Ami Raval, Pratap Bahadur, Ankur Raval. Effect of nonionic surfactants in release media on accelerated in-vitro release profile of sirolimus eluting stents with biodegradable polymeric coating[J]. Journal of Pharmaceutical Analysis, 2018, 8(1): 45-54.
Citation:
Ami Raval, Pratap Bahadur, Ankur Raval. Effect of nonionic surfactants in release media on accelerated in-vitro release profile of sirolimus eluting stents with biodegradable polymeric coating[J]. Journal of Pharmaceutical Analysis, 2018, 8(1): 45-54.
Ami Raval, Pratap Bahadur, Ankur Raval. Effect of nonionic surfactants in release media on accelerated in-vitro release profile of sirolimus eluting stents with biodegradable polymeric coating[J]. Journal of Pharmaceutical Analysis, 2018, 8(1): 45-54.
Citation:
Ami Raval, Pratap Bahadur, Ankur Raval. Effect of nonionic surfactants in release media on accelerated in-vitro release profile of sirolimus eluting stents with biodegradable polymeric coating[J]. Journal of Pharmaceutical Analysis, 2018, 8(1): 45-54.
Effect of nonionic surfactants in release media on accelerated in-vitro release profile of sirolimus eluting stents with biodegradable polymeric coating
It is a well-known fact that sirolimus (SRL) undergoes degradation process via hydrolysis in aqueous media, leading to incorrect assessment of drug amount and thus release characteristics of formulations. The main objective of the present study was to evaluate the effect of nonionic surfactants in media on in-vitro release profiles for sirolimus eluting stents (SES) coated with biodegradable polymeric matrix. Phosphate buffer and acetate buffer incorporating nonionic surfactants with varying concentrations were examined for adequate solubility and stability (by RP-HPLC). Good sink condition was achieved in phosphate buffer (at pH 4.0) with 1.0%Tween 20, 1.0%Brij 35%and 0.5%Brij 58. Hydrodynamic size (by DLS) and the micelle-water partition coefficient (P) with standard free energy of solubilization (?Gs°) of drug were evaluated to get some understanding about the solubilization phenomena. About 80%of drug release during the period of 48 h was achieved in optimized drug release media which was 1.0%Tween 20 in phosphate buffer pH 4.0. The obtained accelerated SRL release profile in optimized medium cor-related well with the real time in-vitro release in phosphate buffer (pH 7.4). Surface morphology changes (by SEM), changes in gravimetric weights and molecular weight change (by GPC) were examined before and after drug release to understand the drug release mechanism which explains that the polymer did not undergo degradation during the drug release.