Mesoporous Materials and Nanocrystals for Enhancing the Dissolution Behavior of Poorly Water-soluble Drugs

Title:Mesoporous Materials and Nanocrystals for Enhancing the Dissolution Behavior of Poorly Water-soluble Drugs

Volume: 14 Issue: 10

Author(s): Helder A. Santos, Leena Peltonen, Tarja Limnell and Jouni Hirvonen

Affiliation:

Keywords: Drug delivery, Dissolution, Nanocrystals, Pharmaceutical formulation, Porous silicon, Porous silica, Poor watersolubility.

Abstract: Advanced drug delivery formulations are presently recognized as promising tools for overcoming the adverse physicochemical properties of conventional drug molecules, such as poor water solubility, which often leads to poor drug bioavailability. Oral drug delivery is considered as the easiest and most convenient route of drug administration. However, via the current trends utilizing combinatorial chemistry and high throughput screening in drug development, new drug molecules are moving towards lipophilic and poorly water-soluble large molecules, and the oral delivery route is becoming increasingly challenging. In this context, formulation of poorly soluble and/or permeable drugs using mesoporous materials and nanocrystals technology have proven to be highly successful due to the greater surface/volume ratio of these systems, resulting in improvements in dissolution and bioavailability, as well as enhanced drug permeability. This review addresses the issues of poorly water-soluble drugs with a major focus on recent developments in the application of the mesoporous materials (e.g., porous silicon and silica) and nanocrystals in drug delivery applications. In addition, we present several recent examples of the significant potential of these materials for the pharmaceutical field.

Cite this article as:

Santos A. Helder, Peltonen Leena, Limnell Tarja and Hirvonen Jouni, Mesoporous Materials and Nanocrystals for Enhancing the Dissolution Behavior of Poorly Water-soluble Drugs, Current Pharmaceutical Biotechnology 2013; 14 (10) . https://dx.doi.org/10.2174/1389201014666131226150404