Literature DB >> 23454636

Development of circadian rhythms: role of postnatal light environment.

Elisabeth Brooks1, Maria M Canal.   

Abstract

Mammals are born with an immature circadian system, which completes its development postnatally. Evidence suggests that the environment experienced by a newborn will impact and shape its development, which will have future consequences at the levels of circadian system function, circadian behaviour and physiology, and potentially, the animal's long-term health and welfare. Here we review the various stages in postnatal development of the circadian system, and discuss the data available on the long-term effects of early environment, in particular light environment, on the animal's brain, physiology and behaviour.
Copyright © 2013 Elsevier Ltd. All rights reserved.

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Year:  2013        PMID: 23454636     DOI: 10.1016/j.neubiorev.2013.02.012

Source DB:  PubMed          Journal:  Neurosci Biobehav Rev        ISSN: 0149-7634            Impact factor:   8.989


  23 in total

1.  Effect of Long-Term Light Deprivation on α-Tocopherol Content in Rats during Ontogeny.

Authors:  I V Baishnikova; T N Ilyina; E A Khizhkin; V A Ilyukha; I A Vinogradova
Journal:  Bull Exp Biol Med       Date:  2021-01-16       Impact factor: 0.804

2.  Effects of light at night on laboratory animals and research outcomes.

Authors:  Kathryn M Emmer; Kathryn L G Russart; William H Walker; Randy J Nelson; A Courtney DeVries
Journal:  Behav Neurosci       Date:  2018-06-28       Impact factor: 1.912

3.  PERSPECTIVE: The Long-Term Effects of Light Exposure on Establishment of Newborn Circadian Rhythm.

Authors:  Jacqueline Yates
Journal:  J Clin Sleep Med       Date:  2018-10-15       Impact factor: 4.062

Review 4.  Two sides of a coin: ecological and chronobiological perspectives of timing in the wild.

Authors:  Barbara Helm; Marcel E Visser; William Schwartz; Noga Kronfeld-Schor; Menno Gerkema; Theunis Piersma; Guy Bloch
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2017-11-19       Impact factor: 6.237

5.  Mother-infant circadian rhythm: development of individual patterns and dyadic synchrony.

Authors:  Karen A Thomas; Robert L Burr; Susan Spieker; Jungeun Lee; Jessica Chen
Journal:  Early Hum Dev       Date:  2014-10-23       Impact factor: 2.079

6.  High sensitivity of melatonin suppression response to evening light in preschool-aged children.

Authors:  Lauren E Hartstein; Cecilia Diniz Behn; Lameese D Akacem; Nora Stack; Kenneth P Wright; Monique K LeBourgeois
Journal:  J Pineal Res       Date:  2022-01-08       Impact factor: 13.007

7.  Timing for the Introduction of Cycled Light for Extremely Preterm Infants: A Randomized Controlled Trial.

Authors:  Debra H Brandon; Susan G Silva; Jinhee Park; William Malcolm; Heba Kamhawy; Diane Holditch-Davis
Journal:  Res Nurs Health       Date:  2017-04-21       Impact factor: 2.228

8.  Light and maternal influence in the entrainment of activity circadian rhythm in infants 4-12 weeks of age.

Authors:  Karen A Thomas; Robert L Burr; Susan Spieker
Journal:  Sleep Biol Rhythms       Date:  2016-01-05       Impact factor: 1.186

Review 9.  Circadian rhythms and addiction: mechanistic insights and future directions.

Authors:  Ryan W Logan; Wilbur P Williams; Colleen A McClung
Journal:  Behav Neurosci       Date:  2014-04-14       Impact factor: 1.912

10.  MicroRNAs modulate core-clock gene expression in pancreatic islets during early postnatal life in rats.

Authors:  Cécile Jacovetti; Adriana Rodriguez-Trejo; Claudiane Guay; Jonathan Sobel; Sonia Gattesco; Volodymyr Petrenko; Camille Saini; Charna Dibner; Romano Regazzi
Journal:  Diabetologia       Date:  2017-07-04       Impact factor: 10.122
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