Fabrication of biocompatible water-soluble supramolecular nanofibers of oseltamivir with methyl-β-cyclodextrin for enhanced drug release

Abstract

In recent times, there has been a growing interest in the advancement of nanofiber technology using materials based on cyclodextrin (CD). This heightened interest is primarily driven by their potential applications in controlled drug release. This research aims to create the nanofibers (NF) which involves incorporating an antiviral agent, oseltamivir (OTV) into the CD cavity, forming inclusion complexes (IC) that greatly improve drug encapsulation efficiency. To assess the physicochemical properties and drug-loading capabilities of these CD-based NF, a variety of characterization techniques can be utilized. It is noteworthy that NF containing OTV:MCD-IC/PVA demonstrates a continuous release of OTV (89.25%) at acidic conditions (pH 5.8) when compared to NF holding no MCD materials. Moreover, dissolution studies reveal that the resulting material is non-toxic and readily soluble in water (less than 2 min). MTT assay indicated that the examined NF are completely safe and do not have/make any adverse effects on the cells (cell viability is more than 98%). The fibroblast cells grown on nanomatrixes composed of both OTV/PVA and OTV:MCD IC/PVA NF did not display any indications of apoptosis or nuclear shrinkage. The development of such systems holds significant promise for advancing therapeutic strategies in the management of viral infections.