clazosentan and Long-QT-Syndrome

Clazosentan's potential QT liability was investigated in a thorough QT study in which clazosentan was administered intravenously as a continuous infusion of 20 mg/h immediately followed by 60 mg/h. Clazosentan prolonged the placebo-corrected change-from-baseline QT interval corrected for RR with Fridericia's formula (ΔΔQTcF) with the maximum QT effect occurring 4 h after the maximum drug concentration, apparently associated with vomiting. The delayed effect precluded the standard linear modeling approach. This analysis aimed at characterizing the concentration-QT relationship in consideration of RR-QT hysteresis, concentration-ΔΔQTcF hysteresis, and the influence of vomiting. Nonlinear mixed-effects modeling was applied to characterize pharmacokinetics and pharmacodynamics, i.e., ΔΔQTcF. Simulations were used to predict ΔΔQTcF for expected therapeutic dose used in Phase 3 clinical development. Correction for RR-QT hysteresis did not influence ΔΔQTcF to a relevant extent. Pharmacokinetics of clazosentan were best described by a linear two-compartment model. The delayed QT prolongation was characterized by an indirect-response model with loglinear drug effect. Vomiting had no statistically significant influence on QT prolongation despite apparent differences between subjects vomiting and not vomiting, probably since vomiting occurred mostly after the main QT prolongation. Following a simulated 3-h infusion of 15 mg/h of clazosentan, the upper bound of the predicted 90% CI for mean ΔΔQTcF was expected to exceed the 10-ms regulatory threshold of concern with maximum effect 3.5 h after end of infusion. TRN: NCT03657446, 05 Sep 2018.

Topics: Adult; Aged; Cross-Over Studies; Dioxanes; Double-Blind Method; Electrocardiography; Female; Healthy Volunteers; Humans; Infusions, Intravenous; Long QT Syndrome; Male; Middle Aged; Models, Biological; Placebos; Pyridines; Pyrimidines; Sulfonamides; Tetrazoles; Vomiting; Young Adult

This study investigated the potential QT liability of the selective endothelin-1 A receptor antagonist clazosentan at a therapeutic (20 mg/h) and supratherapeutic (60 mg/h) intravenous (i.v.) dose. A randomized, placebo- and moxifloxacin-controlled, double-blind, 3-period, crossover study was conducted in 36 healthy subjects receiving clazosentan (20 mg/h followed by 60 mg/h i.v. for 3 h each), placebo (i.v. for 6 h), and moxifloxacin (single oral dose of 400 mg concomitantly with placebo i.v. for 6 h). At least three replicate ECGs were extracted from Holter recordings at predefined time points from 1 h pre-dose to 24 h after end of infusion. Pharmacokinetic blood sampling was performed for concentration/QT analysis (primary endpoint). For moxifloxacin, the lower bound of the 90% confidence interval (CI) of baseline- and placebo-corrected QTcF (ΔΔQTcF) was > 5 ms at its maximum plasma concentration together with a positive slope of the concentration/QT regression line demonstrating assay sensitivity. For clazosentan, time of peak exposure preceded maximum ΔΔQTcF by 4 h indicating delayed QT-prolonging effects leading to invalidity of the concentration/QT analysis. The secondary by-time-point analysis revealed QT liability of clazosentan (i.e., upper bound of 90% CI ∆∆QTcF > 10 ms). Delayed QT prolongation (i.e., hysteresis) was predominantly observed in subjects with nausea and vomiting, potentially caused by vagal reaction and/or decreases in potassium concentration. By contrast, there was no association with other adverse events, food intake, or concomitant medication. In conclusion, clazosentan at therapeutic and supratherapeutic doses has QT liability with hysteresis effects being associated with nausea and vomiting.

Topics: Adult; Cross-Over Studies; Dioxanes; Double-Blind Method; Endothelin A Receptor Antagonists; Female; Heart Conduction System; Humans; Long QT Syndrome; Male; Middle Aged; Pyridines; Pyrimidines; Sulfonamides; Tetrazoles; Vomiting; Young Adult