Comparison of the effect of multipurpose contact lens solutions on the viability of cultured corneal epithelial cells

Abstract 

Purpose

To determine the effect of four marketed multipurpose contact lens solutions (MPSs) on corneal epithelial cell viability.

Methods

Comparison of the effect of MPS A (Renu MultiPlus, Bausch & Lomb), MPS B (OPTI-FREE Express, Alcon), MPS C (AQuify, CibaVision), and MPS D (OPTI-FREE RepleniSH, Alcon) on cell viability was performed by quantifying cellular ATP content, resazurin reduction, and lactate dehydrogenase (LDH) release in transformed human corneal epithelial cells (HCEpiC) and primary bovine corneal epithelial cells (BCEpiC).

Results

Significant reductions in cellular ATP content were observed at 40% solution and above with both MPS B and MPS D, compared to at 100% only for MPS A and MPS C, and similar results were obtained in BCEpiC. Effects on resazurin reduction were also less in HCEpiC exposed to increasing doses of MPS A and MPS C than in cells exposed to MPS B and MPS D. After 15min, HCEpiC viability measured by both resazurin reduction and cellular ATP levels was significantly lower for cells exposed to MPS B, MPS D, and MPS C, while HCEpiC exposed to MPS A were not affected. MPS B and MPS D reduced cell viability more than MPS A and MPS C over a 2-h time course in both HCEpiC and BCEpiC.

Conclusions

Both MPS B and MPS D can cause large decreases in the viability of cultured corneal epithelial cells even with just a 2h exposure at multiple doses. Significant reduction in cell viability is evident at brief 15–30min exposures. In contrast, MPS A and MPS C have significantly less effect on the cell viability of corneal epithelial cells at multiple doses, after these short exposure times.

Keywords: Cellular ATP content, Resazurin reduction, LDH release, Cell culture, Ocular surface