睡眠影响婴幼儿认知发育的机制研究_Journal of Epilepsy

Authors：

吴至凤 , 邓虹燕 , 李骁 ,  赵聪敏

第三军医大学第二附属医院儿科(重庆 400037);

Corresponding author：

赵聪敏, Email: zhao_54@163.com

Keywords：

婴幼儿; 睡眠; 认知

DOI：

10.7507/2096-0247.20170051

Video：

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睡眠对婴幼儿的生长发育至关重要，目前已有大量研究证明良好的睡眠可以促进婴幼儿的体格、运动、智力发育。文章在先前的研究基础上，对睡眠与认知的关系做进一步的阐述，从动物实验、临床观察、生理病理基础研究三个不同层面剖析睡眠与认知的关系，旨在阐述睡眠与学习认知相关的大脑皮层发育、突触重塑的具体机制。

Citation： 吴至凤, 邓虹燕, 李骁, 赵聪敏. 睡眠影响婴幼儿认知发育的机制研究. Journal of Epilepsy, 2017, 3(4): 329-332. doi: 10.7507/2096-0247.20170051 Copy

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14.	De Marcas, N Soffer Dudek, S Dollberg, et al. Reactivity and sleep in infants: a longitudinal objective assessment. Monographs of the Society for Research in Child Development, 2015, 80(1): 49-69.
15.	Annie Bernier1. Sleep and Cognition in preschool years: Specific links to executive functioning. Child Development, 2013, 84(9): 1542-1553.
16.	Elizabeth A Mc Devitt, Kelly M Rowe, Mark Brady, et al. The benefit of offline sleep and wake for novel object recognition. Exp Brain Res, 2014, 232(5): 1487-1496.
17.	Annie Bernier, Stephanie M Carlson, Stéphanie Bordeleau, et al. Relations between physiological and cognitive regulatory systems:Infant sleep regulation and subsequent executive functioning. Child Development, 2010, 81(6): 1739-1752.
18.	Peters S, A Srivatsan, S Ortiz-Mantilla, et al. Sleep Microstructure in 3.5 and 6.5-Month Old Napping Infants: A Pilot Study Using dEEG and Standardized Measures of Cognition// Shaping the Developing Brain: Prenatal Through Early Childhood, Aspen Brain Forum, 2014.https://www.researchgate.net/publication/269111265_Sleep_Microstructure_in_35_and_65-Month_Old_Napping_Infants_A_Pilot_Study_Using_dEEG_and_.
19.	Zhao W, J Wang, W Bi, et al. Novel application of brain-targeting polyphenol compounds in sleep deprivation-induced cognitive dysfunction. Neurochemistry International, 2015, 89(4): 191-197.
20.	Kreutzmann J, R Havekes, T Abel, et al. Sleep deprivation and hippocampal vulnerability: changes in neuronal plasticity, neurogenesis and cognitive function. Neuroscience, 2015, 309(10): 173-190.
21.	Luo J, TX Phan, Y Yang, et al. Increases in cAMP, MAPK activity, and CREB phosphorylation during REM sleep: implications for REM sleep and memory consolidation. The Journal of Neuroscience, 2013, 33(15): 6460-6468.
22.	Jha SK, BE Jones, T Coleman, et al. Sleep-dependent plasticity requires cortical activity. The Journal of Neuroscience, 2005, 25(40): 9266-9274.

1. Moore AR, Zhou WL, Jakovcevski I, et al. Physiological properties of human fetal cortex in vitro// Isolated central nervous system circuits. Humana Press, 2012: 125-158.https://link.springer.com/protocol/10.1007/978-1-62703-020-5_3.
2. Zriouil I, Regragui F, Hamzaoui EM, et al. Detection of sleep spindles using frequency components tracking in raw EEG data// Proceedings of the mediterranean conference on information & communication. Technologies, 2015: 437-443.https://link.springer.com/chapter/10.1007/978-3-319-30301-7_46.
3. Luhmann HJ, Kilb W. Intact in vitro preparations of the neonatal rodent cortex: Analysis of cellular properties and network activity. Neuromethods, 2012, 73(3): 301-314.
4. Kurth S, N Olini, R Huber, et al. Sleep and early cortical development. Current Sleep Medicine Reports, 2015, 1(1): 64-73.
5. Galland BC, BJ Taylor, DE Elder, et al. Normal sleep patterns in infants and children: a systematic review of observational studies. Sleep Medicine reviews, 2012, 16(3): 213-222.
6. Garcia-Rill E. Neural mechanisms of sleep and circadian rhythms// Sleep disordered breathing in children. Humana Press, 2012: 59-71.http://link.springer.com/10.1007/978-1-60761-725-9_5.
7. Blumberg MS, CM Coleman, AI Gerth, et al. Spatiotemporal structure of REM sleep twitching reveals developmental origins of motor synergies. Current Biology, 2013, 23(21): 2100-2109.
8. Chellappa SL, Schmidt C, Cajochen C. Neurophysiology of Sleep and Wakefulness// Sleepiness and Human Impact Assessment. Springer Milan, 2014: 23-41.http://www.ncbi.nlm.nih.gov/pubmed/16303589.
9. Tiriac A, BD Uitermarkt, AS Fanning, et al. Rapid whisker movements in sleeping newborn rats. Current Biology, 2012, 22(21): 2075-2080.
10. Kayser MS, Z Yue, A Sehgal. A critical period of sleep for development of courtship circuitry and behavior in drosophila. Science, 2014, 344(6181): 269-274.
11. Kerkhof GA, H Van Dongen. Sleep, memory and emotion. Human sleep and cognition, 2010, 185(11): 49-68.
12. Sheth BR. Sleep's role in human spatial learning. Sleep, 2013, 36(7): 971.
13. Dumoulin Bridi MC, Aton SJ, Seibt J, et al. Rapid eye movement sleep promotes cortical plasticity in the developing brain. Science Advances, 2015, 1(6): e1500105.
14. De Marcas, N Soffer Dudek, S Dollberg, et al. Reactivity and sleep in infants: a longitudinal objective assessment. Monographs of the Society for Research in Child Development, 2015, 80(1): 49-69.
15. Annie Bernier1. Sleep and Cognition in preschool years: Specific links to executive functioning. Child Development, 2013, 84(9): 1542-1553.
16. Elizabeth A Mc Devitt, Kelly M Rowe, Mark Brady, et al. The benefit of offline sleep and wake for novel object recognition. Exp Brain Res, 2014, 232(5): 1487-1496.
17. Annie Bernier, Stephanie M Carlson, Stéphanie Bordeleau, et al. Relations between physiological and cognitive regulatory systems:Infant sleep regulation and subsequent executive functioning. Child Development, 2010, 81(6): 1739-1752.
18. Peters S, A Srivatsan, S Ortiz-Mantilla, et al. Sleep Microstructure in 3.5 and 6.5-Month Old Napping Infants: A Pilot Study Using dEEG and Standardized Measures of Cognition// Shaping the Developing Brain: Prenatal Through Early Childhood, Aspen Brain Forum, 2014.https://www.researchgate.net/publication/269111265_Sleep_Microstructure_in_35_and_65-Month_Old_Napping_Infants_A_Pilot_Study_Using_dEEG_and_.
19. Zhao W, J Wang, W Bi, et al. Novel application of brain-targeting polyphenol compounds in sleep deprivation-induced cognitive dysfunction. Neurochemistry International, 2015, 89(4): 191-197.
20. Kreutzmann J, R Havekes, T Abel, et al. Sleep deprivation and hippocampal vulnerability: changes in neuronal plasticity, neurogenesis and cognitive function. Neuroscience, 2015, 309(10): 173-190.
21. Luo J, TX Phan, Y Yang, et al. Increases in cAMP, MAPK activity, and CREB phosphorylation during REM sleep: implications for REM sleep and memory consolidation. The Journal of Neuroscience, 2013, 33(15): 6460-6468.
22. Jha SK, BE Jones, T Coleman, et al. Sleep-dependent plasticity requires cortical activity. The Journal of Neuroscience, 2005, 25(40): 9266-9274.

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