Design of a novel type IV lipid-based delivery system for improved delivery of drugs with low partition coefficient

Abstract

Context: The physicochemical properties of drugs such as partition coefficient play a major role in the development of lipid-based drug delivery systems. The major obstacle lies in encapsulation of a drug with low partition coefficient into these systems.

Objective: The objective of this study was to design and optimize a novel lipid-based delivery system with higher loading, improved pharmacokinetics consequently enhancing the oral bioavailability of drugs with low partition coefficient like valsartan.

Materials and methods: The optimized formulation consists of Capryol 90, Cremophor RH 40, and Transcutol HP. Pseudo ternary phase diagrams were used to optimize the components and their concentrations in the formulation. Dissolution studies of the selected formulations were compared with plain drug and marketed product at three pH conditions (pH 1.2, 4.5 and 6.8). Pharmacokinetic parameters of optimized formulations were determined in Wistar rats and compared with that of plain drug.

Results and discussion: The optimized formulation with a mean particle size of 50?nm showed significant improvement (p?in vivo studies in Wistar rats revealed about 2.30- and 1.68-fold increase in the oral bioavailability and C_max of valsartan from lipid-based formulation compared to plain drug.

Conclusion: The engineered formulation strategy by type IV lipid-based formulations can be successfully exploited to improve the dissolution rate and oral deliverability of drugs like valsartan.