P Gueret1,2, S Combe3, C Krezel4, E Fuseau5, P L M van Giersbergen6, M Petitou4, E Neuhart4. 1. Haemostasis Department, University Hospital Pontchaillou, 2 rue Henri Le Guilloux, 35033, Rennes Cedex, France. pierre.gueret@chu-rennes.fr. 2. GETBO EA 3878, Brest, France. pierre.gueret@chu-rennes.fr. 3. University Hospital Cochin, Paris, France. 4. Endotis Pharma, Romainville, Paris, France. 5. EMF Consulting, Aix en Provence, France. 6. Van Giersbergen Consulting, Wuenheim, France.
Abstract
INTRODUCTION: EP217609 is a representative of a new class of synthetic parenteral anticoagulants with a dual mechanism of action. It combines in a single molecule a direct thrombin inhibitor and an indirect factor Xa inhibitor. EP217609 can be neutralized by a specific antidote avidin, which binds to the biotin moiety of EP217609. PURPOSE: The primary objective was to assess the neutralization of EP217609 by avidin in healthy subjects. Secondary objectives were to define the optimal avidin monomer/EP217609 molar ratio to achieve an adequate neutralization of EP217609 and to assess the safety and tolerability of EP217609 and avidin. METHODS:Healthy subjects (n = 36) were randomized to a 3 by 3 replicated Latin square design between 3 EP217609 doses (4, 8, 12 mg) and 3 avidin monomer/EP217609 molar ratios (1:1; 2:1; 3:1). EP217609 was administered as a single intravenous bolus, and avidin as a 30-min intravenous infusion, starting 90 min after EP217609 administration. RESULTS: Overall, EP217609 and avidin were well tolerated. One subject experienced a benign and transient typical pseudo-allergic reaction. The administration of EP217609 resulted in dose-dependent increases in pharmacodynamic markers. Avidin triggered a rapid and irreversible neutralization of EP217609 without rebound effect. Adequate neutralization of the anticoagulant activity was achieved with both 2:1 and 3:1 avidin monomer/EP217609 molar ratios. All safety parameters did not show any treatment-emergent clinically relevant changes or abnormalities in any dose group. CONCLUSIONS: These results will allow further investigation in patients requiring a neutralizable anticoagulant as those undergoing cardiac surgery. STUDY REGISTRATION: EudraCT number 2010-020216-10.
RCT Entities:
INTRODUCTION: EP217609 is a representative of a new class of synthetic parenteral anticoagulants with a dual mechanism of action. It combines in a single molecule a direct thrombin inhibitor and an indirect factor Xa inhibitor. EP217609 can be neutralized by a specific antidote avidin, which binds to the biotin moiety of EP217609. PURPOSE: The primary objective was to assess the neutralization of EP217609 by avidin in healthy subjects. Secondary objectives were to define the optimal avidin monomer/EP217609 molar ratio to achieve an adequate neutralization of EP217609 and to assess the safety and tolerability of EP217609 and avidin. METHODS: Healthy subjects (n = 36) were randomized to a 3 by 3 replicated Latin square design between 3 EP217609 doses (4, 8, 12 mg) and 3 avidin monomer/EP217609 molar ratios (1:1; 2:1; 3:1). EP217609 was administered as a single intravenous bolus, and avidin as a 30-min intravenous infusion, starting 90 min after EP217609 administration. RESULTS: Overall, EP217609 and avidin were well tolerated. One subject experienced a benign and transient typical pseudo-allergic reaction. The administration of EP217609 resulted in dose-dependent increases in pharmacodynamic markers. Avidin triggered a rapid and irreversible neutralization of EP217609 without rebound effect. Adequate neutralization of the anticoagulant activity was achieved with both 2:1 and 3:1 avidin monomer/EP217609 molar ratios. All safety parameters did not show any treatment-emergent clinically relevant changes or abnormalities in any dose group. CONCLUSIONS: These results will allow further investigation in patients requiring a neutralizable anticoagulant as those undergoing cardiac surgery. STUDY REGISTRATION: EudraCT number 2010-020216-10.
Entities:
Keywords:
Avidin; Dual thrombin and indirect Xa inhibition; EP217609; Healthy subjects; Pharmacokinetics and pharmacodynamics; Reversal
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