Brinzolamide Dimethyl Sulfoxide In Situ Gelling Ophthalmic Solution: Formulation Optimisation and In Vitro and In Vivo Evaluation.

In the present work, a cost-effective, stable and sustained release ophthalmic solution formulation of brinzolamide (BRZ) was developed for the treatment of glaucoma. The prototype formulation undergoes 'in situ gelling' when administered in the eye, thereby providing longer residence (16-24 h). As a result, the same therapeutic endpoint is achieved with once daily dosing vis-à-vis the commercially available product Azopt® (brinzolamide 1.0% w/v, Alcon Laboratories, USA) that requires 3-4 times instillations per day. The prototype formulations were prepared using dimethyl sulfoxide, polyoxyl 35 castor oil and polysorbate 80. Gellan gum was used as the in situ gelling agent. Formulation variables like (i) concentration of the drug, dimethyl sulfoxide and in situ gelling agent and (ii) type and concentration of solubiliser showed a significant effect on the solubility of brinzolamide, in vitro gelling time, in vitro drug release and in situ gel stability. Prototype formulations were evaluated in New Zealand white rabbits for ocular toxicity and efficacy study. The tested formulations were well tolerated and reduced intraocular pressure (IOP) from 25-28 to 12-14 mmHg compared to saline and placebo control samples. Additionally, a significant increase in the area under change in IOP from baseline (ΔIOP) vs. time curve and a longer mean residence time (MRT) were also observed for the test formulations (7.4 to 17.7 h) compared to the commercially available suspension of Azopt® (4.9 h) (p < 0.0001). Thus, 'in situ gelling' formulation strategy described in this work can work as a viable option for ocular delivery of brinzolamide for the treatment of glaucoma.

Design, optimisation and evaluation of in situ gelling nanoemulsion formulations of brinzolamide.

The present research work summarises the development of an in situ gelling ophthalmic nanoemulsion of brinzolamide providing sustained release and prolonged therapeutic effect for the treatment of glaucoma. Nanoemulsions were prepared using castor oil, polyoxyl 35 castor oil and polysorbate 80 and with gellan gum as the in situ gelling agent. Formulations were screened based on globule size, Zeta potential, in vitro drug release and stability towards phase separation and sol to gel conversion upon storage. Selected formulations exhibiting a low mean globule diameter (< 160 nm), narrow size distribution (polydispersity index < 0.3), quick in vitro gelling time (< 15 s) and stability for at least 6 months at 25 °C/40% RH and 40 °C/25% RH were evaluated for intraocular pressure (IOP)-lowering efficacy studies using glaucomatous rabbits. Tested nanoemulsion formulations were well tolerated and significantly decreased IOP relative to saline and placebo controls (p < 0.005). Furthermore, an appreciable increase in the area under change in IOP from baseline (ΔIOP) vs. time curve and a longer mean residence time (MRT) was also observed for the test formulations compared with commercially available suspension of brinzolamide (Azopt, Alcon Laboratories, USA). Thus, nanoemulsion formulations containing in situ gelling polymer may serve as improved drug delivery system providing superior therapeutic efficacy and better patient compliance for the treatment of glaucoma. . Graphical abstract.

Levofloxacin Hemihydrate In Situ Gelling Ophthalmic Solution: Formulation Optimization and In Vitro and In Vivo Evaluation.

Bacterial conjunctivitis is a leading cause of ocular infections requiring short-term therapeutic treatment with frequent administration of drugs on daily basis. Topical dosage forms available in the market for the treatment of bacterial conjunctivitis such as simple drug solutions and suspensions are rapidly eliminated from the precorneal space upon instillation due to tear turn over and nasolacrimal drainage, limiting intraocular bioavailability of drug to less than 10% of the administered dose. To overcome issues related to conventional drop, an effort was made to design and evaluate prolong release ophthalmic solution of levofloxacin hemihydrate (LFH) using ion-sensitive in situ gelling polymer. Gellan gum was used as the in situ gelling agent. Formulations were screened based on in vitro gelation time, in vitro drug release, and stability towards sol to gel conversion upon storage. The prototype formulations exhibiting quick in vitro gelling time (< 15 s), prolonged in vitro drug release (18-24 h), and stability for at least 6 months at 25°C/40% relative humidity (RH) and 40°C/25% RH were evaluated for pharmacokinetic studies using healthy New Zealand white rabbits. Tested formulations were found to be well-tolerated and showed significant increase in AUC0-24 (22,660.39 h ng/mL) and mean residence time (MRT 12 h) as compared with commercially available solution Levotop PF® (Ajanta Pharma Ltd., India)(AUC0-24 6414.63 h ng/mL and MRT 4 h). Thus, solution formulations containing in situ gelling polymer may serve as improved drug delivery system providing superior therapeutic efficacy and better patient compliance for the treatment of bacterial conjunctivitis.