Soft contact lenses used for the correction of ametropia are often made of hydrogel and silicone-hydrogel materials. Since they are placed directly on the surface of the eye and they are hydrated by tears, eye cosmetics can compromise the lens performance and, even worse, can be transported from an external environment to the ocular surface through the contact lens. The diffusion of the dye component of a purple eyeshadow in soft contact lenses of different materials is here evaluated. Diffusivity is found to be typically higher in silicone-hydrogels than in hydrogels. In hydrogels, diffusivity is greater in the case of lower oxygen transmissibility. Despite differences between materials, absorbed mass of dye is much larger (10–100 times) than the expected mass by simple hydration and swelling of the contact lens. The most contaminated materials are also resistant to cleaning solutions. The results indicate that, notwithstanding the complexity of contact lens networks, diffusion of dye is found to follow Fick's law and it is driven by polymer-dye interaction, which governs lens hydration and swelling.

Tavazzi, S., Rossi, A., Picarazzi, S., Ascagni, M., Farris, S., Borghesi, A. (2017). Polymer-interaction driven diffusionof eyeshadow in soft contact lenses. CONTACT LENS & ANTERIOR EYE, 40(5), 335-339 [10.1016/j.clae.2017.06.003].

Polymer-interaction driven diffusionof eyeshadow in soft contact lenses

Tavazzi, S
;
Borghesi, A
2017

Abstract

Soft contact lenses used for the correction of ametropia are often made of hydrogel and silicone-hydrogel materials. Since they are placed directly on the surface of the eye and they are hydrated by tears, eye cosmetics can compromise the lens performance and, even worse, can be transported from an external environment to the ocular surface through the contact lens. The diffusion of the dye component of a purple eyeshadow in soft contact lenses of different materials is here evaluated. Diffusivity is found to be typically higher in silicone-hydrogels than in hydrogels. In hydrogels, diffusivity is greater in the case of lower oxygen transmissibility. Despite differences between materials, absorbed mass of dye is much larger (10–100 times) than the expected mass by simple hydration and swelling of the contact lens. The most contaminated materials are also resistant to cleaning solutions. The results indicate that, notwithstanding the complexity of contact lens networks, diffusion of dye is found to follow Fick's law and it is driven by polymer-dye interaction, which governs lens hydration and swelling.
Articolo in rivista - Articolo scientifico
Contact lens; Diffusivity; Eyeshadow; Fick; Hydrogel; Make-up; Coloring Agents; Diffusion; Humans; Contact Lenses, Hydrophilic; Cosmetics; Hydrogel, Polyethylene Glycol Dimethacrylate; Silicone Elastomers; Ophthalmology; Optometry
English
2017
40
5
335
339
none
Tavazzi, S., Rossi, A., Picarazzi, S., Ascagni, M., Farris, S., Borghesi, A. (2017). Polymer-interaction driven diffusionof eyeshadow in soft contact lenses. CONTACT LENS & ANTERIOR EYE, 40(5), 335-339 [10.1016/j.clae.2017.06.003].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/197800
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