Nagdeep Giri1, Lisa H Lam1,2, Robert R LaBadie3, Joseph F Krzyzaniak3, Hong Jiang3, Brian Hee1, Yali Liang3, M Naveed Shaik4. 1. Pfizer Oncology, 10555 Science Center Dr, San Diego, CA, 92121, USA. 2. Skaggs School of Pharmacy and Pharmaceutical Sciences, University of California San Diego, La Jolla, CA, USA. 3. Pfizer Inc, Groton, CT, USA. 4. Pfizer Oncology, 10555 Science Center Dr, San Diego, CA, 92121, USA. naveed.shaik@pfizer.com.
Abstract
PURPOSE: This phase I open-label study investigated the oral bioavailability of two novel maleate salt-based glasdegib (PF-04449913) tablet formulations (small- and large-particle size) relative to the current clinical formulation (diHCl salt-based). In addition, the effect of a gastric pH-altering agent (rabeprazole) and food on the pharmacokinetics of the large-particle size formulation of glasdegib were evaluated. The pharmacokinetics of glasdegib oral solution was also assessed. METHODS:Thirty-four healthy subjects receivedglasdegib 100 mg as three different formulations in the fasted state (diHCl salt or small- or large-particle size maleate formulation); 13 received the large-particle maleate formulation (fed), and 14 concurrently with rabeprazole (fasted); six subjects received glasdegib 50 mg oral solution (fasted). RESULTS: For both new tablet formulations of glasdegib, ratios (Test:Reference) of adjusted geometric means (90% confidence interval) of area under the concentration-time curve from 0 to infinity and maximum plasma concentration were within 80-125% compared with the diHCl formulation (fasted). For the large-particle size formulation (fed), these ratios were 86.3% (81.0-92.0%) and 75.7% (65.3-87.7%), respectively, compared with fasted. When the large-particle maleate formulation was administered concurrently with rabeprazole versus alone (fasted), these ratios were 111.9% (102.8-121.9%) and 87.2% (75.9-100.3%), respectively. The pharmacokinetics of oral solution was similar to the tablet. CONCLUSIONS: The maleate salt-based tablet formulations were bioequivalent to the diHCl tablet formulation. The extent of the observed effect of a high-fat, high-calorie meal or concurrent rabeprazole treatment on glasdegib exposure is not considered clinically meaningful.
RCT Entities:
PURPOSE: This phase I open-label study investigated the oral bioavailability of two novel maleate salt-based glasdegib (PF-04449913) tablet formulations (small- and large-particle size) relative to the current clinical formulation (diHCl salt-based). In addition, the effect of a gastric pH-altering agent (rabeprazole) and food on the pharmacokinetics of the large-particle size formulation of glasdegib were evaluated. The pharmacokinetics of glasdegib oral solution was also assessed. METHODS: Thirty-four healthy subjects received glasdegib 100 mg as three different formulations in the fasted state (diHCl salt or small- or large-particle size maleate formulation); 13 received the large-particle maleate formulation (fed), and 14 concurrently with rabeprazole (fasted); six subjects received glasdegib 50 mg oral solution (fasted). RESULTS: For both new tablet formulations of glasdegib, ratios (Test:Reference) of adjusted geometric means (90% confidence interval) of area under the concentration-time curve from 0 to infinity and maximum plasma concentration were within 80-125% compared with the diHCl formulation (fasted). For the large-particle size formulation (fed), these ratios were 86.3% (81.0-92.0%) and 75.7% (65.3-87.7%), respectively, compared with fasted. When the large-particle maleate formulation was administered concurrently with rabeprazole versus alone (fasted), these ratios were 111.9% (102.8-121.9%) and 87.2% (75.9-100.3%), respectively. The pharmacokinetics of oral solution was similar to the tablet. CONCLUSIONS: The maleate salt-based tablet formulations were bioequivalent to the diHCl tablet formulation. The extent of the observed effect of a high-fat, high-calorie meal or concurrent rabeprazole treatment on glasdegib exposure is not considered clinically meaningful.