Self-nanoemulsifying drug delivery system (SNEDDS) as nano-carrier framework for permeability modulating approaches of BCS class III drug
Amulya Jindal, Pankaj Sharma, Anoop Kumar
Abstract
The purpose of this review is to focus on the Self-Nanoemulsifying Drug Delivery System (SNEDDS) as an effective nanocarrier framework for permeability modulating approaches (PMA) of BCS class-III drugs and its challenges. Present review updates the recent trends in the SNEDDS research where it was employed as a cargo carrier for PMA and challenges. Patient compliance, ease of administration and non-invasiveness mode are non-trivial aspects in the oral administration of drugs. However, low aqueous solubility and impaired permeability are two prominent challenges resulting poor absorption of a drug. SNEDDS emerged as a dual nano-carrier system to enable nanodispersion of PMA via e.g. ion-pairing, phospholipid-complex, surfactant-drug interaction, loading of non-ionizable, free drug bases etc. These PMAs are embedded within the lipid phase of SNEDDS to produce nanosizing, enhancing nano-dispersibility via micellization/solubilization mechanism owing to its ternary components. Review highlights different PMAs employed in bioavailability enhancement of BCS class-III. It covers excipients employed in SNEDDS-loaded PMA, strategies for the hydrophobic transformation of water-soluble drugs for BCS class-III drugs. SNEDDS as a nano-cargo system for PMAs significantly modifies the bioavailability of BCS class-III drugs. SNEDDS is an isotropic-mixture of oil, surfactant:co-surfactant offers multipoint access to PMA loading and produces nano-dispersion in aqueous-medium.