Literature DB >> 34344864

Cognitive functions and underlying parameters of human brain physiology are associated with chronotype.

Mohammad Ali Salehinejad1,2, Miles Wischnewski3, Elham Ghanavati1,4, Mohsen Mosayebi-Samani1, Min-Fang Kuo1, Michael A Nitsche5,6.   

Abstract

Circadian rhythms have natural relative variations among humans known as chronotype. Chronotype or being a morning or evening person, has a specific physiological, behavioural, and also genetic manifestation. Whether and how chronotype modulates human brain physiology and cognition is, however, not well understood. Here we examine how cortical excitability, neuroplasticity, and cognition are associated with chronotype in early and late chronotype individuals. We monitor motor cortical excitability, brain stimulation-induced neuroplasticity, and examine motor learning and cognitive functions at circadian-preferred and non-preferred times of day in 32 individuals. Motor learning and cognitive performance (working memory, and attention) along with their electrophysiological components are significantly enhanced at the circadian-preferred, compared to the non-preferred time. This outperformance is associated with enhanced cortical excitability (prominent cortical facilitation, diminished cortical inhibition), and long-term potentiation/depression-like plasticity. Our data show convergent findings of how chronotype can modulate human brain functions from basic physiological mechanisms to behaviour and higher-order cognition.
© 2021. The Author(s).

Entities:  

Year:  2021        PMID: 34344864     DOI: 10.1038/s41467-021-24885-0

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  84 in total

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Authors:  Christoph Scheiermann; Yuya Kunisaki; Paul S Frenette
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Review 8.  The genetics of mammalian circadian order and disorder: implications for physiology and disease.

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9.  Genome-wide association analyses of chronotype in 697,828 individuals provides insights into circadian rhythms.

Authors:  Samuel E Jones; Jacqueline M Lane; Andrew R Wood; Vincent T van Hees; Jessica Tyrrell; Robin N Beaumont; Aaron R Jeffries; Hassan S Dashti; Melvyn Hillsdon; Katherine S Ruth; Marcus A Tuke; Hanieh Yaghootkar; Seth A Sharp; Yingjie Jie; William D Thompson; Jamie W Harrison; Amy Dawes; Enda M Byrne; Henning Tiemeier; Karla V Allebrandt; Jack Bowden; David W Ray; Rachel M Freathy; Anna Murray; Diego R Mazzotti; Philip R Gehrman; Debbie A Lawlor; Timothy M Frayling; Martin K Rutter; David A Hinds; Richa Saxena; Michael N Weedon
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10.  Circadian regulation of human cortical excitability.

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Journal:  Nat Commun       Date:  2016-06-24       Impact factor: 14.919
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3.  Neural Mechanism Underlying Task-Specific Enhancement of Motor Learning by Concurrent Transcranial Direct Current Stimulation.

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4.  Sleep-dependent upscaled excitability, saturated neuroplasticity, and modulated cognition in the human brain.

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5.  Transcranial Direct Current Stimulation of the Dorsolateral Prefrontal Cortex Modulates Cognitive Function Related to Motor Execution During Sequential Task: A Randomized Control Study.

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7.  Effects of transcranial alternating current stimulation over right-DLPFC on vigilance tasks depend on the arousal level.

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8.  Association of Delayed Sleep/Wake Rhythm with Depression During the First COVID-19 Lockdown in France.

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Review 10.  Circadian disturbances, sleep difficulties and the COVID-19 pandemic.

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