The Open Drug Delivery Journal

2008, 2 : 61-70
Published online 2008 August 21. DOI: 10.2174/1874126600802010061
Publisher ID: TODDJ-2-61

Designing of a Thermosensitive Chitosan/Poloxamer In Situ Gel for Ocular Delivery of Ciprofloxacin

J. Varshosaz , M. Tabbakhian and Z. Salmani
Isfahan Pharmaceutical Sciences Research Center and Department of Pharmaceutics, School of Pharmacy, Isfahan University of Medical Sciences, PO Box 81745-359, Isfahan, Iran.

ABSTRACT

To increase the low bioavailability and short ocular residence time of ciprofloxacin eye drops, aqueous solutions of drug in chitosan/ Pluronic (poloxamer) were prepared to identify suitable compositions with regard to gel forming properties and drug release behavior. Mixtures of solutions of Pluronic (10-25% w/w) with chitosan (0.1-0.3% w/w) of different molecular weights (Mw) were prepared. Ciprofloxacin release was determined using a membraneless dissolution model in artificial tear solution up to 8 hours and the samples were analyzed spectrophotometrically at 272.4nm. The rheological behavior of solutions in response to dilution or temperature changes and also the phase change temperature (PCT) were determined using a Cup & Bob viscometer. Antimicrobial effect of the solutions was studied in nutrient agar in comparison to marketed solutions of ciprofloxacin using Pseudomonas aueroginosa and Staphylococcus aureus by the agar diffusion test using the cup-plate technique. The formulation consisted of 15% Pluronic and 0.1% low Mw chitosan, with the highest release efficiency (46.61 ± 0.41%) and an acceptable mean release time (1.94 ± 0.27 hr), is suggested as a suitable ophthalmic preparation for sustained release of ciprofloxacin. This in situ gel released the drug by a Higuchi model and Fickian mechanism. It was liquid in non-physiologic conditions (pH 4 and 25ºC) and transferred to the gel form upon physiologic conditions (pH 7.4 and 37ºC). The PCT of this in situ gel did not change upon dilution and the zone of inhibition of the growth of both studied bacteria was significantly greater for it than the marketed eye drop of ciprofloxacin.

Keywords:

Ocular drug delivery, in situ gels, chitosan, poloxamer, phase transition temperature.