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Jet lag

February 16, 2024

This article is about the syndrome. For other uses, see Jet lag (disambiguation).

Jet lag is a temporary physiological condition that occurs when one's body's circadian rhythms is out of sync with the time zone that they're in, and is a typical result from doing rapid long-distance travel across multiple time zones (east–west or west–east trans-meridian). For example, someone flying from New York to London, i.e. from west to east, feels as if the time were five hours earlier than local time, and someone travelling from London to New York, i.e. from east to west, feels as if the time were five hours later than local time. The phase shift when traveling from east to west is referred to as phase-delay of the circadian circle, whereas going west to east is phase-advance of the circadian circle. Most travelers find that it is harder to time zone adjust when traveling to the east.[1] Jet lag was previously classified as one of the circadian rhythm sleep disorders.[2]

Jet lag
Other namesDesynchronosis, circadian dysrhythmia
World clocks
SpecialtyPsychiatry, neurology, aviation medicine

The condition of jet lag may last several days before the traveller becomes fully adjusted to the new time zone; and it takes on average, one day per time zone crossed, to reach circadian readaptation.[3] Jet lag is especially an issue for airline pilots, aircraft crew, and frequent travellers. Airlines have regulations aimed at combating pilot fatigue caused by jet lag.

The term "jet lag" is used because before the arrival of passenger jet aircraft, it was uncommon to travel far and fast enough to cause desynchronosis.

Discovery edit

According to a 1969 study by the Federal Aviation Administration, aviator Wiley Post was the first to write about the effects of flying across time zones in his 1931 co-authored book, Around the World in Eight Days.[4][5]

Signs and symptoms edit

The symptoms of jet lag can be quite varied, depending on the amount of time zone alteration, time of day, and individual differences. Sleep disturbance occurs, with poor sleep upon arrival and/or sleep disruptions such as trouble falling asleep (when flying east), early awakening (when flying west), and trouble remaining asleep. Cognitive effects include poorer performance on mental tasks and concentration; dizziness, nausea, insomnia, confusion, anxiety, increased fatigue, headaches, and irritability; and problems with digestion, including indigestion, changes in the frequency of defecation and consistency of faeces, and reduced interest in and enjoyment of food.[6] The symptoms are caused by a circadian rhythm that is out of sync with the day–night cycle of the destination,[7] as well as the possibility of internal desynchronisation. Jet lag has been measured with simple analogue scales, but a study has shown that these are relatively blunt for assessing all the problems associated with jet lag. The Liverpool Jet Lag Questionnaire was developed to measure all the symptoms of jet lag at several times of day, and this dedicated measurement tool has been used to assess jet lag in athletes.[8]

Jet lag may require a change of three time zones or more to occur, though some individuals can be affected by as little as a single time zone or the single-hour shift to or from daylight saving time.[7] Symptoms and consequences of jet lag can be a significant concern for athletes travelling east or west to competitions, as performance is often dependent on a combination of physical and mental characteristics that are affected by jet lag. This is often a common concern at international sporting events like the Olympics and FIFA World Cup. However many athletes arrive at least 2–4 weeks ahead of these events, to help adjust from any jet lag issues.[9]

Travel fatigue edit

Travel fatigue is general fatigue, disorientation, and headache caused by a disruption in routine, time spent in a cramped space with little chance to move around, a low-oxygen environment, and dehydration caused by dry air and limited food and drink. It does not necessarily involve the shift in circadian rhythms that cause jet lag. Travel fatigue can occur without crossing time zones, and it often disappears after one day accompanied by a night of good quality sleep.[7]

Cause edit

Jet lag is a chronobiological problem,[10] similar to issues often induced by shift work and the circadian rhythm sleep disorders. When travelling across a number of time zones, the body clock (circadian rhythm) will be out of synchronisation with the destination time, as it experiences daylight and darkness contrary to the rhythms to which it has grown accustomed. The body's natural pattern is upset, as the rhythms that dictate times for eating, sleeping, hormone regulation, body temperature variations, and other functions no longer correspond to the environment, nor to each other in some cases. To the degree that the body cannot immediately realign these rhythms, it is jet lagged.

The speed at which the body adjusts to the new schedule depends on the individual as well as the direction of travel; some people may require several days to adjust to a new time zone, while others experience little disruption.

Crossing the International Date Line does not in itself contribute to jet lag, as the guide for calculating jet lag is the number of time zones crossed, with a maximum possible time difference of plus or minus 12 hours. If the absolute time difference between two locations is greater than 12 hours, one must subtract 24 from or add 24 to that number. For example, the time zone UTC+14 will be at the same time of day as UTC−10, though the former is one day ahead of the latter.

Jet lag is linked only to the trans-meridian (west–east or east–west) distance travelled. A ten-hour flight between Europe and southern Africa does not cause jet lag, as the direction of travel is primarily north–south. A four-hour flight between Miami, Florida, and Phoenix, Arizona, in the United States may result in jet lag, as the direction of travel is primarily east–west.

Double desynchronisation edit

There are two separate processes related to biological timing: circadian oscillators and homeostasis.[11][12] The circadian system is located in the suprachiasmatic nucleus (SCN) in the hypothalamus of the brain. The other process is homeostatic sleep propensity, which is a function of the amount of time elapsed since the last adequate sleep episode.[12]

The human body has a master clock in the SCN and also peripheral oscillators in tissues. The SCN's role is to send signals to peripheral oscillators, which synchronise them for physiological functions. The SCN responds to light information sent from the retina. It is hypothesised that peripheral oscillators respond to internal signals such as hormones, food intake, and "nervous stimuli".[13]

The implication of independent internal clocks may explain some of the symptoms of jet lag. People who travel across several time zones can, within a few days, adapt their sleep–wake cycles with light from the environment. However, their skeletal muscles, liver, lungs, and other organs will adapt at different rates.[14] This internal biological de-synchronisation is exacerbated as the body is not in sync with the environment – a "double desynchronisation", which has implications for health and mood.[15]

Delayed sleep phase disorder edit

Delayed sleep phase disorder is a medical disorder characterized by delayed sleeping time and a proportionately delayed waking time due to a phase delay in the endogenous biological master clock. Specific genotypes underlie this disorder. If allowed to sleep as dictated by their endogenous clock these individuals do not have any ill effects as a result of their phase shifted sleeping time.

Management edit

Light exposure edit

Light is the strongest stimulus, or zeitgeber, for realigning a person's sleep–wake light-dark cycles, and the key to quick adaptation is therefore timed light exposure based on the traveler's sleep pattern, chronotype, itinerary.

Timed light exposure can be effective to help people match their circadian rhythms with the expected cycle at their destination; it requires strict adherence to timing.[16] Light therapy is a popular method used by professional athletes to reduce jet lag.[17] Timed correctly, the light may contribute to an advance or delay of the circadian phase to that which will be needed at the destination.[18]

The Centers for Disease Control and Prevention (CDC) recommends the Timeshifter jet lag app for the correct timing of light exposure and light avoidance, when to use caffeine and melatonin, and when to sleep.[19]

Melatonin administration edit

In addition to timed light exposure, the right type and dose of melatonin, at the right time, can help the traveler shift faster and sleep better as they are transitioning between time zones.[20] There remain issues regarding the appropriate timing of melatonin use in addition to the legality of the substance in certain countries. For athletes, anti-doping agencies may prohibit or limit its use.[9]

Melatonin can be considered to be a darkness signal, with effects on circadian timing that are the opposite of the effects of exposure to light.[21][22] Melatonin receptors are situated on the suprachiasmatic nucleus, which is the anatomical site of the circadian clock.[23] The results of a few field studies of melatonin administration, monitoring circadian phase, have provided evidence for a correlation between the reduction of jet lag symptoms and the accelerated realignment of the circadian clock.[24]

Short duration trips edit

In the case of short duration trips, an easy way to minimize jet lag is to maintain the sleep-wake schedule from home after arriving at the destination, but this strategy is often unpractical in regard to desired social activities or work obligations.[25] Shifting one's sleep schedule before departure by 1–2 hours to match the destination time zone may also shorten the duration of jet lag.[26] Symptoms can be reduced even more through a combination of artificial exposure to light and rescheduling, as it has been shown to augment phase-shifting.[27]

Pharmacotherapy edit

Short term use of hypnotic medications have shown efficacy to reducing insomnia related to jet lag.[28][29] In a study, zolpidem improved sleep quality and reduced awakenings for people traveling across five to nine time zones.[30] The potential adverse effects of hypnotic agents, like amnesia and confusion, have led some practitioners to advise patients to 'test run' such medications prior to using such medications for treating jet lag.[31][32] Several cases using triazolam to promote sleep during a flight reported dramatic global amnesia.[33]

Mental health implications edit

Jet lag may affect the mental health of vulnerable individuals. When travelling across time zones, there is a "phase-shift of body temperature, rapid-eye-movement sleep, melatonin production, and other circadian rhythms".[34] A 2002 study found that relapse of major affective and psychotic disorders occurred more frequently when seven or more time zones had been crossed in the past week than when three or fewer had been crossed.[35] Although significant disruptions of circadian rhythms had been documented as affecting individuals with bipolar disorder, an Australian team studied suicide statistics from 1971 to 2001 to determine whether the one-hour shifts involved in daylight saving time had an effect. They found increased incidence of male suicide after the commencement of daylight saving time but not after returning to standard time.[36]

See also edit

 
Wikivoyage has a travel guide for Jet lag.

References edit

  1. ^ Kalat, James W. (8 February 2018). Biological Psychology (13 ed.). Cengage. p. 261. ISBN 978-1-337-40820-2.
  2. ^ (PDF). American Psychiatric Association. 17 May 2013. Archived from the original (PDF) on 17 September 2013. Retrieved 23 May 2013.
  3. ^ "Jet Lag - an overview | ScienceDirect Topics". www.sciencedirect.com. Retrieved 15 February 2024.
  4. ^ Post, Wiley; Gatty, Harold (1931). Around the World in Eight Days. London: Hamilton.
  5. ^ Siegel, P. V. M.D.; Gerathewol, Siegfried J. Ph.D.; Mohler, Stanley R. M.D. (September 1969). Time-Zone Effects On the Long Distance Air Traveler (PDF) (Report). Federal Aviation Administration. p. 3.
  6. ^ Doyle, Ashley (10 January 2020). "Jet Lag: It's Symptoms and What you can do to stop it". Savvysleeper. Retrieved 3 June 2020.
  7. ^ a b c Waterhouse, J; Reilly, T; Atkinson, G; Edwards, B (31 March 2007). "Jet lag: trends and coping strategies". The Lancet. 369 (9567): 1117–1129. doi:10.1016/S0140-6736(07)60529-7. PMID 17398311. S2CID 1569314. Retrieved 1 August 2015.
  8. ^ Waterhouse, J.; Edwards, B.; Nevill, A.; Carvalho, S.; Atkinson, G.; Buckley, P.; Reilly, T.; Godfrey, R.; Ramsay, R. (2002). "Identifying some determinants of 'jet lag' and its symptoms: A study of athletes and other travellers". British Journal of Sports Medicine. 36 (1): 54–60. doi:10.1136/bjsm.36.1.54. PMC 1724441. PMID 11867494.
  9. ^ a b Forbes-Robertson, S.; Dudley, E.; Vadgama, P.; Cook, C.; Drawer, S.; Kilduff, L. (2012). "Circadian Disruption and Remedial Interventions". Sports Medicine. 42 (3): 185–208. doi:10.2165/11596850-000000000-00000. PMID 22299812. S2CID 35498294.
  10. ^ Waterhouse, J. (1999). "Jet-lag and shift work: (1). Circadian rhythms". Journal of the Royal Society of Medicine. 92 (8): 398–401. doi:10.1177/014107689909200804. PMC 1297314. PMID 10656004.
  11. ^ Beersma, D. G. (1998). "Models of human sleep regulation". Sleep (PDF). Vol. 2. Berlin: Springer. pp. 61–70. doi:10.1016/s1087-0792(98)90052-1. PMID 15310511. S2CID 17581306. {{cite book}}: |journal= ignored (help)
  12. ^ a b Dijk, D. J.; Lockley, S. W. (2002). "Invited Review: Integration of human sleep–wake regulation and circadian rhythmicity". Journal of Applied Physiology. 92 (2): 852–862. doi:10.1152/japplphysiol.00924.2001. PMID 11796701.
  13. ^ Brown, S. A. & Azzi, A. (2013). "Peripheral circadian oscillators in mammals". Circadian clocks. Berlin: Springer. pp. 45–66. Center for Substance Abuse Treatment (2008). "Appendix D: DSM-IV-TR Mood Disorders". Managing Depressive Symptoms in Substance Abuse Clients During Early Recovery. Treatment Improvement Protocol (TIP) Series, No. 48. Rockville, MD: Substance Abuse and Mental Health Services Administration.
  14. ^ Yamazaki, S.; Numano, R.; Abe, M.; Hida, A.; Takahashi, R. I.; Ueda, M.; Tei, H. (2000). "Resetting central and peripheral circadian oscillators in transgenic rats". Science. 288 (5466): 682–685. Bibcode:2000Sci...288..682Y. doi:10.1126/science.288.5466.682. PMID 10784453. S2CID 8102779.
  15. ^ Wirz-Justice, A (2006). "Biological rhythm disturbances in mood disorders". International Clinical Psychopharmacology. 21: S11–S15. doi:10.1097/01.yic.0000195660.37267.cf. PMID 16436934. S2CID 233040.
  16. ^ Sack, R. L.; Auckley, D.; Auger, R. R.; Carskadon, M. A.; Wright Jr, K. P.; Vitiello, M. V.; Zhdanova, I. V. (2007). "Circadian Rhythm Sleep Disorders: Part I, Basic Principles, Shift Work and Jet Lag Disorders An American Academy of Sleep Medicine Review". Sleep. 30 (11): 1460–83. doi:10.1093/sleep/30.11.1460. PMC 2082105. PMID 18041480.
  17. ^ Mitchell, Peter (17 March 2014). "LA Dodgers bring secret weapon to Sydney". The Sydney Morning Herald. Retrieved 21 October 2014.
  18. ^ "The science of jet lag". Timeshifter. Retrieved 3 January 2023.
  19. ^ "CDC Yellow Book 2024". Timeshifter. Retrieved 3 January 2023.
  20. ^ "Melatonin for jet lag". Timeshifter. Retrieved 3 January 2023.
  21. ^ Lewy, A., Bauer, V. K., Ahmed, S., Thomas, K. H., Cutler, N. L., Singer, C. M., ... Sack, R. (1998). The human phase response curve (PRC) to melatonin is about 12 hours out of phase with the PRC to light. Chronobiology International, 15(1), 71–83.
  22. ^ Burgess, H. J., Revell, V. L., Eastman, C. I. (2008). A three pulse phase response curve to three milligrams of melatonin in humans. J Physiol, 586:639–47. doi:10.1113/jphysiol.2007.143180
  23. ^ Dubocovich, M. L., Benloucif, S., Masana, M. I. (1996). Melatonin receptors in the mammalian suprachiasmatic nucleus. Behav Brain Res, 73:141–7.
  24. ^ Piérard, C., Beaumont, M., Enslen, M. et al. (2001). Resynchronization of hormonal rhythms after an eastbound flight in humans: effects of slow-release caffeine and melatonin. Eur J Appl Physiol, 85:144. doi:10.1007/s004210100418
  25. ^ Lowden, A., Akerstedt, T. (1998). Retaining home-base sleep hours to prevent jet lag in connection with a westward flight across nine time zones. Chronobiol Int, 15:365–76.
  26. ^ Sack, R. L. (2010). Clinical practice : Jet lag. N Engl J Med, 362:440–7. doi:10.1056/NEJMcp0909838
  27. ^ Eastman, Charmane I.; Burgess, Helen J. (2009). "How to Travel the World Without Jet Lag". Sleep Medicine Clinics. 4 (2): 241–255. doi:10.1016/j.jsmc.2009.02.006. PMC 2829880. PMID 20204161.
  28. ^ Suhner, A., Schlagenhauf, P., Höfer, I., Johnson, R., Tschopp, A., Steffen, R. (2001). Effectiveness and tolerability of melatonin and zolpidem for the alleviation of jet lag. Aviat Space Environ Med, 72:638–46.
  29. ^ Reilly, T., Atkinson, G., Budgett, R. (2001). Effect of low-dose temazepam on physiological variables and performance tests following a westerly flight across five time zones. Int J Sports Med, 22:166–74. doi:10.1055/s-2001-16379
  30. ^ Jamieson, A.O., Zammit, G.K., Rosenberg, R.S., Davis, J. R., Walsh, J. K. (2001). Zolpidem reduces the sleep disturbance of jet lag. Sleep Med, 2:423–30.
  31. ^ Dolder, C. R., Nelson, M. H. (2008). Hypnosedative-induced complex behaviours: incidence, mechanisms and management. CNS Drugs, 22:1021–36. doi:10.2165/0023210-200822120-00005
  32. ^ "Should You Take Sleeping Pills on a Flight?". Condé Nast Traveler. 7 December 2016. Retrieved 27 July 2023.
  33. ^ Morris, H. H. III, Estes, M. L. (1987). Traveler's amnesia: transient global amnesia secondary to triazolam. JAMA, 258:945–6. doi:10.1001/jama.258.7.945
  34. ^ Young, D. M. (1995). "Psychiatric morbidity in travelers to Honolulu, Hawaii". Comprehensive Psychiatry. 36 (3): 224–228. doi:10.1016/0010-440x(95)90086-b. PMID 7648847.
  35. ^ Katz, G.; Knobler, H. Y.; Laibel, Z.; Strauss, Z.; Durst, R. (2002). "Time zone change and major psychiatric morbidity: the results of a 6-year study in Jerusalem". Comprehensive Psychiatry. 43 (1): 37–40. doi:10.1053/comp.2002.29849. PMID 11788917.
  36. ^ Berk, M.; Dodd, S.; Hallam, K.; Berk, L.; Gleeson, J.; Henry, M. (2008). "Small shifts in diurnal rhythms are associated with an increase in suicide: the effect of daylight saving". Sleep and Biological Rhythms. 6 (1): 22–25. doi:10.1111/j.1479-8425.2007.00331.x. S2CID 146306689.

February 16, 2024
this, article, about, syndrome, other, uses, disambiguation, temporary, physiological, condition, that, occurs, when, body, circadian, rhythms, sync, with, time, zone, that, they, typical, result, from, doing, rapid, long, distance, travel, across, multiple, t. This article is about the syndrome For other uses see Jet lag disambiguation Jet lag is a temporary physiological condition that occurs when one s body s circadian rhythms is out of sync with the time zone that they re in and is a typical result from doing rapid long distance travel across multiple time zones east west or west east trans meridian For example someone flying from New York to London i e from west to east feels as if the time were five hours earlier than local time and someone travelling from London to New York i e from east to west feels as if the time were five hours later than local time The phase shift when traveling from east to west is referred to as phase delay of the circadian circle whereas going west to east is phase advance of the circadian circle Most travelers find that it is harder to time zone adjust when traveling to the east 1 Jet lag was previously classified as one of the circadian rhythm sleep disorders 2 Jet lagOther namesDesynchronosis circadian dysrhythmiaWorld clocksSpecialtyPsychiatry neurology aviation medicineThe condition of jet lag may last several days before the traveller becomes fully adjusted to the new time zone and it takes on average one day per time zone crossed to reach circadian readaptation 3 Jet lag is especially an issue for airline pilots aircraft crew and frequent travellers Airlines have regulations aimed at combating pilot fatigue caused by jet lag The term jet lag is used because before the arrival of passenger jet aircraft it was uncommon to travel far and fast enough to cause desynchronosis Contents 1 Discovery 2 Signs and symptoms 2 1 Travel fatigue 3 Cause 3 1 Double desynchronisation 3 2 Delayed sleep phase disorder 4 Management 4 1 Light exposure 4 2 Melatonin administration 4 3 Short duration trips 4 4 Pharmacotherapy 5 Mental health implications 6 See also 7 ReferencesDiscovery editAccording to a 1969 study by the Federal Aviation Administration aviator Wiley Post was the first to write about the effects of flying across time zones in his 1931 co authored book Around the World in Eight Days 4 5 Signs and symptoms editThe symptoms of jet lag can be quite varied depending on the amount of time zone alteration time of day and individual differences Sleep disturbance occurs with poor sleep upon arrival and or sleep disruptions such as trouble falling asleep when flying east early awakening when flying west and trouble remaining asleep Cognitive effects include poorer performance on mental tasks and concentration dizziness nausea insomnia confusion anxiety increased fatigue headaches and irritability and problems with digestion including indigestion changes in the frequency of defecation and consistency of faeces and reduced interest in and enjoyment of food 6 The symptoms are caused by a circadian rhythm that is out of sync with the day night cycle of the destination 7 as well as the possibility of internal desynchronisation Jet lag has been measured with simple analogue scales but a study has shown that these are relatively blunt for assessing all the problems associated with jet lag The Liverpool Jet Lag Questionnaire was developed to measure all the symptoms of jet lag at several times of day and this dedicated measurement tool has been used to assess jet lag in athletes 8 Jet lag may require a change of three time zones or more to occur though some individuals can be affected by as little as a single time zone or the single hour shift to or from daylight saving time 7 Symptoms and consequences of jet lag can be a significant concern for athletes travelling east or west to competitions as performance is often dependent on a combination of physical and mental characteristics that are affected by jet lag This is often a common concern at international sporting events like the Olympics and FIFA World Cup However many athletes arrive at least 2 4 weeks ahead of these events to help adjust from any jet lag issues 9 Travel fatigue edit Travel fatigue is general fatigue disorientation and headache caused by a disruption in routine time spent in a cramped space with little chance to move around a low oxygen environment and dehydration caused by dry air and limited food and drink It does not necessarily involve the shift in circadian rhythms that cause jet lag Travel fatigue can occur without crossing time zones and it often disappears after one day accompanied by a night of good quality sleep 7 Cause editJet lag is a chronobiological problem 10 similar to issues often induced by shift work and the circadian rhythm sleep disorders When travelling across a number of time zones the body clock circadian rhythm will be out of synchronisation with the destination time as it experiences daylight and darkness contrary to the rhythms to which it has grown accustomed The body s natural pattern is upset as the rhythms that dictate times for eating sleeping hormone regulation body temperature variations and other functions no longer correspond to the environment nor to each other in some cases To the degree that the body cannot immediately realign these rhythms it is jet lagged The speed at which the body adjusts to the new schedule depends on the individual as well as the direction of travel some people may require several days to adjust to a new time zone while others experience little disruption Crossing the International Date Line does not in itself contribute to jet lag as the guide for calculating jet lag is the number of time zones crossed with a maximum possible time difference of plus or minus 12 hours If the absolute time difference between two locations is greater than 12 hours one must subtract 24 from or add 24 to that number For example the time zone UTC 14 will be at the same time of day as UTC 10 though the former is one day ahead of the latter Jet lag is linked only to the trans meridian west east or east west distance travelled A ten hour flight between Europe and southern Africa does not cause jet lag as the direction of travel is primarily north south A four hour flight between Miami Florida and Phoenix Arizona in the United States may result in jet lag as the direction of travel is primarily east west Double desynchronisation edit There are two separate processes related to biological timing circadian oscillators and homeostasis 11 12 The circadian system is located in the suprachiasmatic nucleus SCN in the hypothalamus of the brain The other process is homeostatic sleep propensity which is a function of the amount of time elapsed since the last adequate sleep episode 12 The human body has a master clock in the SCN and also peripheral oscillators in tissues The SCN s role is to send signals to peripheral oscillators which synchronise them for physiological functions The SCN responds to light information sent from the retina It is hypothesised that peripheral oscillators respond to internal signals such as hormones food intake and nervous stimuli 13 The implication of independent internal clocks may explain some of the symptoms of jet lag People who travel across several time zones can within a few days adapt their sleep wake cycles with light from the environment However their skeletal muscles liver lungs and other organs will adapt at different rates 14 This internal biological de synchronisation is exacerbated as the body is not in sync with the environment a double desynchronisation which has implications for health and mood 15 Delayed sleep phase disorder edit Delayed sleep phase disorder is a medical disorder characterized by delayed sleeping time and a proportionately delayed waking time due to a phase delay in the endogenous biological master clock Specific genotypes underlie this disorder If allowed to sleep as dictated by their endogenous clock these individuals do not have any ill effects as a result of their phase shifted sleeping time Management editLight exposure edit Light is the strongest stimulus or zeitgeber for realigning a person s sleep wake light dark cycles and the key to quick adaptation is therefore timed light exposure based on the traveler s sleep pattern chronotype itinerary Timed light exposure can be effective to help people match their circadian rhythms with the expected cycle at their destination it requires strict adherence to timing 16 Light therapy is a popular method used by professional athletes to reduce jet lag 17 Timed correctly the light may contribute to an advance or delay of the circadian phase to that which will be needed at the destination 18 The Centers for Disease Control and Prevention CDC recommends the Timeshifter jet lag app for the correct timing of light exposure and light avoidance when to use caffeine and melatonin and when to sleep 19 Melatonin administration edit In addition to timed light exposure the right type and dose of melatonin at the right time can help the traveler shift faster and sleep better as they are transitioning between time zones 20 There remain issues regarding the appropriate timing of melatonin use in addition to the legality of the substance in certain countries For athletes anti doping agencies may prohibit or limit its use 9 Melatonin can be considered to be a darkness signal with effects on circadian timing that are the opposite of the effects of exposure to light 21 22 Melatonin receptors are situated on the suprachiasmatic nucleus which is the anatomical site of the circadian clock 23 The results of a few field studies of melatonin administration monitoring circadian phase have provided evidence for a correlation between the reduction of jet lag symptoms and the accelerated realignment of the circadian clock 24 Short duration trips edit In the case of short duration trips an easy way to minimize jet lag is to maintain the sleep wake schedule from home after arriving at the destination but this strategy is often unpractical in regard to desired social activities or work obligations 25 Shifting one s sleep schedule before departure by 1 2 hours to match the destination time zone may also shorten the duration of jet lag 26 Symptoms can be reduced even more through a combination of artificial exposure to light and rescheduling as it has been shown to augment phase shifting 27 Pharmacotherapy edit Short term use of hypnotic medications have shown efficacy to reducing insomnia related to jet lag 28 29 In a study zolpidem improved sleep quality and reduced awakenings for people traveling across five to nine time zones 30 The potential adverse effects of hypnotic agents like amnesia and confusion have led some practitioners to advise patients to test run such medications prior to using such medications for treating jet lag 31 32 Several cases using triazolam to promote sleep during a flight reported dramatic global amnesia 33 Mental health implications editJet lag may affect the mental health of vulnerable individuals When travelling across time zones there is a phase shift of body temperature rapid eye movement sleep melatonin production and other circadian rhythms 34 A 2002 study found that relapse of major affective and psychotic disorders occurred more frequently when seven or more time zones had been crossed in the past week than when three or fewer had been crossed 35 Although significant disruptions of circadian rhythms had been documented as affecting individuals with bipolar disorder an Australian team studied suicide statistics from 1971 to 2001 to determine whether the one hour shifts involved in daylight saving time had an effect They found increased incidence of male suicide after the commencement of daylight saving time but not after returning to standard time 36 See also edit nbsp Wikivoyage has a travel guide for Jet lag Sleep deprivationReferences edit Kalat James W 8 February 2018 Biological Psychology 13 ed Cengage p 261 ISBN 978 1 337 40820 2 Highlights of Changes from DSM IV TR to DSM5 PDF American Psychiatric Association 17 May 2013 Archived from the original PDF on 17 September 2013 Retrieved 23 May 2013 Jet Lag an overview ScienceDirect Topics www sciencedirect com Retrieved 15 February 2024 Post Wiley Gatty Harold 1931 Around the World in Eight Days London Hamilton Siegel P V M D Gerathewol Siegfried J Ph D Mohler Stanley R M D September 1969 Time Zone Effects On the Long Distance Air Traveler PDF Report Federal Aviation Administration p 3 Doyle Ashley 10 January 2020 Jet Lag It s Symptoms and What you can do to stop it Savvysleeper Retrieved 3 June 2020 a b c Waterhouse J Reilly T Atkinson G Edwards B 31 March 2007 Jet lag trends and coping strategies The Lancet 369 9567 1117 1129 doi 10 1016 S0140 6736 07 60529 7 PMID 17398311 S2CID 1569314 Retrieved 1 August 2015 Waterhouse J Edwards B Nevill A Carvalho S Atkinson G Buckley P Reilly T Godfrey R Ramsay R 2002 Identifying some determinants of jet lag and its symptoms A study of athletes and other travellers British Journal of Sports Medicine 36 1 54 60 doi 10 1136 bjsm 36 1 54 PMC 1724441 PMID 11867494 a b Forbes Robertson S Dudley E Vadgama P Cook C Drawer S Kilduff L 2012 Circadian Disruption and Remedial Interventions Sports Medicine 42 3 185 208 doi 10 2165 11596850 000000000 00000 PMID 22299812 S2CID 35498294 Waterhouse J 1999 Jet lag and shift work 1 Circadian rhythms Journal of the Royal Society of Medicine 92 8 398 401 doi 10 1177 014107689909200804 PMC 1297314 PMID 10656004 Beersma D G 1998 Models of human sleep regulation Sleep PDF Vol 2 Berlin Springer pp 61 70 doi 10 1016 s1087 0792 98 90052 1 PMID 15310511 S2CID 17581306 a href Template Cite book html title Template Cite book cite book a journal ignored help a b Dijk D J Lockley S W 2002 Invited Review Integration of human sleep wake regulation and circadian rhythmicity Journal of Applied Physiology 92 2 852 862 doi 10 1152 japplphysiol 00924 2001 PMID 11796701 Brown S A amp Azzi A 2013 Peripheral circadian oscillators in mammals Circadian clocks Berlin Springer pp 45 66 Center for Substance Abuse Treatment 2008 Appendix D DSM IV TR Mood Disorders Managing Depressive Symptoms in Substance Abuse Clients During Early Recovery Treatment Improvement Protocol TIP Series No 48 Rockville MD Substance Abuse and Mental Health Services Administration Yamazaki S Numano R Abe M Hida A Takahashi R I Ueda M Tei H 2000 Resetting central and peripheral circadian oscillators in transgenic rats Science 288 5466 682 685 Bibcode 2000Sci 288 682Y doi 10 1126 science 288 5466 682 PMID 10784453 S2CID 8102779 Wirz Justice A 2006 Biological rhythm disturbances in mood disorders International Clinical Psychopharmacology 21 S11 S15 doi 10 1097 01 yic 0000195660 37267 cf PMID 16436934 S2CID 233040 Sack R L Auckley D Auger R R Carskadon M A Wright Jr K P Vitiello M V Zhdanova I V 2007 Circadian Rhythm Sleep Disorders Part I Basic Principles Shift Work and Jet Lag Disorders An American Academy of Sleep Medicine Review Sleep 30 11 1460 83 doi 10 1093 sleep 30 11 1460 PMC 2082105 PMID 18041480 Mitchell Peter 17 March 2014 LA Dodgers bring secret weapon to Sydney The Sydney Morning Herald Retrieved 21 October 2014 The science of jet lag Timeshifter Retrieved 3 January 2023 CDC Yellow Book 2024 Timeshifter Retrieved 3 January 2023 Melatonin for jet lag Timeshifter Retrieved 3 January 2023 Lewy A Bauer V K Ahmed S Thomas K H Cutler N L Singer C M Sack R 1998 The human phase response curve PRC to melatonin is about 12 hours out of phase with the PRC to light Chronobiology International 15 1 71 83 Burgess H J Revell V L Eastman C I 2008 A three pulse phase response curve to three milligrams of melatonin in humans J Physiol 586 639 47 doi 10 1113 jphysiol 2007 143180 Dubocovich M L Benloucif S Masana M I 1996 Melatonin receptors in the mammalian suprachiasmatic nucleus Behav Brain Res 73 141 7 Pierard C Beaumont M Enslen M et al 2001 Resynchronization of hormonal rhythms after an eastbound flight in humans effects of slow release caffeine and melatonin Eur J Appl Physiol 85 144 doi 10 1007 s004210100418 Lowden A 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