Abstract
Given that biodegradable in situ gelling delivery systems may have potential applications in the design of ophthalmic pharmaceutical formulations, this study, for the first time, aims to develop gelatin-g-poly(N-isopropylacrylamide) (GN) carriers for topical epigallocatechin gallate (EGCG) administration in the treatment of dry eye disease (DED). By temperature triggered sol-gel phase transition of copolymers, EGCG-loaded GN was prepared at 32 °C and characterized by FTIR, NMR, and HPLC analyses. Results of WST-1 and live/dead assays showed that GN materials have good compatibility with corneal epithelial cells. Gradual biodegradation of delivery carriers allowed sustained release of EGCG without drug toxicity. Anti-inflammatory and antioxidant activity studies also indicated effective therapeutic drug levels at each time point within 3 days of release. In a rabbit dry eye model, corneal epithelial defects was ameliorated by treatment with single-dose administration of EGCG-containing GN. Furthermore, drug molecules released from carrier materials could prevent further tear evaporation and loss of mucin-secreting goblet cells in diseased animals. Our findings suggest that GN carrier is responsible for enhanced pharmacological efficacy of topically instilled EGCG, thereby demonstrating the benefits of using biodegradable in situ gelling delivery system to overcome the drawbacks of limited dry eye relief associated with eye drop dosage form.
Highlights
Given that biodegradable in situ gelling delivery systems may have potential applications in the design of ophthalmic pharmaceutical formulations, this study, for the first time, aims to develop gelatin-gpoly(N-isopropylacrylamide) (GN) carriers for topical epigallocatechin gallate (EGCG) administration in the treatment of dry eye disease (DED)
Our findings suggest that GN carrier is responsible for enhanced pharmacological efficacy of topically instilled EGCG, thereby demonstrating the benefits of using biodegradable in situ gelling delivery system to overcome the drawbacks of limited dry eye relief associated with eye drop dosage form
The extent of degradation from GN and EGCG + GN groups revealed that drug loading does not lead to any significant changes in the weight loss of samples incubated in artificial tear solution (ATS) containing matrix metalloproteinase-9 (MMP-9) (P > 0.05)
Summary
Given that biodegradable in situ gelling delivery systems may have potential applications in the design of ophthalmic pharmaceutical formulations, this study, for the first time, aims to develop gelatin-gpoly(N-isopropylacrylamide) (GN) carriers for topical epigallocatechin gallate (EGCG) administration in the treatment of dry eye disease (DED). EGCG has been investigated as an anti-inflammatory and antioxidant agent in human corneal epithelial cell culture model[3] and murine dry eye model[4] These earlier observations indicate that EGCG is a potent candidate for therapeutic applications in topical ocular pharmacological treatment of DED. Due to the viscosity building effects of gelatin[13], the grafting of thermo-responsive polymer segments onto proteinaceous networks results in excellent adherence of the GN carriers, thereby implying their potential applications as in situ forming delivery systems on ocular surface Based on these considerations, we hypothesize that biodegradable in situ gelling GN materials will enhance pharmacological efficacy of medication in the management of dry eye symptoms. A rabbit model of experimental dry eye induced by benzalkonium chloride (BAC) was used to examine ocular drug bioavailability in relation to disease progression (Figure S1)
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