BACKGROUND: Exposure of blood to polyanionic artificial surfaces, for example, during cardiopulmonary bypass (CPB), induces a highly procoagulant condition requiring strong anticoagulation. Unfractionated heparin (UFH) is currently used during CPB but can lead to serious bleeding complications or development of a hypercoagulable state culminating in life-threatening thrombosis, highlighting the need for safer antithrombotics. Ixodes ricinus contact phase inhibitor (Ir-CPI) is a protein expressed by I. ricinus ticks, which specifically inhibits both factors XIIa and XIa, 2 factors contributing to thrombotic disease while playing a limited role in hemostasis. OBJECTIVES: This study assessed the antithrombotic activity of Ir-CPI in animal contact phase-initiated thrombosis models, including CPB. The safety of Ir-CPI also was evaluated. METHODS: The authors evaluated the antithrombotic activity of Ir-CPI by using in vitro catheter-induced clotting assays and rabbit experimental models of catheter occlusion and arteriovenous shunt. During CPB with cardiac surgery in sheep, the clinical applicability of Ir-CPI was investigated and its efficacy compared to that of UFH using an uncoated system suitable for adult therapy. Taking advantage of the similar hemostatic properties of pigs and humans, the authors performed pig liver bleeding assays to evaluate the safety of Ir-CPI. RESULTS: Ir-CPI prevented clotting in catheter and arteriovenous shunt rabbit models. During CPB, Ir-CPI was as efficient as UFH in preventing clot formation within the extracorporeal circuit and maintained physiological parameters during and post-surgery. Unlike UFH, Ir-CPI did not promote bleeding. CONCLUSIONS: Preclinical animal models used in this study showed that Ir-CPI is an effective and safe antithrombotic agent that provides a clinically relevant approach to thrombosis prevention in bypass systems, including highly thrombogenic CPB.
BACKGROUND: Exposure of blood to polyanionic artificial surfaces, for example, during cardiopulmonary bypass (CPB), induces a highly procoagulant condition requiring strong anticoagulation. Unfractionated heparin (UFH) is currently used during CPB but can lead to serious bleeding complications or development of a hypercoagulable state culminating in life-threatening thrombosis, highlighting the need for safer antithrombotics. Ixodes ricinus contact phase inhibitor (Ir-CPI) is a protein expressed by I. ricinus ticks, which specifically inhibits both factors XIIa and XIa, 2 factors contributing to thrombotic disease while playing a limited role in hemostasis. OBJECTIVES: This study assessed the antithrombotic activity of Ir-CPI in animal contact phase-initiated thrombosis models, including CPB. The safety of Ir-CPI also was evaluated. METHODS: The authors evaluated the antithrombotic activity of Ir-CPI by using in vitro catheter-induced clotting assays and rabbit experimental models of catheter occlusion and arteriovenous shunt. During CPB with cardiac surgery in sheep, the clinical applicability of Ir-CPI was investigated and its efficacy compared to that of UFH using an uncoated system suitable for adult therapy. Taking advantage of the similar hemostatic properties of pigs and humans, the authors performed pigliver bleeding assays to evaluate the safety of Ir-CPI. RESULTS:Ir-CPI prevented clotting in catheter and arteriovenous shunt rabbit models. During CPB, Ir-CPI was as efficient as UFH in preventing clot formation within the extracorporeal circuit and maintained physiological parameters during and post-surgery. Unlike UFH, Ir-CPI did not promote bleeding. CONCLUSIONS: Preclinical animal models used in this study showed that Ir-CPI is an effective and safe antithrombotic agent that provides a clinically relevant approach to thrombosis prevention in bypass systems, including highly thrombogenic CPB.
Authors: Christopher R Reed; Desiree Bonadonna; James C Otto; Charles Griffin McDaniel; Charlene Vongai Chabata; Maragatha Kuchibhatla; James Frederiksen; Juliana M Layzer; Gowthami M Arepally; Bruce A Sullenger; Elisabeth T Tracy Journal: Mol Ther Nucleic Acids Date: 2021-12-11 Impact factor: 8.886
Authors: Michael Hardy; Jonathan Douxfils; Anne-Sophie Dincq; Anne-Laure Sennesael; Olivier Xhaet; Francois Mullier; Sarah Lessire Journal: Front Cardiovasc Med Date: 2022-03-29
Authors: Senna Staessens; Mouhamed D Moussa; Adeline Pierache; Antoine Rauch; Natacha Rousse; Eric Boulleaux; Alexandre Ung; Linda Desender; Bénédicte Pradines; André Vincentelli; Olaf Mercier; Julien Labreuche; Alain Duhamel; Eric Van Belle; Flavien Vincent; Annabelle Dupont; Karen Vanhoorelbeke; Delphine Corseaux; Simon F De Meyer; Sophie Susen Journal: J Thromb Haemost Date: 2022-07-03 Impact factor: 16.036
Authors: José Miguel Rivera-Caravaca; Anny Camelo-Castillo; Inmaculada Ramírez-Macías; Pablo Gil-Pérez; Cecilia López-García; María Asunción Esteve-Pastor; Esteban Orenes-Piñero; Antonio Tello-Montoliu; Francisco Marín Journal: Int J Mol Sci Date: 2021-07-01 Impact factor: 5.923
Authors: Joseph J Shatzel; Emma P DeLoughery; Christina U Lorentz; Erik I Tucker; Joseph E Aslan; Monica T Hinds; David Gailani; Jeffrey I Weitz; Owen J T McCarty; Andras Gruber Journal: Res Pract Thromb Haemost Date: 2020-05-15
Authors: Karlien François; Christelle Orlando; Kristin Jochmans; Wilfried Cools; Vicky De Meyer; Christian Tielemans; Karl Martin Wissing Journal: Kidney Int Rep Date: 2020-03-13