Cabozantinib is a small-molecule tyrosine kinase inhibitor that has been approved for the treatment of patients with progressive, metastatic medullary thyroid cancer. In vitro data indicate that (1) cytochrome P450 (CYP) 3A4 is the primary CYP isoenzyme involved in the metabolism of cabozantinib, and (2) CYP2C8 is the CYP isoenzyme most potently inhibited by cabozantinib with potential for in vivo inhibition at clinically relevant plasma exposures. Pharmacokinetic (PK) drug-drug interactions (DDIs) were evaluated clinically between cabozantinib and (1) a CYP3A inducer (rifampin) in healthy volunteers, (2) a CYP3A inhibitor (ketoconazole) in healthy volunteers, and (3) a CYP2C8 substrate (rosiglitazone) in patients with solid tumors. Compared with cabozantinib given alone, coadministration with rifampin resulted in a 4.3-fold higher plasma clearance (CL/F) of cabozantinib and a 77% decrease in cabozantinib plasma AUC0-inf , whereas coadministration with ketoconazole decreased cabozantinib CL/F by 29% and increased cabozantinib AUC0-inf by 38%. Chronic coadministration with cabozantinib resulted in no significant effect on rosiglitazone plasma Cmax , AUC0-24 , or AUC0-inf . In summary, chronic use of strong CYP3A inducers and inhibitors should be avoided when cabozantinib is administered, and cabozantinib at clinically relevant exposures is not anticipated to markedly affect the PK of concomitant medications via CYP enzyme inhibition.
Cabozantinib is a tyrosine kinase inhibitor approved for the treatment of patients with progressive, metastatic medullary thyroid cancer. Two clinical pharmacology studies were conducted to characterize single-dose pharmacokinetics (PK) of cabozantinib in renally or hepatically impaired subjects. Study 1 enrolled 10 subjects, each with mild or moderate impairment of renal function; 12 healthy subjects were matched to the moderate group for age, sex, and body mass index (BMI). Study 2 enrolled 8 males each with mild or moderate hepatic impairment; 10 healthy males were matched to the moderate group for age, BMI, and ethnicity. All subjects received one 60 mg cabozantinib oral capsule dose followed by PK sampling over 21 days. Plasma concentration and protein binding were determined by liquid chromatography tandem mass spectrometry and equilibrium dialysis, respectively. PK parameters were computed using noncompartmental methods. Geometric least squared mean (LSM) ratios for plasma cabozantinib AUC0-∞ for impaired to normal organ function cohorts were (1) approximately 30% and 6% higher in subjects with mild and moderate renal impairment, respectively, and (2) approximately 81% and 63% higher in subjects with mild and moderate hepatic impairment, respectively. The percentage of unbound drug was slightly higher in both moderately impaired cohorts. No deaths or discontinuations due to adverse events occurred in either study. Cabozantinib should be used with caution in subjects with mild or moderate renal impairment. Subjects with mild or moderate hepatic impairment administered cabozantinib should be monitored closely for potential treatment-emergent drug toxicity that may necessitate a dose hold or reduction.
Cabozantinib capsules (COMETRIQ) are approved for the treatment of patients with progressive metastatic medullary thyroid cancer. Cabozantinib tablets are investigational drug products considered to be potentially preferred pharmaceutical dosing forms. Two phase I open-label single-dose studies in healthy individuals were carried out to characterize the plasma pharmacokinetics of cabozantinib capsule and tablet formulations: a two-way crossover bioequivalence study (n=77) comparing the tablet formulation and the marketed capsule formulation at the approved 140 mg dose and a dose-proportionality study (n=21 per treatment arm) evaluating the 20, 40, and 60 mg tablet strengths. In the bioequivalence study, plasma exposure [area under the plasma concentration-time curve (AUC0-t and AUC0-inf)] values were similar (<10% difference) for both formulations and the 90% confidence intervals (CIs) around the ratio of geometric least-squares means (GLSM) were within the accepted bioequivalence limits of 80-125%. However, the GLSM for Cmax was 19% higher for the tablet formulation and the upper 90% CI for the ratio of GLSM (131.65%) was beyond the 80-125% range. Thus, the tablet and capsule formulations failed to fulfill the bioequivalence study acceptance criteria. In the dose-proportionality study, single doses of the 20, 40, and 60 mg cabozantinib tablet strengths showed dose-proportional increases where the 95% CIs for the slopes of the ln-transformed Cmax, AUC0-t, and AUC0-inf values versus ln-transformed cabozantinib dose included the value of 1. These findings indicate that cabozantinib plasma exposures increased proportionally with increasing cabozantinib dose over the 20-60 mg tablet strength dose range.
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