BACKGROUND: Ixazomib is the first oral, proteasome inhibitor to reach phase III trials. Here, we present an integrated nonclinical and clinical assessment of ixazomib's effect on QTc intervals. METHODS: Nonclinical studies assessed (1) the in vitro binding of ixazomib to the hERG channel and (2) its effect on QT/QTc in dogs (N = 4) via telemetry. Pharmacokinetic-matched triplicate electrocardiograms were collected in four clinical phase I studies of intravenous (0.125-3.11 mg/m(2), N = 125, solid tumors/lymphoma) or oral (0.24-3.95 mg/m(2), N = 120, multiple myeloma) ixazomib. The relationship between ixazomib plasma concentration and heart rate (HR)-corrected QT using Fridericia (QTcF) or population (QTcP) methods was analyzed using linear mixed-effects models with fixed effects for day and time. RESULTS: In vitro binding potency for ixazomib to the hERG channel was weak (K i 24.9 μM; IC50 59.6 μM), and nonclinical telemetry studies showed no QT/QTc prolongation at doses up to 4.2 mg/m(2). In cancer patients, ixazomib, when evaluated at doses yielding various plasma concentrations (with 26 % of data greater than mean C max for the 4 mg phase 3 dose), had no meaningful effect on QTc based on model-predicted mean change in QTcF/QTcP from baseline. There was no relationship between ixazomib concentration and RR, suggesting no effect on HR. CONCLUSIONS: Ixazomib has no clinically meaningful effects on QTc or HR. Integrating preclinical data and concentration-QTc modeling of phase 1 data may obviate the need for a dedicated QTc study in oncology. A framework for QT assessment in oncology drug development is proposed.
BACKGROUND:Ixazomib is the first oral, proteasome inhibitor to reach phase III trials. Here, we present an integrated nonclinical and clinical assessment of ixazomib's effect on QTc intervals. METHODS: Nonclinical studies assessed (1) the in vitro binding of ixazomib to the hERG channel and (2) its effect on QT/QTc in dogs (N = 4) via telemetry. Pharmacokinetic-matched triplicate electrocardiograms were collected in four clinical phase I studies of intravenous (0.125-3.11 mg/m(2), N = 125, solid tumors/lymphoma) or oral (0.24-3.95 mg/m(2), N = 120, multiple myeloma) ixazomib. The relationship between ixazomib plasma concentration and heart rate (HR)-corrected QT using Fridericia (QTcF) or population (QTcP) methods was analyzed using linear mixed-effects models with fixed effects for day and time. RESULTS: In vitro binding potency for ixazomib to the hERG channel was weak (K i 24.9 μM; IC50 59.6 μM), and nonclinical telemetry studies showed no QT/QTc prolongation at doses up to 4.2 mg/m(2). In cancerpatients, ixazomib, when evaluated at doses yielding various plasma concentrations (with 26 % of data greater than mean C max for the 4 mg phase 3 dose), had no meaningful effect on QTc based on model-predicted mean change in QTcF/QTcP from baseline. There was no relationship between ixazomib concentration and RR, suggesting no effect on HR. CONCLUSIONS:Ixazomib has no clinically meaningful effects on QTc or HR. Integrating preclinical data and concentration-QTc modeling of phase 1 data may obviate the need for a dedicated QTc study in oncology. A framework for QT assessment in oncology drug development is proposed.
Authors: Noelia Nebot; Hendrik-Tobias Arkenau; Jeffrey R Infante; Jason C Chandler; Andrew Weickhardt; Jason D Lickliter; John Sarantopoulos; Michael S Gordon; Gabriel Mak; Annie St-Pierre; Lihua Tang; Bijoyesh Mookerjee; Stanley W Carson; Siobhan Hayes; Kenneth F Grossmann Journal: Br J Clin Pharmacol Date: 2018-01-23 Impact factor: 4.335
Authors: Paul G Richardson; Shaji Kumar; Jacob P Laubach; Claudia Paba-Prada; Neeraj Gupta; Deborah Berg; Helgi van de Velde; Philippe Moreau Journal: J Blood Med Date: 2017-08-22
Authors: Paul G Richardson; Craig C Hofmeister; Cara A Rosenbaum; Myo Htut; David H Vesole; Jesus G Berdeja; Michaela Liedtke; Ajai Chari; Stephen D Smith; Daniel Lebovic; Noopur Raje; Catriona Byrne; Eileen Liao; Neeraj Gupta; Alessandra Di Bacco; Jose Estevam; Deborah Berg; Rachid Baz Journal: Br J Haematol Date: 2018-06-25 Impact factor: 6.998