36703030 | Comparison of sustained attention assessed by auditory and visual psychomotor vigilance tasks prior to and during sleep deprivation |
| Q44805477 | Daily exercise facilitates phase delays of circadian melatonin rhythm in very dim light |
| Q57104372 | Data and methods for studying commercial motor vehicle driver fatigue, highway safety and long-term driver health |
| Q35758138 | Decreased sensitivity to phase-delaying effects of moderate intensity light in older subjects |
| Q28386390 | Deterioration of neurobehavioral performance in resident physicians during repeated exposure to extended duration work shifts. |
| Q36980451 | Direct effects of light on alertness, vigilance, and the waking electroencephalogram in humans depend on prior light history. |
| Q37510424 | Diurnal spectral sensitivity of the acute alerting effects of light |
| Q23914203 | Does simulator-based clinical performance correlate with actual hospital behavior? The effect of extended work hours on patient care provided by medical interns |
| Q33700789 | EEG sleep spectra in older adults across all circadian phases during NREM sleep. |
| Q34099197 | Effect of Light on Human Circadian Physiology |
| Q24813172 | Effect of intern's consecutive work hours on safety, medical education and professionalism. |
| Q24608496 | Effect of modafinil on impairments in neurobehavioral performance and learning associated with extended wakefulness and circadian misalignment |
| Q23921909 | Effect of reducing interns' weekly work hours on sleep and attentional failures |
| Q23911165 | Effect of reducing interns' work hours on serious medical errors in intensive care units |
| Q24091371 | Effective implementation of work-hour limits and systemic improvements |
| Q48446960 | Effects of health care provider work hours and sleep deprivation on safety and performance |
| Q48517783 | Effects of sleep inertia on cognition |
| Q37386637 | Efficacy of a single sequence of intermittent bright light pulses for delaying circadian phase in humans |
| Q27331854 | Endogenous circadian regulation of pro-inflammatory cytokines and chemokines in the presence of bacterial lipopolysaccharide in humans |
| Q34628299 | Entrainment of the human circadian pacemaker to longer-than-24-h days |
| Q23915901 | Evaluation of a single-channel nasal pressure device to assess obstructive sleep apnea risk in laboratory and home environments |
| Q30619462 | Evening use of light-emitting eReaders negatively affects sleep, circadian timing, and next-morning alertness |
| Q46867998 | Exercise distributed across day and night does not alter circadian period in humans |
| Q30428120 | Exposure to room light before bedtime suppresses melatonin onset and shortens melatonin duration in humans |
| Q23909177 | Extended work duration and the risk of self-reported percutaneous injuries in interns |
| Q23916706 | Extended work shifts and the risk of motor vehicle crashes among interns |
| Q86101490 | Graduated Driver-Licensing: The Authors Reply |
| Q35065305 | Healthy older adults better tolerate sleep deprivation than young adults |
| Q24170408 | High risk of near-crash driving events following night-shift work |
| Q28206531 | High sensitivity of the human circadian melatonin rhythm to resetting by short wavelength light |
| Q47826939 | Human phase response curve to a 1 h pulse of bright white light. |
| Q44048029 | Human phase response curve to a single 6.5 h pulse of short-wavelength light |
| Q48248021 | Human responses to bright light of different durations |
| Q36930753 | Impact of Common Diabetes Risk Variant in MTNR1B on Sleep, Circadian, and Melatonin Physiology. |
| Q21144684 | Impact of extended-duration shifts on medical errors, adverse events, and attentional failures |
| Q47248581 | Impaired cognitive flexibility during sleep deprivation among carriers of the Brain Derived Neurotrophic Factor (BDNF) Val66Met allele |
| Q27908544 | Implementing a sleep health education and sleep disorders screening program in fire departments: a comparison of methodology |
| Q28397051 | Implementing the 2009 Institute of Medicine recommendations on resident physician work hours, supervision, and safety |
| Q30416822 | Improved neurobehavioral performance during the wake maintenance zone |
| Q33593056 | Influence of sleep deprivation and circadian misalignment on cortisol, inflammatory markers, and cytokine balance |
| Q23909271 | Interns' compliance with accreditation council for graduate medical education work-hour limits |
| Q37270696 | Intrinsic period and light intensity determine the phase relationship between melatonin and sleep in humans |
| Q33789782 | Irregular sleep/wake patterns are associated with poorer academic performance and delayed circadian and sleep/wake timing |
| Q44184086 | Making residency work hour rules work. |
| Q36448953 | Melanopsin and rod-cone photoreceptors play different roles in mediating pupillary light responses during exposure to continuous light in humans |
| Q45223372 | Melatonin, sleep, and circadian rhythms |
| Q28265627 | Modafinil for excessive sleepiness associated with shift-work sleep disorder |
| Q39186944 | Noncontact Pressure-Based Sleep/Wake Discrimination |
| Q37946365 | Panel discussion: current status of measuring sleepiness |
| Q21144751 | Plasticity of the intrinsic period of the human circadian timing system |
| Q35971513 | Prediction of Vigilant Attention and Cognitive Performance Using Self-Reported Alertness, Circadian Phase, Hours since Awakening, and Accumulated Sleep Loss |
| Q28395495 | Prevalence of sleep deficiency and use of hypnotic drugs in astronauts before, during, and after spaceflight: an observational study |
| Q47690905 | Randomized, Prospective Study of the Impact of a Sleep Health Program on Firefighter Injury and Disability |
| Q82991616 | Recovery from medical errors: the critical care nursing safety net |
| Q34155205 | Relationship between alertness, performance, and body temperature in humans |
| Q42559822 | Reply to Zeitzer: Good science, in or out of the laboratory, should prevail |
| Q36570740 | Revisiting spontaneous internal desynchrony using a quantitative model of sleep physiology |
| Q44374387 | Risks of complications by attending physicians after performing nighttime procedures |
| Q46512475 | Scheduling of sleep/darkness affects the circadian phase of night shift workers |
| Q48139122 | Searching night and day: a dissociation of effects of circadian phase and time awake on visual selective attention and vigilance |
| Q47216153 | Self-reported drowsiness and safety outcomes while driving after an extended duration work shift in trainee physicians |
| Q30427868 | Sex difference in the near-24-hour intrinsic period of the human circadian timing system |
| Q28389480 | Sex differences in phase angle of entrainment and melatonin amplitude in humans |
| Q47122541 | Short Sleep Duration, Obstructive Sleep Apnea, Shiftwork, and the Risk of Adverse Cardiovascular Events in Patients After an Acute Coronary Syndrome |
| Q24684932 | Short-wavelength light sensitivity of circadian, pupillary, and visual awareness in humans lacking an outer retina |
| Q46957130 | Short-wavelength sensitivity for the direct effects of light on alertness, vigilance, and the waking electroencephalogram in humans |
| Q34537079 | Sleep and wakefulness out of phase with internal biological time impairs learning in humans |
| Q55016160 | Sleep deficiency and motor vehicle crash risk in the general population: a prospective cohort study. |
| Q23909323 | Sleep disorders, health, and safety in police officers |
| Q47851701 | Sleep-deprived motor vehicle operators are unfit to drive: a multidisciplinary expert consensus statement on drowsy driving |
| Q47688975 | Soluble interleukin-13rα1: a circulating regulator of glucose |
| Q28282246 | Spectral responses of the human circadian system depend on the irradiance and duration of exposure to light |
| Q52721064 | Suppression of Melatonin Secretion in Totally Visually Blind People by Ocular Exposure to White Light: Clinical Characteristics. |
| Q46487946 | Temporal dynamics of late-night photic stimulation of the human circadian timing system |
| Q28395768 | The Case for Addressing Operator Fatigue |
| Q24266838 | The Critical Care Safety Study: the incidence and nature of adverse events and serious medical errors in intensive care |
| Q37815770 | The challenges and opportunities of technological approaches to fatigue management |
| Q35854545 | The effects of circadian phase, time awake, and imposed sleep restriction on performing complex visual tasks: evidence from comparative visual search |
| Q48321910 | The human circadian system adapts to prior photic history |
| Q24647714 | The impact of sleep timing and bright light exposure on attentional impairment during night work |
| Q40567038 | The influence of subjective alertness and motivation on human performance independent of circadian and homeostatic regulation |
| Q28396887 | US public opinion regarding proposed limits on resident physician work hours |
| Q25017724 | When policy meets physiology: the challenge of reducing resident work hours |
| Q56967693 | Young adults are more vulnerable to chronic sleep deficiency and recurrent circadian disruption than older adults |
| Category:Charles Czeisler | wikimedia | |
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