scholarly article | Q13442814 |
P50 | author | Charmane I Eastman | Q59697341 |
P2093 | author name string | Helen J Burgess | |
P2860 | cites work | The dim light melatonin onset following fixed and free sleep schedules | Q23913513 |
Individual differences in the amount and timing of salivary melatonin secretion | Q23913514 | ||
How to trick mother nature into letting you fly around or stay up all night | Q23923291 | ||
Bright light, dark and melatonin can promote circadian adaptation in night shift workers | Q24170395 | ||
A three pulse phase response curve to three milligrams of melatonin in humans | Q24642414 | ||
Laboratory and field studies of naps and caffeine as practical countermeasures for sleep-wake problems associated with night work | Q24852039 | ||
Modafinil improves alertness, vigilance, and executive function during simulated night shifts | Q25930462 | ||
Individual differences in the phase and amplitude of the human circadian temperature rhythm: with an emphasis on morningness-eveningness | Q28137969 | ||
Stability, precision, and near-24-hour period of the human circadian pacemaker | Q28138096 | ||
High sensitivity of the human circadian melatonin rhythm to resetting by short wavelength light | Q28206531 | ||
Modafinil for excessive sleepiness associated with shift-work sleep disorder | Q28265627 | ||
Chronic jet-lag increases mortality in aged mice. | Q28272330 | ||
Circadian rhythm sleep disorders: part I, basic principles, shift work and jet lag disorders. An American Academy of Sleep Medicine review | Q28382767 | ||
Phase advancing the human circadian clock with blue-enriched polychromatic light | Q28390208 | ||
Advancing human circadian rhythms with afternoon melatonin and morning intermittent bright light | Q28391850 | ||
Human tau in an ultradian light-dark cycle | Q28396732 | ||
A circadian oscillator model based on empirical data | Q31461013 | ||
Risk of breast cancer in female flight attendants: a population-based study (Iceland). | Q33335459 | ||
How to use light and dark to produce circadian adaptation to night shift work | Q33645384 | ||
Forty years of PRCs--what have we learned? | Q33786067 | ||
Identifying some determinants of "jet lag" and its symptoms: a study of athletes and other travellers | Q33957655 | ||
Incidence of cancer among Nordic airline pilots over five decades: occupational cohort study | Q34068762 | ||
Advancing circadian rhythms before eastward flight: a strategy to prevent or reduce jet lag. | Q34074777 | ||
Preflight adjustment to eastward travel: 3 days of advancing sleep with and without morning bright light. | Q34093114 | ||
Phase-amplitude resetting of the human circadian pacemaker via bright light: a further analysis | Q72292314 | ||
Hypnotics and caffeine as countermeasures for shiftwork-related sleepiness and sleep disturbance | Q73294249 | ||
Chronic jet lag produces cognitive deficits | Q73514930 | ||
The human phase response curve (PRC) to melatonin is about 12 hours out of phase with the PRC to light | Q74287351 | ||
Re-entrainment of circadian rhythm of plasma melatonin on an 8-h eastward flight | Q78164981 | ||
Phase and period responses of the circadian system of mice (Mus musculus) to light stimuli of different duration | Q80335863 | ||
Circadian rhythm sleep disorders | Q81813109 | ||
Integration of human sleep-wake regulation and circadian rhythmicity | Q34109854 | ||
A phase response curve to single bright light pulses in human subjects | Q34193115 | ||
The dependence of onset and duration of sleep on the circadian rhythm of rectal temperature | Q34284414 | ||
Stability of melatonin and temperature as circadian phase markers and their relation to sleep times in humans | Q34411908 | ||
Bright light induction of strong (type 0) resetting of the human circadian pacemaker | Q34532046 | ||
Jet lag: trends and coping strategies. | Q34614266 | ||
Light treatment for sleep disorders: consensus report. III. Alerting and activating effects. | Q40458933 | ||
Light treatment for sleep disorders: consensus report. VII. Jet lag. | Q40458958 | ||
Traveler's amnesia. Transient global amnesia secondary to triazolam | Q42219007 | ||
Postprandial hormone and metabolic responses in simulated shift work | Q42527952 | ||
Cancer incidence in California flight attendants (United States). | Q43446031 | ||
Chronic 'jet lag' produces temporal lobe atrophy and spatial cognitive deficits | Q43615609 | ||
Re-entrainment of the circadian rhythms of plasma melatonin in an 11-h eastward bound flight | Q43651329 | ||
Effectiveness and tolerability of melatonin and zolpidem for the alleviation of jet lag. | Q43686958 | ||
Melatonin and zopiclone as pharmacologic aids to facilitate crew rest | Q43805874 | ||
The validity of the temporal parameters of the daily rhythm of melatonin levels as an indicator of morningness | Q44030982 | ||
Jet lag in athletes after eastward and westward time-zone transition | Q44104918 | ||
A survey of the health experiences of international business travelers. Part One--Physiological aspects | Q44194269 | ||
Phase advancing human circadian rhythms with short wavelength light | Q44427009 | ||
Caffeine or melatonin effects on sleep and sleepiness after rapid eastward transmeridian travel | Q44576001 | ||
Zolpidem reduces the sleep disturbance of jet lag | Q44638553 | ||
Age-related differences in recovery from simulated jet lag. | Q45082169 | ||
Effects of chronic jet lag on tumor progression in mice. | Q45134031 | ||
An abrupt shift in the day/night cycle causes desynchrony in the mammalian circadian center. | Q48256679 | ||
Using nine 2-h delays to achieve a 6-h advance disrupts sleep, alertness, and circadian rhythm. | Q48568391 | ||
Timed exposure to bright light improves sleep and alertness during simulated night shifts | Q48615913 | ||
Association of intrinsic circadian period with morningness-eveningness, usual wake time, and circadian phase | Q48685414 | ||
Failure of extraocular light to facilitate circadian rhythm reentrainment in humans | Q48707653 | ||
Use of melatonin in recovery from jet-lag following an eastward flight across 10 time-zones | Q48709916 | ||
Inducing jet-lag in older people: directional asymmetry | Q48720513 | ||
Effects of zopiclone on the rest/activity rhythm after a westward flight across five time zones | Q48721533 | ||
Melatonin rhythm observed throughout a three-cycle bright-light stimulus designed to reset the human circadian pacemaker | Q48748519 | ||
The endogenous melatonin profile as a marker for circadian phase position | Q48748537 | ||
Ageing and the circadian and homeostatic regulation of human sleep during forced desynchrony of rest, melatonin and temperature rhythms | Q48769294 | ||
Effects of timed bright-light exposure on shift-work adaptation in middle-aged subjects. | Q48813427 | ||
Caffeine intake (200 mg) in the morning affects human sleep and EEG power spectra at night. | Q48823395 | ||
A human phase-response curve to light | Q48895772 | ||
Entrainment of circadian rhythms with 26-h bright light and sleep-wake schedules | Q48916306 | ||
Melatonin efficacy in aviation missions requiring rapid deployment and night operations. | Q51113376 | ||
High-intensity light for circadian adaptation to a 12-h shift of the sleep schedule | Q51149678 | ||
Using the Argonne diet in jet lag prevention: deployment of troops across nine time zones. | Q51542106 | ||
Transition between advance and delay responses to eastbound transmeridian flights. | Q52425910 | ||
Disorders of the menstrual cycle in airline stewardesses. | Q52506398 | ||
Conflicting bright light exposure during night shifts impedes circadian adaptation. | Q54104325 | ||
Re-entrainment of circadian rhythms after phase-shifts of the Zeitgeber | Q67338758 | ||
Effects of travel across time zones (jet-lag) on exercise capacity and performance | Q71701411 | ||
P6195 | funding scheme | grant | Q230788 |
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | jet lag | Q192579 |
transportation industry | Q2516512 | ||
P5008 | on focus list of Wikimedia project | Wikimedia–NIOSH collaboration | Q104416361 |
P304 | page(s) | 241-255 | |
P12526 | performing organization | Rush University Medical Center | Q1535116 |
P577 | publication date | 2009-06-01 | |
P1433 | published in | Sleep Medicine Clinics | Q15767234 |
P859 | sponsor | National Institute for Occupational Safety and Health | Q60346 |
P1476 | title | How To Travel the World Without Jet lag | |
P478 | volume | 4 |
Q34251396 | Circadian disruption and remedial interventions: effects and interventions for jet lag for athletic peak performance |
Q28393410 | Circadian rhythms of European and African-Americans after a large delay of sleep as in jet lag and night work |
Q28396494 | Circadian-Based Therapies for Circadian Rhythm Sleep-Wake Disorders |
Q38059181 | Effect of airline travel on performance: a review of the literature |
Q52654805 | Effects of Sleep, Physical Activity, and Shift Work on Daily Mood: a Prospective Mobile Monitoring Study of Medical Interns. |
Q28388019 | How to get a bigger dose of bright light |
Q36703014 | Influence of weeks of circadian misalignment on leptin levels. |
Q92649570 | Interventions to Minimize Jet Lag After Westward and Eastward Flight |
Q37848695 | Jet lag and psychotic disorders |
Q38101552 | Jet lag syndrome: circadian organization, pathophysiology, and management strategies |
Q64977051 | Jet lag: Heuristics and therapeutics. |
Q28393796 | Melatonin in the afternoons of a gradually advancing sleep schedule enhances the circadian rhythm phase advance |
Q43219782 | Melatonin treatment for eastward and westward travel preparation |
Q37519992 | Methods of the international study on soccer at altitude 3600 m (ISA3600). |
Q21563471 | Optimal schedules of light exposure for rapidly correcting circadian misalignment |
Q28385710 | Partial sleep deprivation reduces phase advances to light in humans |
Q48332227 | Phase advance with separate and combined melatonin and light treatment |
Q28388918 | Phase advancing human circadian rhythms with morning bright light, afternoon melatonin, and gradually shifted sleep: can we reduce morning bright-light duration? |
Q28390142 | Phase delaying the human circadian clock with a single light pulse and moderate delay of the sleep/dark episode: no influence of iris color |
Q33460125 | Position statement--altitude training for improving team-sport players' performance: current knowledge and unresolved issues |
Q33686839 | Rapid changes in the light/dark cycle disrupt memory of conditioned fear in mice. |
Q58042839 | Rheuma, Jetlag und die innere Uhr |
Q28397062 | Shift work: health, performance and safety problems, traditional countermeasures, and innovative management strategies to reduce circadian misalignment |
Q37519341 | The impact of altitude on the sleep of young elite soccer players (ISA3600). |
Q37519981 | The sleep of elite athletes at sea level and high altitude: a comparison of sea-level natives and high-altitude natives (ISA3600). |
Q42906991 | Treatment of Shift Work Disorder and Jet Lag |