Abstract

The goal of the study was to create Transfersomes, a unique vesicular carrier with improved anti-Inflammatory effects by lowering the gastrointestinal toxicity linked to oral administration. Phospholipids, extract from medicinal plants, and transfersomes made by Thin Film Hydration Techniques employing surfactants are some of the components of medicinal plants that are used in varying proportions. Particle size, entrapment efficiency, zeta potential, in vitro drug release, and transmission electron microscopy were assessed for the prepared Transfersomes. Using Fourier transform infrared spectroscopy [FT-IR], the compatibility between the medicinal plant extract and the excipients was assessed, and they were found to be compatible. Vesicle size was observed in the batch Transfersomes that were optimized. The best batch formulations of Transfersomes were mixed with polymer and tested for drug content, pH, spreadability, and in vitro penetration against commercial products. Compared to branded formulation, the deformed vesicle formed formulation performs better when combined with edge activator. Transfersome formulations containing medicinal plant extract have been found to offer a higher permeation rate than commercial formulations, based on parameters such as extract of medicinal plant release that were analyzed.

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