6^th Global Ophthalmologists Annual Meeting

Biography

Biography: Anderson Ho Cheung Shum

Abstract

Diffusion of protein-based drugs (e.g. ranibizumab and bevacizumab) in the eye often depends on the viscosity and the mesh size of the vitreous humor. The diffusion speed of molecules within a liquid is inversely proportional to the viscosity, and therefore the molecules diffuse much slower in vitreous humor than in water. The mesh size of the vitreous affects the diffusion of drugs with a large molecular weight due to the role of the network as a physical barrier to the drugs involved. However, little has been studied regarding the interaction (or the binding) between the vitreous components and the drug molecules. The surface charge on the vitreous component that causes the binding with the drug molecules also potentially plays a significant role in the diffusion of the drug molecules. This effect may become very significant particularly in the diffusion of small molecular drugs (e.g. dexamethasone). In this study, the interaction between the small drug molecules and the vitreous components is studied. The interaction being studied is independent of the viscosity (by using homogenized vitreous samples) and the mesh size of the vitreous (small testing molecules). Our results show that the diffusion of the small aqueous soluble molecules is highly interfered by the macromolecules present in the vitreous content when compared with water as the diffusion medium. Our results further suggest that the small molecules probably bind with the collagen, but not the hyaluronate, that are present in the vitreous humor.