参考文献/References:
[1] AVETISOV S E,MAMIKONYAN V R,SHMELEVA-DEMIR O A,KARAMYAN A A,BUBNOVA I A,KAZARYAN E E,et al.Intraocular pressure,ocular blood flow,and corneal biomechanics changes after LASIK surgery for myopia[J].Vestn Oftalmol,2016,132(4):24-28.
[2] FRINGS A,LINKE S J,BAUER E L,DRUCHKIV V,KATZ T,STEINBERG J.Effects of laser in situ keratomileusis (LASIK) on corneal biomechanical measurements with the Corvis ST tonometer[J].Clin Ophthalmol,2015,9:305-311.
[3] WANG L,GUO H K,ZENG J,JIN H Y,MENG Q L.Stability of the posterior corneal surface after laser in situ keratomileusis for myopia[J].Int Eye Sci,2012,12(1):52-54.
汪亮,郭海科,曾锦,金海鹰,孟倩丽.LASIK术后角膜后表面稳定性分析[J].国际眼科杂志,2012,12(1):52-54.
[4] NI S X,YU J G,BAO F J,WANG Q M.Changes of corneal biomechanical parameters after myopia laser in situ keratomileusis[J].Int Eye Sci,2010,10(12):2305-2307.
倪寿翔,郁继国,包芳军,王勤美.近视LASIK术后角膜生物力学参数变化的相关性[J].国际眼科杂志,2010,10(12):2305-2307.
[5] KOMAI Y,USHIKI T.The three-dimensional organization of collagen fibrils in the human cornea and sclera[J].Invest Ophthalmol Vis Sci,1991,32(8):2244-2258.
[6] QAZI M A,SANDERSON J P,MAHMOUD A M,YOON E Y,ROBERTS C J,PEPOSE J S.Postoperative changes in intraocular pressure and corneal biomechanical metrics laser in situ keratomileusis versus laser-assisted subepithelial keratectomy[J].J Cataract Refract Surg,2009,35(10):1774-1788.
[7] WANG Y,ZHAO K X.Refractive surgery with femtosecond laser[M].Beijing:People’s Medical Publishing House,2014:79-83.
王雁,赵堪兴.飞秒激光屈光手术学[M].北京:人民卫生出版社,2014:79-83.
[8] ELSHEIKH A,BROWN M,ALHASSO D,RAMA P,CAMPANELLI M,GARWAY-HEATH D.Experimental assessment of corneal anisotropy[J].J Refract Surg,2008,24(2):178-187.
[9] WU D,WANG Y,ZHANG L,WEI S S,TANG X.Corneal biomechanical effects:Small-incision lenticule extraction versus femtosecond laser-assisted laser in situ keratomileusis[J].J Cataract Refract Surg,2014,40(6):954-962.
[10] KAMIYA K,SHIMIZU K,IGARASHI A,KOBASHI H,SATO N,ISHII R.Intraindividual comparison of changes in corneal biomechanical parameters after femtosecond lenticule extraction and small-incision lenticule extraction[J].J Cataract Refract Surg,2014,40(6):963-970.
[11] ZHANG J,ZHENG L,TONG C S,CHEN S,SUN Y.Comparison of the corneal biomechanical effects after small-incision lenticule extraction and Q value guided femtosecond laser-assisted laser in situ keratomileusis[J].Int Eye Sci,2016,16(4):638-641.
张君,郑历,童蟾素,许扬,陈舒,孙怡.小切口透镜取出术和Q值引导角膜屈光术的生物力学比较[J].国际眼科杂志,2016,16(4):638-641.
[12] KAMIYA K,SHIMIZU K,OMHOTO F.Time course of corneal biomechanical parameters after laser in situ keratomileusis[J].Ophthalmic Res,2009,42(3):167-171.
[13] FRANCO S,LIRA M.Biomechanical properties of the cornea measured by the Ocular Response Analyzer and their association with intraocular pressure and the central corneal curvature[J].Clin Exp Optom,2009,92(6):469-475.
[14] ROBERTS C J.Concepts and misconceptions in corneal biomechanics[J].J Cataract Refract Surg,2014,40(6):862-869.
[15] SHEN Y.Effects of femtosecond laser small incision lenticular extraction on corneal biomechanical properties[D].Shanghai:Fudan University,2014:18-19.
沈阳.飞秒激光小切口透镜取出术对角膜生物力学影响的研究[D].上海:复旦大学,2014:18-19.
[16] DING H,LIU H M,ZHAO K Q.Clinical observation of laser in situ keratomileusis in treatment of 391 patients with myopia[J].J Xinxiang Med Coll,2006,23(6):621-623.
丁华,刘红梅,赵奎卿.准分子激光原位角膜磨镶术治疗近视眼391例疗效分析[J].新乡医学院学报,2006,23(6):621-623.
相似文献/References:
[1]计垣.近视的分子遗传学研究进展[J].眼科新进展,2012,32(6):000.
[2]张卫霞 曾照年 唐秀侠 孙宏霞 李洪润.Zywave波前像差仪在近视屈光不正测量中的应用[J].眼科新进展,2012,32(7):000.
[3]闵红波 刘小红 花雷 韩文龙 储明慧 邵娟英.近视对OCT测量视网膜神经纤维层厚度的影响[J].眼科新进展,2012,32(12):000.
[4]刘太祥 李海祥 石容 王铮.ORK程序中两种切削模式治疗近视术后角膜像差变化及对视觉功能的影响[J].眼科新进展,2013,33(1):000.
[5]陈月芹 黄振平 薛春燕 葛轶睿.有晶状体眼虹膜固定型人工晶状体植入术后房角宽度的改变[J].眼科新进展,2013,33(6):000.
[6]王凌飞 杨瑞波 赵少贞.CACHET有晶状体眼人工晶状体植入术后视觉质量的临床评价[J].眼科新进展,2013,33(6):000.
[7]胡裕坤 李文静 高晓唯 董晶 郭云林.飞秒激光微小切口角膜基质透镜切除术治疗近视对角膜波前像差的影响[J].眼科新进展,2013,33(7):000.
[8]许瑶 曾骏文.近视眼药物治疗研究进展[J].眼科新进展,2013,33(7):000.
[9]汤勇 刘才远.LASIK、Epi-LASIK、SBK、Fem-LASIK及SMILE术中角膜切削误差的对比研究[J].眼科新进展,2013,33(9):000.
[10]吴玉伟 李筱荣 张琰 赵雅丽 王晓燕.无酒精LASEK治疗近视和近视散光的临床疗效[J].眼科新进展,2013,33(9):000.