Particle size reduction for improvement of oral bioavailability of hydrophobic drugs: I. Absolute oral bioavailability of nanocrystalline danazol in beagle dogs

Abstract Danazol is a poorly water soluble compound (10 μg/ml) that demonstrates poor bioavailability. The impact on bioavailability of increasing the area for dissolution by decreasing drug crystal particle size to less than 200 nm and stabilizing the particles to prevent agglomeration in the GI tract has been evaluated. A randomized three-way crossover study was conducted in fasted male beagle dogs to compare absolute oral bioavailability of danazol from three formulations. The three formulations examined were: A, an aqueous dispersion of nanoparticulate danazol (mean particle size 169 nm); B, danazol-hydroxypropyl-β-cyclodextrin (HPB) complex; C, an aqueous suspension of conventional danazol particles (mean particle size 10 μm). The three formulations were administered (200 mg) at 1 week intervals, and a fourth leg was conducted using intravenous danazol-HPB at a dose of 3 mg/kg. Plasma samples were obtained over the course of 24 h and analyzed by SPE-HPLC. Absolute oral bioavailability of each formulation was determined by comparison of oral AUC values to intravenous AUC values in the same dog, normalized to a 20 mg/kg dose. Absolute bioavailabilities of the three formulations were: nanoparticulate danazol, 82.3 ± 10.1%; cyclodextrin complex, 106.7 ± 12.3%; conventional danazol suspension, 5.1 ± 1.9%. The bioavailabilities of nanoparticle dispersion and cyclodextrin complex are not significantly different ( P = 0.05) suggesting that the nanoparticle dispersion had overcome the dissolution rate limited bioavailabilty observed with conventional suspensions of danazol. This approach should have general applicability to many poorly soluble drugs with dissolution rate-limited absorption.