Systemic in vitro and in vivo evaluation for determining the feasibility of making an amorphous solid dispersion of a B-Raf (rapidly accelerated fibrosarcoma) inhibitor.

It is well acknowledged that oral bioavailability of a drug candidate is often influenced by factors such as the permeability, physico-chemical properties, and metabolism of the drug. Among the physico-chemical properties, solubility and dissolution rate are considered the most critical factors affecting the oral bioavailability of a compound G-F is a potent and selective B-Raf inhibitor with poor solubility and adsorption is limited by solubility at high doses. In order to overcome this issue using a spray-dried amorphous dispersion (SDD) formulation was evaluated. A combination of theoretical solubility prediction and in vitro dissolution, were used to predict the in vivo exposure of G-F. The predicted value was found to have good agreement with the in vivo exposure from dosing the crystalline and amorphous form of G-F. In general, this combined approach demonstrated that the amorphous form of G-F offers an advantage over the crystalline form of G-F in terms of solubility; in vitro dissolution and in vivo absorption were predictable and consistent with the literature. This systemic approach provides a great value for compound development.