Kronotip ve Sosyal Jet-Lag'in Nörobilişsel İşlevler Üzerindeki Etkileri
Yıl 2023,
Cilt: 15 Sayı: 3, 407 - 417, 30.09.2023
Sakine Aktaş
,
Pınar Guzel Ozdemir
Öz
Bireylerin günlük aktiviteleri ve uyku-uyanıklık döngülerindeki sirkadiyen ritim tercihlerini yansıtan kronotip, bir ucu aşırı sabahçıl ve bir ucu aşırı akşamcıl olan bir boyutta ele alınabilir. Aşırı sabahçıl ve aşırı akşamcıl kronotipe sahip bireylerin, biriken uyku borcu, toplam uyku süresinin kısalığı ve uykudan yeterince verim alınamaması gibi nedenler yüzünden birçok bedensel ve ruhsal tehlike ile karşı karşıya oldukları bilinmektedir. Uç kronotiplerde, özellikle de uç akşamcıllarda, sosyal ve sirkadiyen saatler arasındaki uyumsuzluk nedeniyle ortaya çıkan sosyal jet-lag etkisinin bu tehlikeleri daha da kötüleştirdiği düşünülmektedir. Son yıllardaki çalışmalar sosyal jet-lag ve kronotipin bilişsel işlevler üzerine birçok olumsuz etki yarattığını saptamıştır. Bu derlemenin amacı, sosyal jet-lag ve kronotipin bilişsel işlevler üzerine olan etkisini gözden geçirmektir.
Kaynakça
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Effects of Chronotype and Social Jet-Lag on Neurocognitive Functioning
Yıl 2023,
Cilt: 15 Sayı: 3, 407 - 417, 30.09.2023
Sakine Aktaş
,
Pınar Guzel Ozdemir
Öz
The chronotype, which reflects the circadian rhythm preferences of individuals in their daily activities and sleep-wake cycles, can be considered on a dimension of extreme morningism and extreme eveningism. Individuals with extreme morning and extreme evening chronotypes face many physical and psychological dangers due to accumulated sleep debt, short total sleep time and insufficient sleep efficiency. In extreme chronotypes, especially in extreme evening people, the social jet-lag effect due to the mismatch between social and circadian clocks is thought to exacerbate these dangers. More recent studies have suggested that social jet-lag and chronotype have many negative effects on cognitive functioning. The aim of this article is to review the impact of social jet-lag and chronotype on cognitive functioning.
Kaynakça
- 1. Montaruli, A, Castelli L, Mulè A, Scurati R, Esposito F, Galasso L et al. (2021) Biological rhythm and chronotype: new perspectives in health. Biomolecules, 11(4):487.
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- 8. Druiven SJM, Riese H, Kamphuis J, Haarman BCM, Antypa N, Penninx BWJH et al. (2021) Chronotype changes with age; seven-year follow-up from the Netherlands study of depression and anxiety cohort. Journal of affective disorders, 295:1118-1121.
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- 13. Paine SJ, Gander PH, Travier N. (2006) The epidemiology of morningness/eveningness: influence of age, gender, ethnicity, and socioeconomic factors in adults (30-49 years). Journal of biological rhythms, 21(1):68-76.
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- 16. Mongrain V, Paquet J, Dumont M. (2006) Contribution of the photoperiod at birth to the association between season of birth and diurnal preference. Neuroscience letters, 406(1-2):113-116.
- 17. Tonetti L, Fabbri M, Martoni M, Natale V. (2011) Season of birth and sleep-timing preferences in adolescents. Chronobiology international, 28(6):536-540.
- 18. Didikoglu A, Maharani A, Canal MM, Pendleton N, Payton A. (2020) Interactions between season of birth, chronological age and genetic polymorphisms in determining later-life chronotype. Mechanisms of Ageing and Development, 188:111253.
- 19. Horne JA, Ostberg O. (1976) A self-assessment questionnaire to determine morningness-eveningness in human circadian rhythms. International journal of chronobiology, 4(2):97-110.
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- 21. Carskadon MA, Vieira C, Acebo C. (1993) Association between puberty and delayed phase preference. Sleep, 16(3):258-262.
- 22. Lack L, Bailey M, Lovato N, Wright H. (2009) Chronotype differences in circadian rhythms of temperature, melatonin, and sleepiness as measured in a modified constant routine protocol. Nature and science of sleep, 1:1.
- 23. Williams GE. (2000) Geological constraints on the precambrian history of earth’s rotation and the moon’s orbit. Reviews of Geophysics, 38: 37-59.
- 24. Caliandro R, Streng AA, van Kerkhof LW, van der Horst GT, Chaves I. (2021) Social jetlag and related risks for human health: A timely review. Nutrients, 13(12):4543.
- 25. Roenneberg T. (2012) Internal Time: Chronotypes, Social Jet Lag, and Why You're So Tired. Harvard University Press.
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- 27. Levandovski R, Dantas G, Fernandes LC, et al. (2011) Depression scores associate with chronotype and social jetlag in a rural population. Chronobiology international, 28(9):771-778.
- 28. Liang F, Fu J, Xu Y, Wang Y, Qiu N, Ding K et al. (2022). Associations of Social Jetlag with Dietary Behavior, Physical Activity and Obesity among Chinese Adolescents. Nutrients, 14(3):510.
- 29. Mirghani HO. (2022) The cross talk between chronotype, depression symptomatology, and glycaemic control among sudanese patients with diabetes mellitus: A case-control study. Journal of Family Medicine and Primary Care, 11(1):330.
- 30. Taylor BJ, Hasler, BP. (2018) Chronotype and mental health: recent advances. Current psychiatry reports, 20(8):1-10.
- 31. Ritonja J, Aronson KJ, Matthews RW, Boivin DB, Kantermann T. (2019) Working Time Society consensus statements: Individual differences in shift work tolerance and recommendations for research and practice. Industrial health, 57(2):201-212.
- 32. Leone MJ, Sigman M, Golombek DA. (2020) Effects of lockdown on human sleep and chronotype during the COVID-19 pandemic. Current Biology, 30(16):930-931.
- 33. Selvi Y, Ozkol H, Tuluce Y, Besiroglu L, Ozdemir, PG. (2012) Chronotypes and oxidative stress: is there an association?. Biological Rhythm Research, 43(2):167-176.
- 34. Ong HS, Lim CS, Png ALC, Kong JW, Peh ALH. (2021) Chronobiology and the case for sleep health interventions in the community. Singapore Medical Journal, 62(5):220-224.
- 35. Takahashi M, Tahara Y, Tsubosaka M, Fukazawa M, Ozaki M, Iwakami T et al. (2018) Chronotype and social jetlag influence human circadian clock gene expression. Scientific reports, 8(1):1-10.
- 36. Maukonen M, Havulinna AS, Männistö S, Kanerva N, Salomaa V, Partonen T. (2020) Genetic associations of chronotype in the Finnish general population. Journal of biological rhythms, 35(5):501-511.
- 37. Skeldon AC, Phillips AJ, Dijk DJ. (2017) The effects of self-selected light-dark cycles and social constraints on human sleep and circadian timing: a modeling approach. Scientific reports, 7(1):1-14.
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