¡¡¡¡6 Chiselita D, Crengluta MI, Danielescu C, et al. A comparative analysis of standard automated perimetry and short wavelength automated perimetry in early diagnosis of glaucoma. Oftamologia 2006;50(2):94ª²102

¡¡¡¡7 Qi S, Jiang Y. Shortª²wavelength perimetry in diagnosis of early glaucoma: comparison with standard automated perimetry. Zhonghua Yan Ke Za Zhi 2002;38(1):31ª²35

¡¡¡¡8 Su WW, Wu SC, Chang SH, et al. Comparison of standard whiteª²onª²white automated perimetry and shortª²wavelength automated perimetry in early glaucoma patients. Chang Gung Med J 2004;27(3):188ª²192

¡¡¡¡9Áõåû, ÎâµÂÕý, ÁúʱÏÈ,µÈ.Õý³£ÕßÓëÇà¹âÑÛ»¼Õ߶ཹÊÓ¾õÓÕ·¢µçλ¼ì²âµÄ±È½Ï.ÑÛ¿ÆÑо¿ 2007;25(5):384ª²386

¡¡¡¡10 Thienprasiddhi P, Greenstein VC, Chu DH, et al. Detecting early functional damage in glaucoma suspect and ocular hypertensive patients with the multifocal VEP technique. J Glaucoma 2006;15(4):321ª²327

¡¡¡¡11ÎâµÂÕý,Áº¾¼»ù, Âí¾êÃÃ.ÎÒ¹úÕý³£Õ߶ཹÊÓÍøĤµçͼµÄÌØÕ÷.ÖлªÑÛ¿ÆÔÓÖ¾ 2001;37(2):98ª²103

¡¡¡¡12ÅË°®Öé, ÍõÓÂ, Ñîйâ.ÔçÆÚÔ­·¢ÐÔ¿ª½ÇÐÍÇà¹âÑ۵ĶཹÊÓÍøĤµçͼ±ä»¯. ¹ú¼ÊÑÛ¿ÆÔÓÖ¾ 2006;6(4):810ª²812

¡¡¡¡13 Zheng W, Baohua C, Qun C, et al. Retinal nerve fiber layer images captured by GDxª²VCC in early diagnosis of glaucoma. Ophthalmologica 2008;222(1):17ª²20

¡¡¡¡14 Reus NJ, Lemij HG. The relationship between standard automated perimetry and GDxVCC measurements. Invest Ophthalmol Vis Sci 2004;45(3):840ª²845

¡¡¡¡15 Schlottmann PG, De Cilla S, Greenfield DS, et al. Relationship between visualfield sensitivity and retinal nerve fiber layer thickness as measured by scanning laser polarimetry. Invest Ophthalmol Vis Sci 2004;45(6):1823ª²1829

¡¡¡¡16 Bogque E, Ferreras A, Polo V. Diagnostic ability of GDxVCC for glaucoma diagnosis. Arch Sec Esp Oftalmol 2008;83(6):357ª²364

¡¡¡¡17 Iester M, Perdicchi A, De Feo F, et al. Comparison between GDx VCC parameter and achromatic perimetry in glaucoma patients. J Glaucoma 2006;15(4):281ª²285

¡¡¡¡18 Tsai JC, Chang HW, Teng MC, et al. Scanning laser polarimetry for measurement of retinal nerve fiber layer in absolute, advanced and early glaucoma. Chang Gung Med J 2006;29(2):162ª²168

¡¡¡¡19ÑϺê, ³Â¡, Ö챦Òå. HRT IIÔÚÇà¹âÑÛËæ·ÃÖеÄÓ¦ÓÃ. ¹ú¼ÊÑÛ¿ÆÔÓÖ¾ 2006;6(3):635ª²636

¡¡¡¡20³É´äÔÆ, ¶ÎÐû³õ. HRT IIºÍOCT 3¼ì²âÊÓÍøĤÉñ¾­ÏËά²ãºñ¶ÈÔÚÔ­·¢ÐÔ¿ª½ÇÐÍÇà¹âÑÛÔçÆÚÕï¶ÏÖеÄÓ¦ÓÃ. ¹ú¼ÊÑÛ¿ÆÔÓÖ¾ 2007;7(4):1022ª²1024

¡¡¡¡21 Parikh RS, Parikh S, Sekhar GC, et al. Diagnosic capability of optical coherence tomography(Stratus OCT 3) in early glaucoma. Ophthalmology 2007;114(12):2238ª²2243

¡¡¡¡22 Brusini P, Zeppieri M, Tosoni C, et al. Stratusª²OCT imaging in early glaucomatous and in ocular hypertensive patients with and without frequencyª²doubling technology abnormalities. Eye 2008;22(3):406ª²413

¡¡¡¡23 Sihota R, Sony P, Gupta V, et al. Diagnostic capability of optical coherence tomography in evaluating the degree of glaucomatous retinal nerve fiber damage. Invest Ophthalmol Vis Sci 2006;47(5):2006ª²2010

¡¡¡¡24 Subbiah S, Sankarnarayanan S, Thomas PA, et al. Comparative evaluation of optical coherence tomography in glaucomatous ocular hypertensive and normal eyes. Indian J Ophthalmol 2007;55(4):283ª²287

¡¡¡¡25 Kanamori A, Kusuhara A, Tatsumi Y, et al. Correlations among GDxª²variable corneal compension, optical coherence tomography, and heidelberg retina tomograph and relationships between these structural parameters and visual field indices. Nippon Ganka Gakkai Zasshi 2006;110(3):180ª²187

¡¡¡¡26 L¨®pezª²Pea MJ, Ferreras A, Polo V, et al. Relationship between standard automated perimetry and HRT, OCT and GDx in normal, ocular hypertensive and glaucomatous subjects. Arch Soc Esp Oftalmol2007;82(4):197ª²208

¡¡¡¡27 Shah NN, Bowd C, Medeiros FA, et al. Combining structrual and functional testing for detection of glaucoma. Ophthalmology 2006;113(9):1593ª²1602

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