Exposure–response modeling of the effect of glasdegib on cardiac repolarization in patients with cancer

Abstract

ABSTRACT Purpose To characterize the effect of glasdegib on cardiac repolarization (QTc) in patients with advanced cancer. Methods A concentration–QTc model was developed using data from two glasdegib single-agent, dose-escalation trials. Triplicate electrocardiogram was performed at pre-specified timepoints paired with pharmacokinetic blood collections after a single dose and at steady-state. Changes in QTc from baseline were predicted by model-based simulations at the clinical dose (100 mg QD) and in a supratherapeutic setting. Results Glasdegib did not affect the heart rate, but had a positive effect on the corrected QT interval, described by a linear mixed-effects model with ΔQTcF (QTc using Fridericia’s formula) as the dependent variable with glasdegib plasma concentrations from doses of 5–640 mg QD. The predicted mean QTcF change (upper bound of the 95% CI) was 5.30 (6.24) msec for the therapeutic 100-mg QD dose; at supratherapeutic concentrations (40% and 100% increase over the therapeutic Cmax), it was 7.42 (8.74) and 12.09 (14.25) msec, respectively. Conclusions The relationship of glasdegib exposure and QTc was well characterized by the model. The effect of glasdegib on the QTc interval did not cross the threshold of clinical concern for an oncology drug. Trial registration ClinicalTrials.gov ID: NCT01286467 and NCT00953758.