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The article is about the molecular biology of myopia. It discusses the characteristics of myopia and some of the drugs that slows down myopia.

The sclera is an important connective tissue that protects the sensitive layers within the eyeball. Identifying the mechanical properties of the sclera near the posterior pole is necessary to analyze the deformation of the sclera and stresses changing in the optic nerve head tissues. We propose a method to determine the mechanical properties of the sclera using dimensional analysis, finite element method and the indentation test. The elastic moduli of the sclera for different indentation depths and positions were identified. We found that the elastic moduli of the sclera varied with indentation depth. This was due to the effect of the mechanical properties of the substrate tissues inside the sclera. The elastic modulus of the choroid had the biggest effect on the determination of elastic modulus of the sclera, whereas that of the vitreous body could be ignored when the ratio of the indentation depth to the thickness of the sclera was less than 0.5. The effects of mechanical properties of the substrate tissues become more pronounced at greater indentation depths.

Multiphoton microscopy (MPM), with the advantages of improved penetration depth, decreased photo-damage, and optical sectioning capability, has become an indispensable tool for biomedical imaging. The combination of multiphoton fluorescence (MF) and second-harmonic generation (SHG) microscopy is particularly effective in imaging tissue structures of the ocular surface. This work is intended to be a review of advances that MPM has made in ophthalmic imaging. The MPM not only can be used for the label-free imaging of ocular structures, it can also be applied for investigating the morphological alterations in corneal pathologies, such as keratoconus, infected keratitis, and corneal scar. Furthermore, the corneal wound healing process after refractive surgical procedures such as conductive keratoplasty (CK) can also be studied with MPM. Finally, qualitative and quantitative SHG microscopy is effective for characterizing corneal thermal denaturation. With additional development, multiphoton imaging has the potential to be developed into an effective imaging technique for in vivo studies and clinical diagnosis in ophthalmology.