Films of two fluorinated block copolymers (P(S81-Sz6) and P(S81-Sz11)) were investigated and compared with those of a commercial Teflon-like polymer (PTFE-AF) in the search for novel non-biofouling coatings able to minimize the amount of tear fluid (TF) proteins absorbed on contact lens (CL) surfaces. The adsorption of a solution containing lysozyme, albumin and immunoglobulin G (mimicking the TF composition) on the fluorinated block copolymers was evaluated using a quartz crystal microbalance. P(S81-Sz11) was found to resist protein adsorption more effectively than P(S81-Sz6) and PTFE-AF. The different interaction of P(S81-Sz6) and P(S81-Sz11) with the artificial TF was attributed to creation of a more heterogeneous and moderately hydrophobic surface of the latter polymer film by dynamic contact angle and atomic force microscopy studies. Moreover, deposition of P(S81-Sz11) on a CL-like silicone (PDMS) and a CL thin films demonstrated a protein adsorption reduction of up to 70% relative to pristine PDMS and commercial CL thin films.

Non-Biofouling Fluorinated Block Copolymer Coatings for Contact Lenses

GALLI, GIANCARLO;MARTINELLI, ELISA;
2015-01-01

Abstract

Films of two fluorinated block copolymers (P(S81-Sz6) and P(S81-Sz11)) were investigated and compared with those of a commercial Teflon-like polymer (PTFE-AF) in the search for novel non-biofouling coatings able to minimize the amount of tear fluid (TF) proteins absorbed on contact lens (CL) surfaces. The adsorption of a solution containing lysozyme, albumin and immunoglobulin G (mimicking the TF composition) on the fluorinated block copolymers was evaluated using a quartz crystal microbalance. P(S81-Sz11) was found to resist protein adsorption more effectively than P(S81-Sz6) and PTFE-AF. The different interaction of P(S81-Sz6) and P(S81-Sz11) with the artificial TF was attributed to creation of a more heterogeneous and moderately hydrophobic surface of the latter polymer film by dynamic contact angle and atomic force microscopy studies. Moreover, deposition of P(S81-Sz11) on a CL-like silicone (PDMS) and a CL thin films demonstrated a protein adsorption reduction of up to 70% relative to pristine PDMS and commercial CL thin films.
2015
Bianco, Monica; Guarino, Vita; Maruccio, Giuseppe; Galli, Giancarlo; Martinelli, Elisa; Montani, Giancarlo; Rinaldi, Rosaria; Arima, Valentina
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11568/759421
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