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¡¡¡¡2 Quigley HA, Broman AT. The number of people with glaucoma worldwide in 2010 and 2020. Br J Opthalmol 2006;90(3):262ª²267

¡¡¡¡3 Weinreb RN, Khaw PT. Primary openª²angle glaucoma. Lancet 2004;363(9422):1711ª²1720

¡¡¡¡4 Gupta N, Ang LC, No§×l de Tilly L, et al. Human glaucoma and neural degenaration in intracranial optic nerve,Lateral geniculate nucleus, and visual cortex. Br J Ophthalmol 2006;90(6):674ª²678

¡¡¡¡5 Harwerth RS, Quigley HA.Visual field defects and retinal ganglion cell losses in patients with glaucoma. Arch Ophthalmol 2006;124(6):853ª²859

¡¡¡¡6 Gupta N, Greenberg G, No§×l de Tilly L, et al. Atrophy of the lateral geniculate nucleus in human glaucoma detected by magnetic resonance imaging. Br J Ophthalmol 2009;93(1):56ª²60

¡¡¡¡7 Hickman SJ, Miszkiel KA, Plant GT, et al. The optic nerve sheath on MRI in acute optic neuritis. Neuroradiology 2005;47(1):51ª²55

¡¡¡¡8 Le Bihan D, Mangin JF, Poupon C, et al. Diffusion tensor imaging: concepts and applications. J Magn Reson Imaging 2001;13(4):534ª²546

¡¡¡¡9 Huppi PS, Dubois J. Diffusion tensor imaging of brain development. Semin Fetal Neonatal Med 2006;11(6):489ª²497

¡¡¡¡10 Song SK, Sun SW, Ju WK, et al. Diffusion tensor imaging detects and differentiates axon and myelin degeneration in mouse optic nerve after retinal ischemia. Neuroimage 2003;20(3):1714ª²1722

¡¡¡¡11 Kim JH, Budde MD, Liang HF, et al. Detecting axon damage in spinal cord from a mouse model of multiple sclerosis. Neurobiol Dis 2006;21(3):626ª²632

¡¡¡¡12 Yamamoto A, Miki Y, Urayama S, et al. Diffusion tensor fiber tractography of the optic radiation: analysis with 6ª², 12ª², 40ª², and 81ª²directional motion probing gradientsª²a preliminary study. AJNR Am J Neuroradiol 2007;28(1):92ª²96

¡¡¡¡13 Garaci FG, Bolacchi F, Cerulli A, et al. Optic nerve and optic radiation neurodegeneration in patients with glaucoma: in vivo analysis with 3ª²T diffusionª²tensor MR imaging. Radiology 2009;252(2):496ª²501

¡¡¡¡14 Duncan RO, Boynton GM. Cortical magnification within human primary visual cortex correlates with acuity thresholds. Neuron 2003;38(4):659ª²671

¡¡¡¡15 Schneider KA, Richter MC, Kastner S. Retinotopic organization and functional subdivisions of the human lateral geniculate nucleus: a highª²resolution functional magnetic resonance imaging study. J Neurosci 2004;24(41):8975ª²8985
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¡¡¡¡16 Duncan RO, Sample PA, Weinreb RN, et al. Retinotopic organization of primary visual cortex in glaucoma: comparing fMRI measurements of cortical function with visual field loss. Prog Retin Eye Res 2007;26(1):38ª²56

¡¡¡¡17»ÝÑÓÄê.ÑÛ¿Æѧ.±±¾©:ÈËÃñÎÀÉú³ö°æÉç 2006

¡¡¡¡18ÀӢ,ʯÁÖƽ,Íõ½¨.fMRIÊÓÍøĤƤÖÊÓ³Éä³ÉÏñ¼°ÆäÔÚÇà¹âÑÛÖÐÊà»úÖÆÑо¿ÖеÄÓ¦ÓÃ.¹ú¼Êҽѧ·ÅÉäѧÔÓÖ¾ 2009;32(4):350ª²353,357

¡¡¡¡19 Duncan RO, Sample PA, Weinreb RN, et al. Retinotopic organization of primary visual cortex in glaucoma: a method for comparing cortical function with damage to the optic disk. Invest Ophthalmol Vis Sci 2007;48(2):733ª²744

¡¡¡¡20 Osborne NN, Wood JPM, Chidlow G, et al. Effectiveness of levobetaxolol and timolol at blunting retinal ischaemia is related to their calcium and sodium blocking activities: relevance to glaucoma. Brain Res Bull 2004;62(6):525ª²528

¡¡¡¡21 Pautler RG. Biological applications of manganeseª²enhanced magnetic resonance imaging. Methods Mol Med 2006;124:365ª²386

¡¡¡¡22 Pautler RG. In vivo, transª²synaptic tractª²tracing utilizing mangaª² neseª²enhanced magnetic resonance imaging(MEMRI). NMR Biomed 2004;17(8):595ª²601

¡¡¡¡23 Aoki I, Naruse S, Tanaka C. Manganeseª²enhanced magnetic resonance imaging(MEMRI) of brain activity and applications to early detection of brain ischemia. NMR Biomed 2004;17(8):569ª²580

¡¡¡¡24 Aoki I, Wu YJ, Silva AC, et al. In vivo detection of neuroarchitecture in the rodent brain using manganeseª²enhanced MRI. Neuroimage 2004;22(3):1046ª²1059

¡¡¡¡25 Calkins DJ, Horner PH, Roberts R, et al. Manganeseª²enhanced MRI of the DBA/2J mouse model of hereditary glaucoma. Invest Ophthalmol
Vis Sci 2008;49(11):5083ª²5088

¡¡¡¡26 Gordon MO, Beiser JA, Brandt JD, et al. The ocular hypertension treatment study: baseline factors that predict the onset of primary openª²angle glaucoma. Arch Ophthalmol 2002;120(6):714ª²720

¡¡¡¡27 Chan KC, Fu QL, Hui ES, et al. Evaluation of the retina and optic nerve in a rat model of chronic glaucoma using in vivo manganeseª²enhanced magnetic resonance imaging. NeuroImage 2008;40(3):1166ª²1174

¡¡¡¡28 Dandona L, Hendrickson A, Quigley HA. Selective effects of experimental glaucoma on axonal transport by retinal ganglion cells to the dorsal lateral geniculate nucleus. Invest Ophthalmol Vis Sci 1991;32(5):1593ª²1599

¡¡¡¡29 Gujar SK, Maheshwari S, Bjorkmanª²Burtscher I, et al. Magnetic resonance spectroscopy. J Neuroophthalmol 2005;25(3):217ª²226

¡¡¡¡30 Block W, Traber F, Flacke S, et al. In vivo proton MRª²spectroscopy of the human brain:assessment of Nª²acetylaspartate(NAA) reduction as a marker for neurodegeneration. Amino Acids 2002;23(1ª²3):317ª²323

¡¡¡¡31 Chan YL, Yeung DK, Leung SF, et al. Proton magnetic resonance pectroscopy of late delayed radiationª²induced injury of the brain. J Magn
Reson Imaging 1999;10(2):130ª²137

¡¡¡¡32 Johansson BB. Brain plasticity in health and disease. Keio J Med 2004;53(4):231ª²246

¡¡¡¡33 Boucard CC, Hoogduin JM, Grond J, et al. Occipital proton magnetic resonance spectroscopy (Hª²MRS) reveals normal metabolite concentrations in retinal visual field defects. PloS ONE 2007;2(2):e222

¡¡¡¡34 Chan KC, So KF, Wu EX. Proton magnetic resonance spectroscopy revealed choline reduction in the visual cortex in an experimental model of chronic glaucoma. Experimental Eye Research 2009;88(1):65ª²70

¡¡¡¡35 Weber AJ, Harman CD, Viswanathan S. Effects of optic nerve injury, glaucoma, and neuroprotection on the survival, structure,and function of ganglion cells in the mammalian retina. J Physiol 2008;586(Pt18):4393ª²4400

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