参考文献/References:
[1] LONDON A,BENHAR I,SCHWARTZ M.The retina as a window to the brain-from eye research to CNS disorders[J].Nat Rev Neurol,2013,9(1):44-53.
[2] HANSON R W,GALE R P,GOUWS A D,AIRODY A,SCOTT M W,AKTHAR F,et al.Following the status of visual cortex over time in patients with macular degeneration reveals atrophy of visually deprived brain regions[J].Invest Ophthalmol Vis Sci,2019,60(15):5045-5051.
[3] HOLMES J M,CLARKE M P.Amblyopia[J].Lancet,2006,367(9519):1343-1351.
[4] LIANG M,XIE B,YANG H,YIN X,WANG H,YU L,et al.Altered interhemispheric functional connectivity in patients with anisometropic and strabismic amblyopia:a resting-state fMRI study[J].Neuroradiology,2017,59(5):517-524.
[5] DAI P,ZHANG J,WU J,CHEN Z,ZOU B,WU Y,et al.Altered spontaneous brain activity of children with unilateral amblyopia:a resting state fMRI study[J].Neural Plast,2019,2019:3681430.
[6] 黄煜峰.基于fMRI的弱视视觉神经损伤机理研究[D].合肥:中国科学技术大学,2017.
HUANG Y F.An fMRI investigation on the visual deficits mechanisms of amblyopia[D].Hefei:University of Science and Technology of China,2017.
[7] 王浩然,张希,王天月,李倩,李青吉,郭明霞.屈光参差性弱视儿童脑网络功能连接的fMRI研究[J].天津医科大学学报,2018,24(6):484-488.
WANG H R,ZHANG X,WANG T Y,LI Q,LI Q J,GUO M X.fMRI study of brain functional connectivity in children with anisometropicamblyopia[J].J Tianjin Med Univ,2018,24(6):484-488.
[8] TANG A,CHEN T,ZHANG J,GONG Q,LIU L.Abnormal spontaneous brain activity in patients with anisometropic amblyopia using resting-state functional magnetic resonance imaging[J].J Pediatr Ophthalmol Strabismus,2017,54(5):303-310.
[9] LIANG M,XIAO H,XIE B,YIN X,WANG J,YANG H.Morphologic changes in the visual cortex of patients with anisometropic amblyopia:a surface-based morphometry study[J].BMC Neurosci,2019,20(1):39.
[10] MURPHY M C,CONNER I P,TENG C Y,LAWRENCE J D,SAFIULLAH Z,WANG B,et al.Retinal structures and visual cortex activity are impaired prior to clinical vision loss in glaucoma[J].Sci Rep,2016,6(1):31464.
[11] YUCEL Y H,GUPTA N.A framework to explore the visual brain in glaucoma with lessons from models and man[J].Exp Eye Res,2015,141:171-178.
[12] LESTAK J,TINTERA J,SVATA Z,ETTLER L,ROZSIVAL P.Comparison of fMRI results in high tension and normal tension glaucoma [J].Biomed Pap Med Fac Univ Palacky Olomouc Czech Repub,2014,158(1):144-153.
[13] ZHANG Q J,WANG D,BAI Z L,REN B .Diffusion tensor imaging of optic nerve and optic radiation in primary chronic angle-closure glaucoma using 3T magnetic resonance imaging[J].Int J Ophthalmol,2015,8(5):975-979.
[14] JIANG M M,ZHOU Q,LIU X Y,SHI C Z,CHEN J,HUANG X H.Structural and functional brain changes in early- and mid-stage primary open-angle glaucoma using voxel-based morphometry and functional magnetic resonance imaging[J].Medicine (Baltimore),2017,96(9):e6139.
[15] WANG R,TANG Z,SUN X,WU L,WANG J,ZHONG Y,et al.White matter abnormalities and correlation with severity in normal tension glaucoma:a whole brain atlas-based diffusion tensor study[J].Invest Ophthalmol Vis Sci,2018,59(3):1313-1322.
[16] WU Y Y,WANG S F,ZHU P W,YUAN Q,SHI W Q,LIN Q,et al.Altered intrinsic functional connectivity of the primary visual cortex in patients with neovascular glaucoma:a Resting-State functional magnetic resonance imaging study[J].Neuropsychiatr Dis Treat,2020,16:25-33.
[17] PRINS D,HANEKAMP S,CORNELISSEN F W.Structural brain MRI studies in eye diseases:are they clinically relevant? A review of current findings[J].Acta Ophthalmol,2016,94(2):113-121.
[18] GHEORGHE A,MAHDI L,MUSAT O.Age-related macular degeneration[J].Rom J Ophthalmol,2015,59(2):74-77.
[19] WHITSON H,CHOU Y H,POTTER G G,DIAZ M T,CHEN N K,LAD E M,et al.Phonemic fluency and brain connectivity in age-related macular degeneration:a pilot study[J].Brain Connect,2015,5(2):126-135.
[20] RAMANOL S,CHOKRON S,HERA R,KAUFFMANN L,CHIQUET C,KRAINIK A,et al.Age-related macular degeneration changes the processing of visual scenes in the brain[J].Vis Neurosci,2018,35:E006.
[21] BOUCARD C C,HERNOWO A T,MAGUIRE R P,JANSONIUS N M,ROERDINK J B,HOOYMANS J M,et al.Changes in cortical grey matter density associated with long-standing retinal visual field defects[J].Brain,2009,132(Pt 7):1898-1906.
[22] HANSON R L W,GALE R P,GOUWS A D,AIRODY A,SCOTT M T W,AKTHAR F,et al.Following the status of visual cortex over time in patients with macular degeneration reveals atrophy of visually deprived brain regions[J].Invest Ophthalmol Vis Sci,2019,60(15):5045-5051.
[23] MALANIA M,KONRAD J,JGLE H,WERNER J S,GREENLEE M W.Compromised integrity of central visual pathways in patients with macular degeneration[J].Invest Ophthalmol Vis Sci,2017,58(7):2939-2947.
[24] YOSHIMINE S,OGAWA S,HORIGUCHI H,TERAO M,MIYAZAKI A,MATSUMOTO K,et al.Age-related macular degeneration affects the optic radiation white matter projecting to locations of retinal damage[J].Brain Struct Funct,2018,223(8):3889-3900.
[25] NUZZI R,DALLORTO L,VITALE A.Cerebral modifications and visual pathway reorganization in maculopathy:a systematic review[J].Front Neurosci,2020,14:755.
[26] PRINS D,PLANK T,BASELER H,GOUWS A D,BEER A,MORLAND A B,et al.Surface-based analyses of anatomical properties of the visual cortex in macular degeneration[J].PLoS One,2016,11(1):e0146684.
[27] ZHANG Y,GUO X,WANG M,WANG L,TIAN Q,ZHENG D,et al.Reduced field-of-view diffusion tensor imaging of the optic nerve in retinitis pigmentosa at 3T[J].Am J Neuroradiol,2016,37(8):1510-1515.
[28] CASTALDI E,CICCHINI G M,FALSINI B,BINDA P,MORRONE M C.Residual visual responses in patients with retinitis pigmentosa revealed by functional magnetic resonance imaging[J].Transl Vis Sci Technol,2019,8(6):44.
[29] RITA M A,CARVALHO P A,FERREIRA F,FERREIRA S,QUENDERA B,SILVA E,et al.Structure-function correlations in retinitis pigmentosa patients with partially preserved vision:a voxel-based morphometry study[J].Sci Rep,2017,7(1):11411.
[30] DAN H D,ZHOU F Q,HUANG X,XING Y Q,SHEN Y.Altered intra- and inter-regional functional connectivity of the visual cortex in individuals with peripheral vision loss due to retinitis pigmentosa[J].Vision Res,2019,159:68-75.
[31] HUANG X,DAN H D,ZHOU F Q,DENG Q Q,SHEN Y.Abnormal intrinsic functional network hubs and connectivity following peripheral visual loss because of inherited retinal degeneration[J].Neuroreport,2019,30(4):295-304.
[32] BLOCH E,LUO Y,DA CRUZ L.Advances in retinal prosthesis systems[J].Ther Adv Ophthalmol,2019,11:2515841418817501.
[33] LUNGHI C,GALLI-RESTA L,BINDA P,CICCHINI G M,PLACIDI G,FALSINI B,et al.Visual cortical plasticity in retinitis pigmentosa[J].Invest Ophthalmol Vis Sci,2019,60(7):2753-2763.
[34] CASTALDI E,CICCHINI G M,CINELLI L,BIAGI L,RIZZO S,MORRONE M C.Visual BOLD response in late blind subjects with Argus II retinal prosthesis[J].PLoS Biol,2016,14(10):e1002569.
[35] CUNNINGHAM S I,WEILAND J D,BAO P,LOPEZ-JAIME G R,TJAN B S.Correlation of vision loss with tactile-evoked V1 responses in retinitis pigmentosa[J].Vision Res,2015,111(Pt B):197-207.
[36] MIRZAJANI A,SARLAKI E,KHARAZI H H,TAVAN M.Effect of lens-induced myopia on visual cortex activity:a functional Mr imaging study[J].Am J Neuroradiol,2011,32(8):1426-1429.
[37] CHENG Y,YAN L,HU L,WU H,HUANG X,TIAN Y,et al.Differences in network centrality between high and low myopia:a voxel-level degree centrality study[J].Acta Radiol,2020,61(10):1388-1397.
[38] WANG H,LI S,CHEN X,WANG Y,LI J,WANG Z.Cerebral blood flow alterations in high myopia:an arterial spin labeling study[J].Neural Plast,2020,2020:6090262.
[39] HOLDEN B A,FRICKE T R,WILSON D A,JONG M,NAIDOO K S,SANKARIDURG P,et al.Global prevalence of myopia and high myopia and temporal trends from 2000 through 2050[J].Ophthalmology,2016,123(5):1036-1042.
[40] ZHAI L,LI Q,WANG T,DONG H,PENG Y,GUO M,et al.Altered functional connectivity density in high myopia[J].Behav Brain Res,2016,303:85-92.