Determination of the total attenuation coefficient for six contact lens materials using the Beer–Lambert law

Summary The Beer–Lambert law has been used to determine the total attenuation coefficient, μ t , of three hard and three soft contact lens materials. The three hard contact lens materials were PMMA, Polycon II and Boston IV whereas the 3 soft materials were chosen with differing water contents of 38, 55 and 70%, respectively. The total attenuation coefficients of all six materials were obtained from measurements of the axial transmission at 632.8 nm of a series of plano powered lenses varying in axial thickness from 0.5 to 3.5 mm. The value of the total attenuation coefficient depends on both scattering and absorption and hence PMMA and Boston IV, which both incorporated a handling tint, showed significantly higher values ( P < 0.0001) of μ t (0.562 ± 0.010 mm −1 and 0.820 ± 0.008 mm −1 , respectively) than Polycon II (μ t = 0.025 ± 0.005 mm −1 ). A comparison between Polycon II and the three hydrated soft contact lens materials showed a significant increase ( P < 0.02) in the total attenuation coefficients for the 38% and 55% water content materials, and a weakly significant increase for the 70% water content soft lens material ( P < 0.1). On the assumption that the absorption coefficients of these four materials are approximately constant, then this change would be due to an increase in the scattering coefficient of the material and could contribute to an increase in intraocular scatter. No significant difference ( P > 0.5) was found between any of the hydrated soft contact lens materials tested.