Journal Article10.1161/cir.0000000000001257
<i>CYP2C19</i> Genetic Testing for Oral P2Y12 Inhibitor Therapy: A Scientific Statement From the American Heart Association
Naveen L. Pereira,Sharon Cresci,Dominick J. Angiolillo,Wayne Batchelor,Quinn Capers,Larisa H. Cavallari,Dana Leifer,Jasmine A. Luzum,Dan M. Roden,Konstantinos Stellos,Stephanie Turrise,Sony Tuteja +11 more
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TL;DR: CYP2C19 genetic testing can guide treatment decisions for oral P2Y12 inhibitor therapy, improving efficacy and safety.
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Abstract: There is significant variability in the efficacy and safety of oral P2Y12 inhibitors, which are used to prevent ischemic outcomes in common diseases such as coronary and peripheral arterial disease and stroke. Clopidogrel, a prodrug, is the most used oral P2Y12 inhibitor and is activated primarily after being metabolized by a highly polymorphic hepatic cytochrome CYP2C219 enzyme. Loss-of-function genetic variants in CYP2C219 are common, can result in decreased active metabolite levels and increased on-treatment platelet aggregation, and are associated with increased ischemic events on clopidogrel therapy. Such patients can be identified by CYP2C19 genetic testing and can be treated with alternative therapy. Conversely, universal use of potent oral P2Y12 inhibitors such as ticagrelor or prasugrel, which are not dependent on CYP2C19 for activation, has been recommended but can result in increased bleeding. Recent clinical trials and meta-analyses have demonstrated that a precision medicine approach in which loss-of-function carriers are prescribed ticagrelor or prasugrel and noncarriers are prescribed clopidogrel results in reducing ischemic events without increasing bleeding risk. The evidence to date supports CYP2C19 genetic testing before oral P2Y12 inhibitors are prescribed in patients with acute coronary syndromes or percutaneous coronary intervention. Clinical implementation of such genetic testing will depend on among multiple factors: rapid availability of results or adoption of the concept of performing preemptive genetic testing, provision of easy-to-understand results with therapeutic recommendations, and seamless integration in the electronic health record.
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The Pharmacogenomics Global Research Network Implementation Working Group: global collaboration to advance pharmacogenetic implementation
Larisa H. Cavallari,J. Kevin Hicks,Jai N. Patel,Amanda L. Elchynski,D. Max Smith,Salma A. Bargal,A. Fleck,Christina L. Aquilante,Shayna R. Killam,Lauren Lemke,Taichi Ochi,Laura B. Ramsey,Cyrine E. Haidar,R COOPERDEHOFF,Nihal El Rouby,Andrew A. Monte,Josiah D. Allen,Amber L. Beitelshees,Jeffrey R. Bishop,Chad A. Bousman,R. W. F. Campbell,Emily J. Cicali,Kelsey J. Cook,Benjamin Q. Duong,Evangelia Eirini Tsermpini,Sonya Tang Girdwood,David Gregornik,Kristin Grimsrud,Nathan Lamb,James C. Lee,Rocío Ortiz‐López,Tinashe Mazhindu,Sarah Morris,Mohamed Nagy,Jenny Nguyen,Amy L. Pasternak,Natasha Petry,Ron H. N. van Schaik,April Schultz,Todd C. Skaar,Hana Al Alshaykh,James M. Stevenson,Rachael M. Stone,Nam K. Tran,Sony Tuteja,Erica L. Woodahl,L. Yuan,Craig R. Lee +47 more
TL;DR: The Pharmacogenomics Global Research Network Implementation Working Group aims to advance pharmacogenetic implementation globally by sharing implementation strategies, metrics, and outcomes from institutions that have successfully integrated pharmacogenetic testing into clinical practice.
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Mechanism-based Inactivation of Cytochromes P450: Implications in Drug Interactions and Pharmacotherapy.
Boon Hooi Tan,Nafees Ahemad,Yan Pan,Chin Eng Ong +3 more
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TL;DR: This review examines mechanism-based inactivation of cytochromes P450, a phenomenon causing irreversible enzyme inhibition, and its implications in drug interactions and pharmacotherapy, highlighting key findings and clinical consequences of CYP inactivation.
How Protein Depletion Balances Thrombosis and Bleeding Risk in the Context of Platelet’s Activatory and Negative Signaling
Héctor Montecino-Garrido,Andrés Trostchansky,Yolanda Espinosa‐Parrilla,Iván Palomo,Eduardo Fuentes +4 more
TL;DR: Platelets require a balance between activatory and negative signaling pathways to regulate hemostasis, and protein depletion affects this balance, influencing thrombosis and bleeding risk, with implications for developing therapies to prevent thrombotic events and bleeding disorders.
Long-term safety of oral antiplatelet strategies for patients with acute coronary syndrome undergoing percutaneous coronary intervention
Claudio Laudani,Luis Ortega-Paz,Davide Capodanno,Dominick J. Angiolillo +3 more
Abstract: Management of ACS patients has largely shifted over time in order to achieve a patient-oriented approach. Development of specific scores based on genetic and clinical characteristics to predict patient's responsiveness to clopidogrel may allow to further reduce ischemic events, while technological and pharmacological advances are paving the way for further reduction of bleeding risk while preserving efficacy.
References
2020 ESC Guidelines for the management of acute coronary syndromes in patients presenting without persistent ST-segment elevation
Jean-Philippe Collet,Holger Thiele,Emanuele Barbato,Olivier Barthelemy,Johann Bauersachs,Deepak L. Bhatt,Paul Dendale,Maria Dorobantu,Thor Edvardsen,Thierry Folliguet,Chris P Gale,Martine Gilard,Alexander Jobs,Peter Jüni,Ekaterini Lambrinou,Basil S. Lewis,Julinda Mehilli,Emanuele Meliga,Béla Merkely,Christian Mueller,Marco Roffi,Frans H. Rutten,Dirk Sibbing,George C.M. Siontis +23 more
TL;DR: A correction has been published: European Heart Journal, ehaa895, https://doi.org/10.1093/eurheartj/ehaa-895.
4K
2017 ESC focused update on dual antiplatelet therapy in coronary artery disease developed in collaboration with EACTS: The Task Force for dual antiplatelet therapy in coronary artery disease of the European Society of Cardiology (ESC) and of the European Association for Cardio-Thoracic Surgery (EACTS).
Marco Valgimigli,Héctor Bueno,Robert A. Byrne,Jean-Philippe Collet,Francesco Costa,Anders Jeppsson,Peter Jüni,Adnan Kastrati,Philippe Kolh,Laura Mauri,Gilles Montalescot,Franz-Josef Neumann,Mate Petricevic,Marco Roffi,Philippe Gabriel Steg,Stephan Windecker,José Luis Zamorano,Glenn N. Levine,Lina Badimon,Pascal Vranckx,Stefan Agewall,Felicita Andreotti,Elliott M. Antman,Emanuele Barbato,Jean-Pierre Bassand,Raffaele Bugiardini,Mustafa Cikirikcioglu,Thomas Cuisset,Michele De Bonis,Victora Delgado,Donna Fitzsimons,Oliver Gaemperli,Nazzareno Galiè,Martine Gilard,Christian W. Hamm,Borja Ibanez,Bernard Iung,Stefan James,Juhani Knuuti,Ulf Landmesser,Christophe Leclercq,Maddalena Lettino,Gregory Y.H. Lip,Massimo F Piepoli,Luc Pierard,Markus Schwerzmann,Udo Sechtem,Iain A. Simpson,Miguel Sousa Uva,Eugenio Stabile,Robert F. Storey,Michal Tendera,Frans Van de Werf,Freek W.A. Verheugt,Victor Aboyans,Antonio Coca,I M Coman,Veronica Dean,Victoria Delgado,Gerhard Hindricks,Hugo A. Katus,Patrizio Lancellotti,Theresa McDonagh,Piotr Ponikowski,Dimitrios J. Richter,Evgeny Shlyakhto,Franz Xaver Roithinger,Farid Aliyev,Valeriy Stelmashok,Walter Desmet,Arman Postadzhiyan,Georgios P Georghiou,Zuzana Motovska,Erik Lerkevang Grove,Toomas Marandi,Tuomas Kiviniemi,Sasko Kedev,Steffen Massberg,Dimitrios Alexopoulos,Róbert Gábor Kiss,Ingibjorg Jona Gudmundsdottir,Eugene P. McFadden,Eli I. Lev,Leonardo De Luca,Akhmetzhan Sugraliyev,Edmond Haliti,Erkin M. Mirrakhimov,Gustavs Latkovskis,Birute Petrauskiene,Steve Huijnen,Caroline Jane Magri,Rhizlan Cherradi,Jurriën M. ten Berg,Jan Eritsland,Andrzej Budaj,Carlos Aguiar,Dmitry Duplyakov,Marco Zavatta,Nebojsa M Antonijevic,Zlatko Fras,Antonio Tello Montoliu,Christoph Varenhorst,Dimitri Tsakiris,Faouzi Addad,Sinan Aydogdu,Alexander Parkhomenko,Tim Kinnaird +106 more
TL;DR: The Task Force for dual antiplatelet therapy in coronary artery disease of the European Society of Cardiology (ESC) and the European Association for Cardio-Thoracic Surgery (EACTS) developed in collaboration with EACTS is described in this paper.
Cytochrome P-450 Polymorphisms and Response to Clopidogrel
Jessica L. Mega,Sandra L Close,Stephen D. Wiviott,Lei Shen,Richard D. Hockett,John T. Brandt,Joseph R. Walker,Elliott M. Antman,William L. Macias,Eugene Braunwald,Marc S. Sabatine +10 more
TL;DR: Carriers of a reduced-function CYP2C19 allele had significantly lower levels of the active metabolite of clopidogrel, diminished platelet inhibition, and a higher rate of major adverse cardiovascular events, including stent thrombosis, than did noncarriers.
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SLCO1B1 variants and statin-induced myopathy--a genomewide study
Emma Link,Sarah Parish,Jane Armitage,Louise Bowman,S Heath,Fumihiko Matsuda,I Gut,Mark Lathrop,Rory Collins +8 more
TL;DR: Genotyping these variants may help to achieve the benefits of statin therapy more safely and effectively and identify common variants in SLCO1B1 that are strongly associated with an increased risk ofstatin-induced myopathy.
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Mutations in VKORC1 cause warfarin resistance and multiple coagulation factor deficiency type 2
Simone Rost,Andreas Fregin,Vytautas Ivaskevicius,Ernst Conzelmann,Konstanze Hörtnagel,Hans-Joachim Pelz,Knut Tore Lappegård,Erhard Seifried,Inge Scharrer,Edward G. D. Tuddenham,Clemens R. Müller,Tim M. Strom,Johannes Oldenburg,Johannes Oldenburg +13 more
TL;DR: The gene vitamin K epoxide reductase complex subunit 1 (VKORC1), which encodes a small transmembrane protein of the endoplasmic reticulum, is identified, by using linkage information from three species, to be involved in two heritable human diseases.
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