| Literature DB >> 28821154 |
Patrizia Paolicelli1, Gabriele Varani2, Settimio Pacelli3, Elisa Ogliani4, Martina Nardoni4, Stefania Petralito4, Alessandra Adrover2, Maria Antonietta Casadei4.
Abstract
Physical hydrogels of a high-carboxymethylated derivative of scleroglucan (Scl-CM300) were investigated as potential systems for topical drug delivery using three different therapeutic molecules (fluconazole, diclofenac and betamethasone). Rheological tests were carried out on drug-loaded hydrogels along with in-vitro release studies in a vertical Franz cell, in order to investigate if and how different drugs may influence the rheological and release properties of Scl-CM300 hydrogels. Experimental results and theoretical modeling highlighted that, in the absence of drug/polymer interactions (as for fluconazole and betamethasone) Scl-CM300 matrices offer negligible resistance to drug diffusion and a Fickian transport model can be adopted to estimate the effective diffusion coefficient in the swollen hydrogel. The presence of weak drug/hydrogel chemical bonds (as for diclofenac), confirmed by frequency sweep tests, slow down the drug release kinetics and a non-Fickian two-phase transport model has to be adopted. In-vivo experiments on rabbits evidenced optimal skin tolerability of Scl-CM300 hydrogels after topical application.Entities:
Keywords: Carboxymethyl scleroglucan; Fickian and non-Fickian transport models; diffusion coefficient; physical hydrogels; topical formulation
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Year: 2017 PMID: 28821154 DOI: 10.1016/j.carbpol.2017.07.008
Source DB: PubMed Journal: Carbohydr Polym ISSN: 0144-8617 Impact factor: 9.381