[1] |
Morgan PB,Efron N,Woods CA. An international survey of contact lens prescribing for presbyopia. Clin Exp Optom,2011, 94:87-92.
|
[2] |
Schachar RA. Cause and treatment of presbyopia with a method for increasing the amplitude of accommodation. Ann Ophthalmol,1992,24:445-447,452.
|
[3] |
Schachar RA, Cudmore DP. The effect of gravity on the amplitude of accommodation. Ann Ophthalmol,1994,26:65-70.
|
[4] |
Schachar RA, Bax AJ. Mechanism of human accommodation as analyzed by nonlinear finite element analysis. Compr Ther,2001,27:122-132.
|
[5] |
Glasser A, Campbell MC. Presbyopia and the optical changes in the human crystalline lens with age. Vision Res,1998,38:209-229.
|
[6] |
Glasser A, Campbell MC. Biometric, optical and physical changes in the isolated human crystalline lens with age in relation to presbyopia. Vision Res,1999,39:1991-2015.
|
[7] |
Van de Sompel D, Kunkel GJ, Hersh PS, et al. Model of accommodation: contributions of lens geometry and mechanical properties to the development of presbyopia. J Cataract Refract Surg,2010,36.1960-1971.
|
[8] |
Hughes JR, Deeley JM, Blanksby SJ, et al. Instability of the cellular lipidome with age. Age (Dordr),2012,34:935-947.
|
[9] |
Harwerth RS, Smith EL, 3rd. Rhesus monkey as a model for normal vision of humans. Am J Optom Physiol Opt,1985,62:633-641.
|
[10] |
Fernandes A, Bradley DV, Tigges M, et al. Ocular measurements throughout the adult life span of rhesus monkeys. Invest Ophthalmol Vis Sci,2003,44:2373-2380.
|
[11] |
Koretz JF, Kaufman PL, Neider MW, et al. Accommodation and presbyopia in the human eye—aging of the anterior segment. Vision Res,1989,29:1685-1692.
|
[12] |
Hemenger RP, Garner LF, Ooi CS. Change with age of the refractive index gradient of the human ocular lens. Invest Ophthalmol Vis Sci,1995,36:703-707.
|
[13] |
Bito LZ, DeRousseau CJ, Kaufman PL, et al. Age-dependent loss of accommodative amplitude in rhesus monkeys: an animal model for presbyopia. Invest Ophthalmol Vis Sci,1982,23:23-31.
|
[14] |
Martin AR, Pilar G. Dual Mode of Synaptic Transmission in the Avian Ciliary Ganglion. J Physiol,1963,168:443-463.
|
[15] |
Priolo S, Sivak JG, Kuszak JR. Effect of age on the morphology and optical quality of the avian crystalline lens. Exp Eye Res,1999,69:629-640.
|
[16] |
Choh V, Sivak JG, Meriney SD. A physiological model to measure effects of age on lenticular accommodation and spherical aberration in chickens. Invest Ophthalmol Vis Sci,2002,43:92-98.
|
[17] |
Scarcelli G, Kim P, Yun SH. In vivo measurement of age-related stiffening in the crystalline lens by brillouin optical microscopy. Biophys J,2011,101:1539-1545.
|
[18] |
Baradia H, Nikahd N, Glasser A. Mouse lens stiffness measurements. Exp Eye Res,2010,91:300-307.
|
[19] |
Fisher RF. The elastic constants of the human lens. J Physiol,1971,212:147-180.
|
[20] |
Beers AP, Van Der Heijde GL. In vivo determination of the biomechanical properties of the component elements of the accommodation mechanism. Vision Res,1994,34:2897-2905.
|
[21] |
Czygan G, Hartung C. Mechanical testing of isolated senile human eye lens nuclei. Med Eng Phys,1996,18:345-349.
|
[22] |
Itoi M, Ito N, Kaneko H. Visco-elastic properties of the lens. Exp Eye Res,1965,4:168-173.
|
[23] |
Kikkawa Y, Sato T. Elastic properties of the lens. Exp Eye Res,1963,2:210-215.
|
[24] |
Weeber HA, Eckert G, Soergel F, et al. Dynamic mechanical properties of human lenses. Exp Eye Res,2005,80:425-434.
|
[25] |
Truscott RJ, Zhu X. Presbyopia and cataract: a question of heat and time. Prog Retin Eye Res,2010,29:487-499.
|
[26] |
Soergel F, Meyer C, Eckert G, et al. Spectral analysis of viscoelasticity of the human lens. J Refract Surg,1999,15:714-716.
|
[27] |
Heys KR, Cram SL, Truscott RJ. Massive increase in the stiffness of the human lens nucleus with age: the basis for presbyopia? Mol Vis,2004,10:956-963.
|
[28] |
Glasser A, Wendt M, Ostrin L. Accommodative changes in lens diameter in rhesus monkeys. Invest Ophthalmol Vis Sci,2006, 47:278-286.
|
[29] |
Vaughan JM, Randall JT. Brillouin scattering, density and elastic properties of the lens and cornea of the eye. Nature,1980,284:489-91.
|
[30] |
Giuliano S, Pilhan K, Seok HY. In Vivo Measurement of Age-Related Stiffening in the Crystalline Lens by Brillouin Optical Microscopy. Biophys J,2011,101:1539-45.
|
[31] |
Ackermann R, Kunert KS, Kammel R, et al. Femtosecond laser treatment of the crystalline lens: a 1-year study of possible cataractogenesis in minipigs. Graefes Arch Clin Exp Ophthalmol,2011,249:1567-1573.
|
[32] |
Holzer MP, Knorz MC, Tomalla M, et al. Intrastromal Femtosecond Laser Presbyopia Correction: 1-year Results of a Multicenter Study. J Refract Surg,2012,28:182-188.
|