The aim of this study was to determine an optimum voriconazole target concentration, to study the influence of CYP2C19 gene status on metabolism of voriconazole and to identify a dose-adjustment strategy for voriconazole according to CYP2C19 polymorphism in patients with invasive fungal infections. A total of 328 voriconazole trough plasma concentrations (C(min)) were collected and monitored from 144 patients. Information on efficacy and safety was obtained. Voriconazole therapy was effective in 81.9% of patients (118/144), and 12.5% (18/144) exhibited signs of hepatotoxicity. The relationships between voriconazole C(min) and clinical response and hepatotoxicity were explored using logistic regression, and a target clinical C(min) range of 1.5-4 mg/L was identified. Values of voriconazole C(min) and the ratio of C(min) to concentration of voriconazole-N-oxide (C(min)/C(N)) of poor metabolisers (PMs) were significantly higher than extensive metabolisers and intermediate metabolisers. Model-based simulations showed that PM patients could be safely and effectively treated with 200 mg twice daily orally or intravenously, and non-PM patients with 300 mg twice daily orally or 200mg twice daily intravenously. This study highlighted that voriconazole C(min) and C(min)/C(N) are strongly influenced by CYP2C19 polymorphism, and gene-adjusted dosing is important to achieve therapeutic levels that maximise therapeutic response and minimise hepatotoxicity.
Keywords: CYP2C19; Efficacy; Hepatotoxicity; Safety; Trough plasma concentrations; Voriconazole.
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