References
- Metlapally S, McBrien NA. The effect of positive lens defocus on ocular growth and emmetropization in the tree shrew. J Vis 2008;8(3):1–12.
- Siegwart JT Jr, Strang CE. Selective modulation of scleral proteoglycan mRNA levels during minus lens compensation and recovery. Mol Vis 2007,4:1878–86.
- Hess RF, Schmid KL, Dumoulin SO, Field DJ, Brinkworth DR. What image properties regulate eye growth? Curr Biol 2006;16:687–91.
- McBrien NA, Cornell LM, Gentle A. Structural and ultrastructural changes to the sclera in a mammalian model of high myopia. Invest Ophthalmol Vis Sci 2001;42:2179–87.
- Kröger RH, Wagner HJ. The eye of the blue acara (Aequidens pulcher, Cichlidae) grows to compensate for defocus due to chromatic aberration. J Comp Physiol A Neuroethol Sens Neural Behav Physiol 1996;179:837–42.
- Kröger RH, Binder S. Use of paper selectively absorbing long wavelengths to reduce the impact of educational near work on human refractive development. Br J Ophthalmol 2000;84:890–3.
- Hu M, Zhong H, Liu Y, Liu R, Chen C, Chu R. Expression of rhodopsin for experimental myopia of form-deprivation and defocus in guinea pig. Yan Ke Xue Bao 2008;24(1):1–5.
- Li J, Chu RY, Qu XM, Hu M, Da CD. A study on the expression of opsins in form-deprived myopia retina of guinea pig. Zhonghua Yan Ke Za Zhi 2007;43:266–70.
- Jacobs GH, Deegan JF 2nd. Spectral sensitivity, photopigments, and color vision in the guinea pig (Cavia porcellus). Behav Neurosci 1994;108:993–1004.
- Parry JW, Bowmaker JK. Visual pigment coexpression in guinea pig cones: a microspectrophotometric study. Invest Ophthalmol Vis Sci 2002;43:1662–5.
- Howlett MH, McFadden SA. Form-deprivation myopia in the guinea pig (Cavia porcellus). Vision Res 2006;46:267–83.
- Howlett MH, McFadden SA. Emmetropization and schematic eye models in developing pigmented guinea pigs. Vision Res 2007;47:1178–90.
- Zhou X, Lu F, Xie R, Jiang L, Wen J, Li Y, et al. Recovery from axial myopia induced by a monocularly deprived facemask in adolescent (7-week-old) guinea pigs.Vision Res 2007;47:1103–11.
- Lu F, Zhou X, Zhao H, Wang R, Jia D, Jiang L, et al. Axial myopia induced by a monocularly-deprived facemask in guinea pigs: a non-invasive and effective model. Exp Eye Res 2006;82:628–36.
- Young FA. The effect of restricted visual space on the primate eye. Am J Ophthalmol 1961;52:799–806.
- Wallman J, Turkel J, Trachtman J. Extreme myopia producted by modest change in early visual experience. Science 1978;201:1249–51.
- Seidemann A, Schaeffel F. Effects of longitudinal chromatic aberration on accommodation and emmetropization. Vision Res 2002;42:2409–17.
- Ramamirtham R, Kee CS, Hung LF, Qiao-Grider Y, Huang J, Roorda A, et al. Wave aberrations in rhesus monkeys with vision-induced ametropias. Vision Res 2007;47:2751–66.
- Chen DH, Chu RY, Zhou GM, Hu DN. The effect of chromatic light having on retina pigmented epithelium’s secretion of TGF-β. Clin J Ophthalmol Otorhinolaryngol 2004;4(2):86–8.
- Chu R, Zheng X, Chen D, Hu DN. Blue light irradiation inhibits the production of HGF by human retinal pigment epithelium cells in vitro. Photochem Photobiol 2006;82:1247–50.