Formulation of poorly water-soluble drugs for oral administration: physicochemical and physiological issues and the lipid formulation classification system

Abstract

Poorly water-soluble drug candidates often emerge from contemporary drug discovery programs, and present formulators with considerable technical challenges. The absorption of such compounds when presented in the crystalline state to the gastrointestinal tract is typically dissolution rate-limited, and the drugs are typically BCS class II or class IV compounds. Class IV compounds, which have low membrane permeability as well as poor aqueous solubility, are often poor candidates for development, unless the dose is expected to be low. The rate and extent of absorption of class II compounds is highly dependent on the performance of the formulated product. These drugs can be successfully formulated for oral administration, but care needs to be taken with formulation design to ensure consistent bioavailability. Essentially the options available involve either reduction of particle size (of crystalline drug) or formulation of the drug in solution, as an amorphous system or lipid formulation. The performance of amorphous or lipid formulations is dependent on their interaction with the contents of the gastrointestinal tract, therefore, a formulation exercise should involve the use of techniques which can predict the influence of gut physiology. A major consideration is the fate of metastable supersaturated solutions of drug, which are formed typically after dispersion of the formulation and its exposure to gastrointestinal digestion. A better understanding of the factors which affect drug crystallization is required, and the introduction of standardised predictive in vitro tests would be valuable. Although many bioavailability studies have been performed with poorly water-soluble drugs, thus far this research field has lacked a systematic approach. The use of a lipid formulation classification system combined with appropriate in vitro tests will help to establish a database for in vitro-in vivo correlation studies.