Interactions of chlorhexidine and structurally related biguanides with selected monomolecular-film systems (that is, stearic acid, stearyl alcohol, and N-octadecylacetamide) were explored. The data reflected the significance of ionic associations between the compounds and stearic acid films and, in the instance of the biguanide analogs, indicated that the length of the alkyl chain was an important factor in the penetration process.
A systematic study has been made of the uptake of lysozyme by various contact lens materials. Lens uptake of 14C-methylated lysozyme was assessed using simple to complex artificial tear solutions. The data reflect prominent uptake by Group IV (ionic, high-water-content) hydrogel lenses, consistent with the literature. This includes protein on the lens surface and in the lens matrix, the former being estimated at about 33% of the total deposit for the DuraSoft 3 lenses used. Uptake appears to be contingent upon the nature of the lens material, the composition of the deposit model used, and the duration of lens exposure to the artificial tear solution.
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