参考文献/References:
[1] GORE C,WU C.Medical therapies of amblyopia: translational research to expand our treatment armamentarium[J].Semin Ophthalmol,2016,31(1-2):155-158.
[2] FU J,LI S M,LI S Y,LI J L,LI H,ZHU B D,et al.Prevalence,causes and associations of amblyopia in year 1 students in Central China: The Anyang childhood eye study (ACES)[J].Graefes Arch Clin Exp Ophthalmol,2014,252(1):137-143.
[3] PI L H,CHEN L,LIU Q,KE N,FANG J,ZHANG S,et al.Prevalence of eye diseases and causes of visual impairment in school-aged children in Western China[J].J Epidemiol,2012,22(1):37-44.
[4] WU J F,BI H S,WANG S M,HU Y Y,WU H,SUN W,et al.Refractive error,visual acuity and causes of vision loss in children in Shandong,China.The Shandong Children Eye Study[J].PLoS One,2013,8(12): e82763.
[5] FAGHIHI M,HASHEMI H,NABOVATI P,SAATCHI M,YEKTA A,RAFATI S,et al.The prevalence of amblyopia and its determinants in a population-based study[J].Strabismus,2017,25(4):176-183.
[6] MUI A M,YANG V,AUNG M H,FU J,ADEKUNLE A N,PRALL B C,et al.Daily visual stimulation in the critical period enhances multiple aspects of vision through BDNF-mediated pathways in the mouse retina[J].PLoS One,2018,13(2): e0192435.
[7] SALE S,BERARDI N,SPOLIDORO M,BARONCELLI L,MAFFEI L.GABAergic inhibition in visual cortical plasticity[J].Front Cell Neurosci,2010,4(10):10.
[8] ZHU T T,CHEN C,YAN X K.Regulation of acupuncture on NMDAR1 mRNA expression in visual cortex of monocularly-deprived rats[J].J Acupun Tuina Sci,2017,15(1):1-7.
[9] PAXINOS G,WATSON C.The rat brain in stereotaxic coordinates[J].J Neurosci Methods,1986,3(2):6.
[10] PEREIRA C M,FREIRE M A M,SANTOS J R,GUIMARES J S,DIAS-FLORENCIO G,SANTOS S,et al.Non-visual exploration of novel objects increases the levels of plasticity factors in the rat primary visual cortex[J].Peer J,2018,6:e5678.
[11] ZHANG H M,MU L W,WANG D D,XIA D D,SALMON A,LIU Q L,et al.Uncovering a critical period of synaptic imbalance during postnatal development of the rat’s visual cortex: role of brain-derived neurotrophic factor[J].J Physiol,2018,596(18):4511-4536.
[12] 朱田田,邢家铭,严兴科.针刺对单眼剥夺大鼠视皮层突触结构可塑性的调节机制研究[J].中华中医药杂志,2017,32(5):2319-2322.
ZHU T T,XING J M,YAN X K.Regulatory mechanism of acupuncture on synaptic plasticity in visual cortex of monocular deprivation rats [J].Chin J Tradit Chin Med Pharm,2017,32(5):2319-2322.
[13] WANG L,FONTANINI A,MAFFEI A.Experience-dependent switch in sign and mechanisms for plasticity in layer 4 of primary visual cortex[J].J Neurosci,2012,32(31):10562-10573.
[14] LI R,LIANG T,CHEN Z,ZHANG S,LIN X,HUANG R.L-dopa methyl ester attenuates amblyopia-induced neuronal injury in visual cortex of amblyopic cat[J].Gene,2013,527(1):115-122.
[15] RAZEGHINEJAD M R,NOWROOZZADEH M H,EGHBAL M H.Levodopa and other pharmacologic interventions in ischemic and traumatic optic neuropathies and amblyopia[J].Clin Neuropharmacol,2016,39(1):40-48.
[16] 敖明昕.视觉皮质可塑性及双眼视觉与弱视治疗新理念[J].中华实验眼科杂志,2017,35(6):561-566.
AO M X.Treatment of amblyopia emerging from plasticity of the visual cortex and binocular vision[J].Chin J Exp Ophthalmol,2017,35(6):561-566.
[17] LEVENTHAL A G,WAN Y,PU M,ZHOU Y,MA Y.GABA and its agonists improved visual cortical function in senescent monkeys[J].Science,2003,300(5620):812-815.
[18] 邵立功,章应华,张东杲.弱视猫外侧膝状体γ-氨基丁酸能神经元变化的免疫细胞化学研究[J].中华眼科杂志,1994,30(6):437-440.
SHAO L G,ZHANG Y H, ZHANG D G.Expression of mGluR1 at primary visual cortex of monocular deprived amblyopia rats and the observation of neuronic ultrastructure[J].Chin J Ophthalmol,1994,30(6):437-440.
[19] KEIL W,SCHMIDT K F,LOWEL S,KASCHUBE M.Reorganization of columnar architecture in the growing visual cortex[J].Proc Natl Acad Sci USA,2010,107(27):12293-12298.
[20] YAO J P,YIN Z Q,WANG S J.Proteins associated with the termination of ocular dominance column plasticity in long evans rats[J].Yan Ke Xue Bao,2007,23(3):143-152.
[21] ZHAO J,LAM D S,CHEN L J,WANG Y,ZHENG C,LIN Q,et al.Ritch R randomized controlled trial of patching vs acupuncture for anisometropic amblyopia in children aged 7 to 12 years[J].Arch Ophthalmol,2010,128(12):1510-1517.
[22] KIORES L.The puzzle of visual development: behavior and neural limits[J].J Neurosci,2016,36(45):11384-11393.
[23] LAURA R,MATTEO C.Reorganization of visual callosal connections following alterations of retinal input and brain damage[J].Front Syst Neurosci,2016,10:86.
[24] 曹朝霞,刘安国,朱田田,李小娟,魏玉婷,严兴科.针刺治疗弱视的分子生物学机制研究进展[J].针刺研究,2018,43(3):189-193.
CAO Z X,LIU A G,ZHU T T,LI X J,WEI Y T,YAN X K.Molecular biology of the treatment of amblyopia with acupuncture: a review of recent research[J].Acupuncture Res,2018,43(3):189-193.
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