06. February 2017

Abstract Liquid adsorption on solid adsorbent carriers is an emerging technique for oral lipid-based drug delivery systems. The purpose of the current study is to convert liquid into solid self-emulsifying lipid formulations (SELFs) using an inorganic adsorbent Neusilin® grade US2 (NUS2) and investigate in vitro dissolution and digestion performance of the model antipsychotic compound risperidone. Methods The liquid SELFs were designed using various oils, nonionic surfactants and converted...

29. February 2016

The study investigated the use of monoacyl phosphatidylcholine (MAPC) in self-nanoemulsifying drug delivery system (SNEDDS). A D-optimal design was used to generate two sets of formulations containing long-chain (LC) or medium-chain (MC) glycerides, caprylocaproyl macrogol-8 glycerides (Labrasol), Lipoid S LPC 80 (LPC) (80% MAPC) and ethanol. The formulations were characterized using dynamic light scattering, microscopy, in vitro lipolysis and viscometric measurements. All LC formulations...

29. November 2015

An increasing number of newly discovered drugs are poorly water-soluble and the use of natural and synthetic lipids to improve the oral bioavailability of these drugs by utilizing the digestion pathway in-vivo has proved an effective formulation strategy. The mechanisms responsible for lipid digestion and drug solubilisation during gastrointestinal transit have been explored in detail, but the implications of drug precipitation beyond the potential adverse effect on bioavailability have...

19. September 2015

Lipid-based formulations can be effective drug delivery systems for poorly water-soluble chemical entities, provided they are designed with careful selection of the excipients, based on their role in the delivery system and in relation to drug properties. The primary factor leading to increased bioavailability is the administration of the drug in a pre-dissolved state thereby avoiding the dissolution limiting step. More