ZHANG Ying-kuan, YANG Shu-fen
|  Song SJ,Zhou L,Si S,et al. The high prevalence of vitamin D deficiency and its related maternal factors in pregnant women in Beijing[J]. PLoS One,2013,8(12):e85081.
 Tao M,Shao H,Gu J,et al. Vitamin D status of pregnant women in Shanghai,China[J]. J Matern Fetal Neonatal Med,2012,25(3):237-239.
 张名旭,李磊.南京地区妊娠早中期妇女维生素D状况研究[J]. 海南医学,2015,26(21):3149-3151.
 Zhu H,Wagner C,Pan Y,et al.Maternal vitamin D supplementation and cord blood genome-wide DNA methylation analysis[J]. Vitamin D Workshop,2016,3:29-31.
 Eyles DW,Smith S,Kinobe R,et al. Distribution of the vitamin D receptor and 1 alpha-hydroxylase in human brain[J]. J Chem Neuroanat,2005,29(1):21-30.
 Yates NJ,Tesic D,Feindel KW,et al. Vitamin D is crucial for maternal care and offspring social behaviour in rats[J]. J Endocrinol,2018,237(2):73.
 Hawes JE,Tesic D,Whitehouse AJ,et al. Maternal vitamin D deficiency alters fetal brain development in the BALB/c mouse[J]. Behav Brain Res,2015,286:192-200.
 Harms LR,Cowin G,Eyles DW,et al. Neuroanatomy and p-sychomimetic-induced locomotion in C57BL/6J and 129/X1SvJ mice exposed to developmental vitamin D deficiency[J]. Behav Brain Res,2012,230(1):125-131.
 Alharbi AN,Khan KM,Rahman A. Developmental vitamin D deficiency affects spatial learning in Wistar rats[J]. J Nutr,2017,147(9):jn249953.
 Cui X,Mcgrath JT,Mackay-Sim A,et al. Maternal vitamin D depletion alters neurogenesis in the developing rat brain[J]. Int J Dev Neurosci,2007,25(4):227-232.
 Eyles D,Almeras L,Benech P,et al. Developmental vitamin D deficiency alters the expression of genes encoding mitochondrial,cytoskeletal and synaptic proteins in the adult rat brain[J]. J Steroid Biochem Mol Biol,2007,103(3-5):538-545.
 Almeras L,Eyles D,Benech P,et al. Developmental vitamin D deficiency alters brain protein expression in the adult rat:Implications for neuropsychiatric disorders[J]. Proteomics,2010,7(5):769-780.
 Langguth M,Fassin M,Alexander S,et al. No effect of prenatal vitamin D deficiency on autism-relevant behaviours in multiple inbred strains of mice[J]. Behav Brain Res,2018,348:42.
 Liang Q,Cai C,Duan D,et al. Postnatal vitamin D intake modulates hippocampal learning and memory in adult mice[J]. Front Neurosci,2018,12:141.
 Fu L,Chen YH,Chen X,et al. Vitamin D deficiency impairs neurobehavioral development in male mice[J]. Physiol Behav,2017,179:333-339.
 O′Loan J,Eyles DW,Kesby J,et al. Vitamin D deficiency during various stages of pregnancy in the rat; its impact on development and behaviour in adult offspring[J]. Psychoneuroendocrinology,2007,32(3):227-234.
 Pan P,Jin DH,Chatterjeechakraborty M,et al. The effects of vitamin D3 during pregnancy and lactation on offspring physiology and behavior in sprague-dawley rats[J]. Dev Psychobiol,2013,56(1):12-22.
 Fernandes de Abreu DA,Nivet E,Baril N,et al. Developmental vitamin D deficiency alters learning in C57Bl/6J mice[J]. Behav Brain Res,2010,208:603-608.
 Hanieh S,Ha TT,Simpson JA,et al. Maternal vitamin D status and infant outcomes in rural vietnam:A prospective cohort study[J]. PLoS One,2014,9(6):e99005.
 Brouwerbrolsma EM,Vrijkotte T,Feskens E. Maternal vitamin D concentrations are associated with faster childhood reaction time and response speed,but not with motor fluency and flexibility,at the age of 5~6 years:the Amsterdam Born Children and their Development (ABCD) Study[J]. Br J Nutr,2018,120(3):1.
 Vuillermot S,Luan W,Meyer U,et al. Vitamin D treatment during pregnancy prevents autism-related phenotypes in a mouse model of maternal immune activation[J]. Mol Autism,2017,8(1):9.
 Numakawa T,Matsumoto T,Numakawa Y,et al. Protective action of neurotrophic factors and estrogen against oxidative stress-mediated neurodegeneration[J]. J Toxicol,2011,2011(1):405194.
 Atladóttir HÓ,Thorsen P,Østergaard L,et al. Maternal infection requiring hospitalization during pregnancy and autism spectrum disorders[J]. J Autism Dev Disord,2010,40(12):1423-1430.
 Akoh CC,Pressman EK,Cooper E,et al. Low vitamin D is associated with infections and proinflammatory cytokines during pregnancy[J]. Reprod Sci,2018,25(3):414-423.
 Zhang Y,Leung DYM,Richers BN,et al. Vitamin D inhibits monocyte/macrophage pro-inflammatory cytokine production by targeting mitogen-activated protein kinase phosphatase 1[J]. J Allergy Clin Immunol,2012,188(5):2127-2135.
 Nonn L,Peng L,Feldman D,et al. Inhibition of p38 by vitamin D reduces interleukin-6 production in normal prostate cells via mitogen-activated protein kinase phosphatase 5:Implications for prostate cancer prevention by vitamin D[J]. Cancer Res,2006,66(8):4516-4524.
 Arnson Y,Itzhaky D,Mosseri M,et al. Vitamin D inflammatory cytokines and coronary events:a comprehensive review[J]. Clin Rev Allergy Immunol,2013,45(2):236-247.
 Ashwood P,Krakowiak P,Hertzpicciotto I,et al. Elevated plasma cytokines in autism spectrum disorders provide evidence of immune dysfunction and are associated with impaired behavioral outcome[J]. Brain Behav Immun,2011,25(1):40-45.
 Eyles D,Brown J,MackaySim A,et al. Vitamin D3 and br ain development[J]. Neuroscience,2003,118(3):641-653.
 Veena SR,Krishnaveni GV,Srinivasan K,et al. Association between maternal vitamin D status during pregnancy and offspring cognitive function during childhood and adolescence[J]. Asia Pac J Clin Nutr,2017,26(3):438.
 Str#xF8;m M,Halldorsson TI,Hansen S,et al. Vitamin D measu red in maternal serum and offspring neurodevelopmental outcomes:a prospective study with long-term follow-up[J]. Ann Nutr Metab,2014,64(3-4):254.
 Keim SA,Bodnar LM,Klebanoff MA. Maternal and cord blood 25(OH)-vitamin D concentrations in relation to child development and behaviour[J]. Paediatr Perinat Epidemiol,2015,28(5):434-444.
 Stiles J,Jernigan TL.The basics of brain development[J]. Neuropsychol Rev,2010,20:327-348.
 Wimalawansa SJ. Extra-skeletal benefits,endocrine functions,and toxicity of vitamin D[J]. J Endocrinol Diab,2016,3(1):1-5.
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