LI Min-ming*, ZHOU Ting-ting*, ZHANG Jing, PENG Yong-mei
李旻明*, 周婷婷*, 张晶, 彭咏梅
|  Sanefuji M, Sonoda Y, Ito Y, et al. Japan Environment and Children's Study Group. Physical growth and neurodevelopment during the first year of life:A cohort study of the Japan environment and children's study[J]. BMC Pediatr,2021,21(1):360.
 Koshy B, Srinivasan M, Murugan TP, et al. Association between head circumference at two years and second and fifth year cognition[J]. BMC Pediatr, 2021, 21(1):1-8.
 Treit S, Zhou D, Chudley AE, et al. Relationships between head circumference, brain volume and cognition in children with prenatal alcohol exposure[J]. PLoS One, 2016, 11(2):e0150370.
 Raghuram K, Yang J, Church PT, et al. Head growth trajectory and neurodevelopmental outcomes in preterm neonates[J]. Pediatrics, 2017, 140(1):e20170216.
 Scharf RJ, Stroustrup A, Conaway MR, et al. Growth and development in children born very low birthweight[J]. Arch Dis Child Fetal Neonatal Ed, 2016, 101(5):F433-F438.
 Cheong JLY, Thompson DK, Spittle AJ, et al. Brain volumes at term-equivalent age are associated with 2-year neurodevelopment in moderate and late pretermchildren[J]. J Pediatr,2016,174:91-97.
 Thomason ME,Scheinost D, Manning JH, et al. Weak functional connectivity in the human fetal brain prior to preterm birth[J]. Sci Rep, 2017, 7(1):1-10.
 Rimol LM, Bjuland KJ, Løhaugen GCC, et al. Cortical trajectories during adolescence in preterm born teenagers with very low birthweight[J]. Cortex, 2016,75:120-131.
 Nam KW,Castellanos N, Simmons A, et al. Alterations in cortical thickness development in preterm-born individuals:Implications for high-order cognitive functions[J]. NeuroImage,2015,115:64-75.
 Sammallahti S,Heinonen K,Andersson S,et al.Growth after late-preterm birth and adult cognitive, academic, and mental health outcomes[J]. Pediatr Res,2017,81(5):767-774.
 Wright CM,Emond A. Head growth and neurocognitive outcomes[J]. Pediatrics, 2015,135(6):e1393-e1398.
 Anderson PJ,Treyvaud K, Neil JJ, et al. Associations of newborn brain magnetic resonance imaging with long-term neurodevelopmental impairments in very preterm children[J]. J Pediatr, 2017, 187:58-65.
 James HE,Perszyk AA, MacGregor TL, et al. The value of head circumference measurements after 36 months of age:a clinical report and review of practice patterns[J]. J Neurosurg Pediatr, 2015, 16(2):186-194.
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|||LIU Yu, YANG Xin-jun. Research progress in abnormal birth weight and neurobehavioral development of children and adolescents [J]. Chinese Journal of Child Health Care, 2022, 30(7): 759-763.|
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|||CHEN Hai-dan, ZHANG Hua, ZENG Fan-juan. Study on the risk prediction of chronic kidney disease in premature infants and low birth weight infants [J]. Chinese Journal of Child Health Care, 2021, 29(4): 430-434.|
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