Purpose: The study purpose was to evaluate corneal barrier function and staining relative to potential bioincompatibilities.
Methods: This was a randomized double-masked study (n = 25 subjects). Three lens material-care solution combinations were tested: (1) lotrafilcon B/polyhexamethylene biguanide (PHMB)-based multipurpose (MPS) solution (MPS-1); (2) lotrafilcon B/polyquaternium-1 and myristamidopropyl dimethylamine-based solution (MPS-2); and (3) lotrafilcon B and another PHMB-based solution (MPS-3). Saline served as the control. New lenses were soaked in the preserved solutions or saline and then worn for 2 hours before corneal measurements. Barrier function was characterized by the fluorescein penetration rate, corneal amount, both measured with an objective scanning fluorometer. The dye penetration rate ratio, test to control; amount ratio, test to control, and corneal staining were evaluated.
Results: The mean rate ratios (± SD) for the combinations were 2.98 (± 3.04), 1.23 (± 1.01), and 1.83 (± 1.77) for MPS-1, MPS-2, and MPS-3 solutions, respectively. Significant ratio differences were found across regimens (P = 0.007); for MPS-1 compared with baseline (P = 0.031) and for MPS-1 compared with MPS-2 (P = 0.007). The statistical results for staining were similar.
Conclusions: Use of an objective quantitative physiological method suggests that significant differences in lens solution bioincompatibilities occur that mirror corneal staining data relative to corneal compromise.