[1] |
Fatt I, Weissman BA. Physiology of the eye: an introduction to the vegetative functions[M]. London: Butterworths,1978:1-42.
|
[2] |
Roberts C. The cornea is not a piece of plastic[J]. J Refract Surg,2000,16:407-413.
|
[3] |
Ethier CR, Johnson M, Ruberti J. Ocular biomechanics and biotransport[J]. Annu Rev Biomed Eng,2004,6:249-273.
|
[4] |
Boote C, Dennis S, Huang Y, et al. Lamellar orientation in human cornea in relation to mechanical properties[J]. J Struct Biol,2005,149:1-6.
|
[5] |
Müller LJ, Pels E, Schurmans LR, et al. A new three-dimensional model of the organization of proteoglycans and collagen fibrils in the human corneal stroma[J]. Exp Eye Res,2004,78:493-501.
|
[6] |
Aghamohammadzadeh H, Newton RH, Meek KM. X-ray scattering used to map the preferred collagen orientation in the human cornea and limbus[J]. Structure,2004,12:249-256.
|
[7] |
Newton RH, Meek KM. Circumcorneal annulus of collagen fibrils in the human limbus[J]. Invest Ophthalmol Vis Sci,1998,39:1125-1134.
|
[8] |
Boote C, Hayes S, Abahussin M, et al. Mapping collagen organization in the human cornea: left and right eyes are structurally distinct[J]. Invest Ophthalmol Vis Sc,2006,47:901-908.
|
[9] |
Meek KM, Boote C. The organization of collagen in the corneal stroma[J]. Exp Eye Res,2004,78:503-512.
|
[10] |
Boote C, Kamma-Lorger CS, Hayes S, et al. Quantification of collagen organization in the peripheral human cornea at micron-scale resolution[J]. Biophys J,2011,101:33-42.
|
[11] |
Elsheikh A, Brown M, Alhasso D, et al. Experimental assessment of corneal anisotropy[J]. J Refract Surg,2008,24:178-187.
|
[12] |
Jayasuriya AC, Ghosh S, Scheinbeim JI, et al. A study of piezoelectric and mechanical anisotropies of the human cornea[J]. Biosens Bioelectron,2003,18:381-387.
|
[13] |
Alastrué V, Calvo B, Peña E, et al. Biomechanical modeling of refractive corneal surgery[J]. J Biomech Eng,2006,128:150-160.
|
[14] |
Elsheikh A, Wang D, Brown M, et al. Assessment of corneal biomechanical properties and their variation with age[J]. Curr Eye Res,2007,32:11-19.
|
[15] |
Elsheikh A, Wang D, Pye D. Determination of the modulus of elasticity of the human cornea[J]. J Refract Surg,2007,23:808-818.
|
[16] |
Le Tallec P, Rahier C, Kaiss A. Three-dimensional incompressible viscoelasticity in large strains: formulation and numerical approximation[J]. Comput Methods Appl Mech Eng,1993,109:233-258.
|
[17] |
Boyce BL, Jones RE, Nguyen TD, et al. Stress-controlled viscoelastic tensile response of bovine cornea[J]. J Biomech,2007,40:2367-2376.
|
[18] |
Elsheikh A, Kassem W, Jones SW. Strain-rate sensitivity of porcine and ovine corneas[J]. Acta Bioeng Biomech,2011,13:25-36.
|
[19] |
Elsheikh A, Wang D, Rama P, et al. Experimental assessment of human corneal hysteresis[J]. Curr Eye Res,2008,33:205-213.
|
[20] |
Elsheikh A, Alhasso D, Rama P. Biomechanical properties of human and porcine corneas[J]. Exp Eye Res,2008,86:783-790.
|
[21] |
Kampmeier J, Radt B, Birngruber R, et al. Thermal and biomechanical parameters of porcine cornea[J]. Cornea,2000, 19:355-363.
|
[22] |
Scherer K, Eggert H, Guth H, et al. Application of simulation techniques in human eye corneal surgery[C]. 13th International Conference of Society for Medical Innovation and Technology,2001.
|
[23] |
Elsheikh A, Alhasso D, Rama P. Assessment of the epithelium′s contribution to corneal biomechanics[J]. Exp Eye Res,2008,86:445-451.
|
[24] |
Elsheikh A, Ross S, Alhasso D, et al. Numerical study of the effect of corneal layered structure on ocular biomechanics[J]. Curr Eye Res,2009,34:26-35.
|
[25] |
Petsche SJ, Chernyak D, Martiz J, et al. Depth-dependent transverse shear properties of the human corneal stroma[J]. Invest Ophthalmol Vis Sci,2012,53:873-880.
|
[26] |
Schmack I, Dawson DG, Mccarey BE, et al. Cohesive tensile strength of human LASIK wounds with histologic, ultrastructural, and clinical correlations[J]. J Refract Surg,2004,21:433-445.
|
[27] |
Smolek MK, McCarey BE. Interlamellar adhesive strength in human eyebank corneas[J]. Invest Ophthalmol Vis Sci,1990,31:1087-1095.
|
[28] |
Smolek MK. Interlamellar cohesive strength in the vertical meridian of human eye bank corneas[J]. Invest Ophthalmol Vis Sci,1993,34:2962-2969.
|
[29] |
Dubbelman M, Weeber HA, van der Heijde RG, et al. Radius and asphericity of the posterior corneal surface determined by corrected Scheimpflug photography[J]. Acta Ophthalmol Scand,2002,80:379-383.
|
[30] |
Read SA, Collins MJ, Carney LG, et al. The topography of the central and peripheral cornea[J]. Invest Ophthalmol Vis Sci,2006,47:1404-1415.
|
[31] |
Guillon M, Lydon DP, Wilson C. Corneal topography: a clinical model[J]. Ophthalmic Physiol Opt,1986,6:47-56.
|
[32] |
Leung TW, Lam AK, Kee CS. Corneal shapes of Chinese emmetropes and myopic astigmats aged 10 to 45 years[J]. Optom Vis Sci,2013,90:1259-1266.
|
[33] |
Aghaian E, Choe JE, Lin S, et al. Central corneal thickness of Caucasians, Chinese, Hispanics, Filipinos, African Americans, and Japanese in a glaucoma clinic[J]. Ophthalmology,2004,111: 2211-2219.
|
[34] |
Cho P, Cheung SW. Central and peripheral corneal thickness measured with the Topcon specular microscope SP-2000P[J]. Curr Eye Res,2000,21:799-807.
|
[35] |
Lam AK, Chan JS. Corneal thickness at different reference points from Orbscan II system[J]. Clin Exp Optom,2003,86:230-234.
|
[36] |
Greene PR. Stress-strain behavior exponential strips[J]. Bull Math Biol,1985,47:757-764.
|
[37] |
Elsheikh A, Anderson K. Comparative study of corneal strip extensometry and inflation tests[J]. J R Soc Interface,2005,2:177-185.
|
[38] |
Anderson K, El-Sheikh A, Newson T. Application of structural analysis to the mechanical behaviour of the cornea[J]. J R Soc Interface,2004,1:3-15.
|
[39] |
Vito RP, Shin J, McCarey BE. A mechanical model of the cornea: the effects of physiological and surgical factors on radial keratotomy surgery[J]. Refract Corneal Surg,1989,5:82-88.
|
[40] |
Bryant MR, McDonnell PJ. Constitutive laws for biomechanical modeling of refractive surgery[J]. J Biomech Eng,1996,118:473-481.
|
[41] |
Hennighausen H, Feldman ST, Bille JF, et al. Anterior-posterior strain variation in normally hydrated and swollen rabbit cornea[J]. Invest Ophthalmol Vis Sci,1998,39:253-262.
|
[42] |
Yu JG, Bao FJ, Feng YF, et al. Assessment of corneal biomechanical behavior under posterior and anterior pressure[J]. J Refract Surg,2013,29:64-70.
|
[43] |
Nash IS, Greene PR, Foster CS. Comparison of mechanical properties of keratoconus and normal corneas[J]. Exp Eye Re,1982,35:413-424.
|
[44] |
Hayes S, Boote C, Tuft SJ, et al. A study of corneal thickness, shape and collagen organisation in keratoconus using videokeratography and X-ray scattering techniques[J]. Exp Eye Res,2007,84:423-434.
|