Therapeutic drug monitoring and safety evaluation of voriconazole in the treatment of pulmonary fungal diseases.

IF 3.4 3区医学 Q2 PHARMACOLOGY & PHARMACY

Therapeutic Advances in Drug Safety Pub Date : 2022-10-08 eCollection Date: 2022-01-01 DOI:10.1177/20420986221127503

Kunlu Shen, Yu Gu, Yu Wang, Yajie Lu, Yueyan Ni, Huanhiuan Zhong, Yi Shi, Xin Su

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Logistic regression analysis showed that timely voriconazole dose adjustment was a predictor of attenuated hepatotoxicity after adjustment for confounders, but hepatotoxicity was not associated with voriconazole Ctrough measured at a single time point.Conclusion: Hepatotoxicity and neurotoxicity correlate with voriconazole Ctrough, and dose reduction in patients with elevated steady-state voriconazole Ctrough may prevent hepatotoxicity. In patients with early occurrence of hepatotoxicity, initial therapeutic drug monitoring (TDM) might predict the risk of hepatotoxicity. Follow-up TDM may be necessary to predict late onset hepatotoxicity.Plain language summary: Safety of voriconazole for the treatment of pulmonary fungal diseases Introduction: Several studies have suggested an association between the concentration of voriconazole in the blood and liver damage, but the evidence is weak. 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引用次数: 4

Abstract

Aims: The gene polymorphism of voriconazole metabolism-related liver enzyme is notable in East Asia population. It casts a significant influence on the rational use of voriconazole. We conducted this study to investigate the relationship between steady-state voriconazole trough concentration (C_trough) and adverse effects (AEs), especially hepatotoxicity.

Methods: We conducted a real-world study in the Jinling Hospital from January 2015 to June 2020. A total of 140 patients receiving voriconazole were enrolled in this study. The determination and scoring of voriconazole-associated hepatotoxicity were performed according to the Roussel Uclaf Causality Assessment Method scoring scale and the severity of hepatotoxicity was graded according to the Common Terminology Criteria for Adverse Events (CTCAE).

Results: Elevated steady-state voriconazole C_trough with concomitant AEs are the most common reason for dose adjustments during treatment. Compared with the group without any AEs, voriconazole C_trough was significantly higher in the hepatotoxicity and neurotoxicity groups, and the incidence of both events showed an overall increasing trend with increasing voriconazole C_trough. Hepatotoxicity occurred in 66.7% of patients within 7 days of the first dose of voriconazole and 94.4% within 15 days of the dose. Steady-state voriconazole C_trough >3.61 mg/l was associated with an increased incidence of hepatotoxicity (area under the curve = 0.645, p = 0.047). Logistic regression analysis showed that timely voriconazole dose adjustment was a predictor of attenuated hepatotoxicity after adjustment for confounders, but hepatotoxicity was not associated with voriconazole C_trough measured at a single time point.

Conclusion: Hepatotoxicity and neurotoxicity correlate with voriconazole C_trough, and dose reduction in patients with elevated steady-state voriconazole C_trough may prevent hepatotoxicity. In patients with early occurrence of hepatotoxicity, initial therapeutic drug monitoring (TDM) might predict the risk of hepatotoxicity. Follow-up TDM may be necessary to predict late onset hepatotoxicity.

Plain language summary: Safety of voriconazole for the treatment of pulmonary fungal diseases Introduction: Several studies have suggested an association between the concentration of voriconazole in the blood and liver damage, but the evidence is weak. This study aimed to investigate relationships between voriconazole drug concentration and side effects and to analyze the factors affecting liver damage caused by voriconazole.Methods: We conducted a study at the Jinling Hospital from January 2015 to June 2020, in which a total of 140 patients were finally enrolled.Results: Voriconazole doses were adjusted in 44 patients due to abnormal voriconazole drug concentration or side effects, 32 patients reduced the dose and 8 patients increased the dose. An elevated liver enzyme level was the most common cause for dose adjustment. After the first dose adjustment, most patients achieved the target drug concentration. A total of 18 patients were determined as probable or highly probable to have drug-induced liver injury from voriconazole. Voriconazole drug concentration was significantly higher in the liver damage and nervous system damage groups as compared with the group without any side effects, and most liver damage events occurred within 14 days of the first dose. Voriconazole drug concentration >3.61 mg/l was associated with an increased incidence of liver damage.Conclusion: In this study, approximately one-third of patients with pulmonary fungal disease needed to adjust their dose after the standard dose of voriconazole treatment. The incidence of liver damage and nervous system damage showed an overall increasing trend with increasing voriconazole baseline concentrations. Initial therapeutic drug monitoring may be predictive of liver damage. Follow-up monitoring of liver enzymes may be needed.

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伏立康唑治疗肺部真菌病的药物监测及安全性评价。

目的:东亚人群伏立康唑代谢相关肝酶基因多态性显著。这对伏立康唑的合理使用产生了重大影响。本研究旨在探讨伏立康唑稳态谷浓度(Ctrough)与不良反应(ae)，尤其是肝毒性之间的关系。方法:我们于2015年1月至2020年6月在金陵医院进行了现实研究。本研究共纳入140例接受伏立康唑治疗的患者。根据Roussel Uclaf因果关系评估法评分量表进行伏立康唑相关肝毒性的测定和评分，根据不良事件通用术语标准(CTCAE)对肝毒性的严重程度进行分级。结果:伏立康唑稳态升高并伴有不良反应是治疗期间调整剂量的最常见原因。与未发生不良反应组相比，伏立康唑肝毒性组和神经毒性组的不良反应发生率均显著高于无不良反应组，且随伏立康唑不良反应的增加，两种不良反应的发生率均呈整体上升趋势。66.7%的患者在首次给药后7天内发生肝毒性，94.4%的患者在给药后15天内发生肝毒性。伏立康唑稳态浓度>3.61 mg/l与肝毒性发生率增加相关(曲线下面积= 0.645,p = 0.047)。Logistic回归分析显示，及时调整伏立康唑剂量是校正混杂因素后肝毒性减弱的预测因子，但通过单一时间点测量，肝毒性与伏立康唑没有相关性。结论:伏立康唑剂量升高与肝毒性和神经毒性相关，降低伏立康唑剂量可预防肝毒性的发生。对于早期发生肝毒性的患者，初始治疗药物监测(TDM)可以预测肝毒性的发生风险。随访TDM对于预测晚发型肝毒性可能是必要的。摘要:伏立康唑治疗肺部真菌疾病的安全性简介:一些研究表明血液中伏立康唑的浓度与肝损害之间存在关联，但证据不足。本研究旨在探讨伏立康唑药物浓度与不良反应的关系，分析影响伏立康唑肝损害的因素。方法:我们于2015年1月至2020年6月在金陵医院开展研究，最终纳入140例患者。结果:44例患者因Voriconazole药物浓度异常或不良反应调整Voriconazole剂量，32例患者减少剂量，8例患者增加剂量。肝酶水平升高是调整剂量最常见的原因。第一次剂量调整后，大多数患者达到目标药物浓度。共有18例患者被确定为伏立康唑可能或极可能引起药物性肝损伤。Voriconazole药物浓度在肝损害组和神经系统损害组均明显高于无副作用组，且大多数肝损害事件发生在首次给药后14天内。伏立康唑药物浓度>3.61 mg/l与肝损害发生率增高相关。结论:在本研究中，大约三分之一的肺部真菌疾病患者在接受标准剂量伏立康唑治疗后需要调整剂量。随着伏立康唑基线浓度的升高，肝损害和神经系统损害的发生率总体呈上升趋势。最初的治疗药物监测可以预测肝损害。可能需要对肝酶进行随访监测。

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来源期刊

Therapeutic Advances in Drug Safety Medicine-Pharmacology (medical)

CiteScore

6.70

自引率

4.50%

发文量

审稿时长

9 weeks

期刊介绍： Therapeutic Advances in Drug Safety delivers the highest quality peer-reviewed articles, reviews, and scholarly comment on pioneering efforts and innovative studies pertaining to the safe use of drugs in patients. The journal has a strong clinical and pharmacological focus and is aimed at clinicians and researchers in drug safety, providing a forum in print and online for publishing the highest quality articles in this area. The editors welcome articles of current interest on research across all areas of drug safety, including therapeutic drug monitoring, pharmacoepidemiology, adverse drug reactions, drug interactions, pharmacokinetics, pharmacovigilance, medication/prescribing errors, risk management, ethics and regulation.