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Recent advances of non-ionic surfactant-based nano-vesicles (niosomes and proniosomes): a brief review of these in enhancing transdermal delivery of drug

Durga Bhavani G, Veera Lakshmi P

2020Future Journal of Pharmaceutical Sciences80 citationsDOIOpen Access PDF

Abstract

Abstract Background Hepatic first-pass metabolism and poor therapeutic efficiency at targeted region are the endemic problems of new drug molecules. Thus, comprehensive research has been carried out on the novel vesicular drug delivery systems in nanotechnology from the last few years. These nano-carrier systems have developed to overcome the limitations that are associated with hepatic first-pass metabolism in conventional oral dosage forms and the barrier properties of the lipid bilayer in stratum corneum via transdermal drug delivery for improving the bioavailability of various drugs. Main body In recent years, several targeted vesicular drug delivery carriers are developing like liposomes, niosomes, proniosomes, transferosomes, ethosomes, and electrosomes. Among them, niosomes and proniosomes are to be better carriers to increase therapeutic efficiency and bioavailability by reducing the side effects and acting as a promising approach for transdermal drug delivery. Both are non-ionic surfactant-based vesicles and are amphiphilic. This article concisely reviews the possible mechanisms within niosomes and pronisomes to enhance transdermal drug delivery, types, composition, preparation techniques, characterizations, and its applications. Conclusion As per the researches done in the formulation of various nano-carrier systems through transdermal approach for the enhancement of bioavailability, it can be stated that the hepatic first pass metabolism can be reduced as well as therapeutic efficiency can be increased by many folds compared to their oral marketed formulations.

Topics & Concepts

NiosomeTransdermalBioavailabilityStratum corneumLiposomeDrug deliveryFirst pass effectDrugPharmacologyNanotechnologyDrug carrierChemistryVesicleMaterials scienceMedicineMembraneBiochemistryPathologyAdvancements in Transdermal Drug DeliveryAdvanced Drug Delivery SystemsLipid Membrane Structure and Behavior