Population pharmacokinetic model of isoniazid in patients with tuberculosis in Tunisia.

International journal of infectious diseases : IJID : official publication of the International Society for Infectious Diseases Pub Date : 2021-03-01 Epub Date: 2021-01-19 DOI:10.1016/j.ijid.2021.01.033

N Ben Fredj, H Ben Romdhane, J B Woillard, M Chickaid, N Ben Fadhel, Z Chadly, A Chaabane, N Boughattas, K Aouam

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引用次数: 2

Abstract

Aims: To develop a pharmacokinetic model of isoniazid (INH) concentration taking into account demographic factors and genetic variables [N-acetyltransferase 2 (NAT2) genotype], and to propose an initial INH dosage that could maximize the probability of achieving the desired INH concentration.

Methods: A retrospective analysis was undertaken of INH concentration data collected from patients with tuberculosis in Tunisia.

Results: In total, 118 patients were included in this study. The one-compartment model [volume of distribution (V), elimination rate (Ke)] was found to have good predictive performance. Multi-variate analysis showed that NAT2 affected both V and Ke significantly, but age, gender and weight did not. Internal validation of the final model showed correlation of 0.95 between individual predicted INH concentration 3 h after drug intake (C3) and observed C3. External validation showed that percentage mean absolute prediction error and percentage root mean squared error were 9.11% (range 0.62-35.8%) and 11.6%, respectively. Monte-Carlo simulation showed that doses of at least 225 mg/24 h and at least 450 mg/24 h attained a therapeutic concentration in >80% of patients in the NAT2 slow acetylator group and the NAT2 rapid/intermediate acetylator group, respectively.

Conclusion: The pharmacokinetic model allowed optimization of individual dosing regimens of INH in patients with tuberculosis in Tunisia. This tool may facilitate improved efficacy of INH and prevent its toxicity in this population.

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突尼斯肺结核患者异烟肼人群药代动力学模型。

目的:建立考虑人口统计学因素和遗传变量[n -乙酰转移酶2 (NAT2)基因型]的异烟肼(INH)浓度药代动力学模型，并提出能够最大限度地实现所需INH浓度的初始剂量。方法:回顾性分析突尼斯肺结核患者的INH浓度资料。结果:本研究共纳入118例患者。发现单室模型[分布体积(V)，淘汰率(Ke)]具有良好的预测性能。多因素分析显示，NAT2对V和Ke均有显著影响，而年龄、性别和体重对其无显著影响。最终模型的内部验证显示，服药后3 h个体预测的INH浓度(C3)与观察到的C3的相关性为0.95。外部验证结果表明，预测的平均绝对误差百分比为9.11%(0.62 ~ 35.8%)，均方根误差百分比为11.6%。Monte-Carlo模拟显示，在NAT2慢速乙酰化组和NAT2快速/中间乙酰化组中，分别给予至少225 mg/24 h和至少450 mg/24 h的剂量，>80%的患者达到治疗浓度。结论:建立的药代动力学模型可优化突尼斯结核病患者使用INH的个体化给药方案。该工具可促进提高INH的疗效，防止其对该人群的毒性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of infectious diseases : IJID : official publication of the International Society for Infectious Diseases

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