Juergen Grafeneder , Wisse van Os , Iris K. Minichmayr , Katarina D. Kovacevic Miljevic , Birgit Reiter , Marcus D. Säemann , Veronika Machold-Fabrizii , Amro Ahmed , Paul Spechtl , Haris Omic , Raute Sunder-Plaßmann , Bernd Jilma , Christian Schoergenhofer , Farsad Eskandary
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Healthy volunteers received a loading dose of 300 mg clopidogrel, followed by 75 mg once daily. Pantoprazole, a substrate and probe drug of <em>CYP2C19</em>, was administered intravenously (40 mg). Plasma concentrations were quantified by mass spectrometry. Pharmacokinetics were calculated, and a population pharmacokinetic model was developed. The primary endpoint was the maximum concentration of clopidogrel’s active metabolite. Platelet aggregation was measured using adenosine diphosphate-induced whole-blood aggregometry.</div></div><div><h3>Results</h3><div>Seventeen HDPs and 16 HVs were included. The maximum concentration of clopidogrel’s active metabolite was significantly lower in HDPs compared to HVs (median [interquartile range] 12.2 [4.6–23.4] vs. 24.7 [17.8–36.5] ng/ml, <em>P =</em> 0.02). The maximum concentration ratio of clopidogrel’s active metabolite to prodrug was 8.5-fold lower in HDPs, and an 82.7% reduced clopidogrel clearance, including clopidogrel’s active metabolite formation, was found using population pharmacokinetic modeling. From previous studies, adenosine diphosphate-induced platelet aggregation at 120 minutes was significantly higher in HDPs than in HVs (median [interquartile range]: 26 U [14 U–43 U] vs. 12 U [11 U–18 U], <em>P =</em> 0.004. Pantoprazole terminal half-life was ∼1.7-fold higher in HDPs compared to HVs.</div></div><div><h3>Conclusion</h3><div>Our data demonstrate an altered metabolism of clopidogrel in HDPs in the context of lower <em>CYP2C19</em> activity, with potential implications for other substances metabolized by this enzyme.</div></div>","PeriodicalId":5,"journal":{"name":"ACS Applied Materials & Interfaces","volume":null,"pages":null},"PeriodicalIF":8.3000,"publicationDate":"2024-10-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Prospective Trial on the Pharmacokinetics of Clopidogrel in Hemodialysis Patients\",\"authors\":\"Juergen Grafeneder , Wisse van Os , Iris K. Minichmayr , Katarina D. Kovacevic Miljevic , Birgit Reiter , Marcus D. Säemann , Veronika Machold-Fabrizii , Amro Ahmed , Paul Spechtl , Haris Omic , Raute Sunder-Plaßmann , Bernd Jilma , Christian Schoergenhofer , Farsad Eskandary\",\"doi\":\"10.1016/j.ekir.2024.07.029\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Introduction</h3><div>Hemodialysis patients (HDPs) exhibit extensive cardiovascular risk. The widely prescribed anti-platelet agent clopidogrel is metabolically activated by cytochrome enzymes, which may be impaired by uremia and chronic low-grade inflammation, typically present in HDPs. We conducted a prospective multicenter study to investigate the pharmacokinetics and pharmacodynamics of clopidogrel in HDPs and healthy volunteers (HVs).</div></div><div><h3>Methods</h3><div>We enrolled HDPs receiving long-term clopidogrel (75 mg) and pantoprazole treatment (40 mg). Healthy volunteers received a loading dose of 300 mg clopidogrel, followed by 75 mg once daily. Pantoprazole, a substrate and probe drug of <em>CYP2C19</em>, was administered intravenously (40 mg). Plasma concentrations were quantified by mass spectrometry. Pharmacokinetics were calculated, and a population pharmacokinetic model was developed. The primary endpoint was the maximum concentration of clopidogrel’s active metabolite. Platelet aggregation was measured using adenosine diphosphate-induced whole-blood aggregometry.</div></div><div><h3>Results</h3><div>Seventeen HDPs and 16 HVs were included. The maximum concentration of clopidogrel’s active metabolite was significantly lower in HDPs compared to HVs (median [interquartile range] 12.2 [4.6–23.4] vs. 24.7 [17.8–36.5] ng/ml, <em>P =</em> 0.02). The maximum concentration ratio of clopidogrel’s active metabolite to prodrug was 8.5-fold lower in HDPs, and an 82.7% reduced clopidogrel clearance, including clopidogrel’s active metabolite formation, was found using population pharmacokinetic modeling. From previous studies, adenosine diphosphate-induced platelet aggregation at 120 minutes was significantly higher in HDPs than in HVs (median [interquartile range]: 26 U [14 U–43 U] vs. 12 U [11 U–18 U], <em>P =</em> 0.004. 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Prospective Trial on the Pharmacokinetics of Clopidogrel in Hemodialysis Patients
Introduction
Hemodialysis patients (HDPs) exhibit extensive cardiovascular risk. The widely prescribed anti-platelet agent clopidogrel is metabolically activated by cytochrome enzymes, which may be impaired by uremia and chronic low-grade inflammation, typically present in HDPs. We conducted a prospective multicenter study to investigate the pharmacokinetics and pharmacodynamics of clopidogrel in HDPs and healthy volunteers (HVs).
Methods
We enrolled HDPs receiving long-term clopidogrel (75 mg) and pantoprazole treatment (40 mg). Healthy volunteers received a loading dose of 300 mg clopidogrel, followed by 75 mg once daily. Pantoprazole, a substrate and probe drug of CYP2C19, was administered intravenously (40 mg). Plasma concentrations were quantified by mass spectrometry. Pharmacokinetics were calculated, and a population pharmacokinetic model was developed. The primary endpoint was the maximum concentration of clopidogrel’s active metabolite. Platelet aggregation was measured using adenosine diphosphate-induced whole-blood aggregometry.
Results
Seventeen HDPs and 16 HVs were included. The maximum concentration of clopidogrel’s active metabolite was significantly lower in HDPs compared to HVs (median [interquartile range] 12.2 [4.6–23.4] vs. 24.7 [17.8–36.5] ng/ml, P = 0.02). The maximum concentration ratio of clopidogrel’s active metabolite to prodrug was 8.5-fold lower in HDPs, and an 82.7% reduced clopidogrel clearance, including clopidogrel’s active metabolite formation, was found using population pharmacokinetic modeling. From previous studies, adenosine diphosphate-induced platelet aggregation at 120 minutes was significantly higher in HDPs than in HVs (median [interquartile range]: 26 U [14 U–43 U] vs. 12 U [11 U–18 U], P = 0.004. Pantoprazole terminal half-life was ∼1.7-fold higher in HDPs compared to HVs.
Conclusion
Our data demonstrate an altered metabolism of clopidogrel in HDPs in the context of lower CYP2C19 activity, with potential implications for other substances metabolized by this enzyme.
期刊介绍:
ACS Applied Materials & Interfaces is a leading interdisciplinary journal that brings together chemists, engineers, physicists, and biologists to explore the development and utilization of newly-discovered materials and interfacial processes for specific applications. Our journal has experienced remarkable growth since its establishment in 2009, both in terms of the number of articles published and the impact of the research showcased. We are proud to foster a truly global community, with the majority of published articles originating from outside the United States, reflecting the rapid growth of applied research worldwide.
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