Formulating and evaluating a gel that contains Eletriptan-loaded transferosomes

Abstract

Transdermal-vesicular drug delivery systems offer various advantages over conventional drug delivery systems, such as bypassing first-pass metabolism, site-specific delivery, reduced dosing frequency, and more. The objective of the present research involves the formulation and in-vitro evaluation of Eletriptan transferosomal gel to reduce dosing frequency. Transferosomes act as vehicles for on-site drug delivery, and they are vesicular systems with a flexible membrane. By formulating this type, we can achieve a higher concentration at the site of action, thereby reducing dosing frequency.
 Fourier-transform infrared spectra revealed that there was no interaction between the drug and excipients. Transferosomal formulations were prepared by the thin-film hydration technique and were incorporated into 1.5% Carbopol gel. From the results, Formulation code-ET6, containing Lecithin: Tween-80, has higher entrapment efficiency and maximum drug release, and is hence considered the optimized formulation. Stability studies performed for optimized transferosomal gel formulations indicate that the prepared transferosomal gel has more stability at a lower temperature.
 The conclusion is that, based on the above data, it is confirmed that the prepared Eletriptan transferosomal gels can be considered as one of the promising approaches to reducing dosing frequency and maintaining drug concentration at the desired site for a longer time.
 Keywords: Transdermal drug delivery, Eletriptan, Transferosomes, Thin Film Hydration Method, Carbopol gel.