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The IUPHAR/BPS Guide to PHARMACOLOGY in 2018: updates and expansion to encompass the new guide to IMMUNOPHARMACOLOGY.2018 年 IUPHAR/BPS 药理学指南:更新和扩展,以包含新的免疫药理学指南。
Nucleic Acids Res. 2018 Jan 4;46(D1):D1091-D1106. doi: 10.1093/nar/gkx1121.
2
THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Voltage-gated ion channels.《药理学 2017/18 简明指南:电压门控离子通道》
Br J Pharmacol. 2017 Dec;174 Suppl 1(Suppl Suppl 1):S160-S194. doi: 10.1111/bph.13884.
3
Characterization of Free Phenytoin Concentrations in End-Stage Renal Disease Using the Winter-Tozer Equation.使用温特-托泽尔方程对终末期肾病患者游离苯妥英浓度的特征分析。
Ann Pharmacother. 2017 Aug;51(8):669-674. doi: 10.1177/1060028017707541. Epub 2017 May 4.
4
A Comprehensive Review on the Predictive Performance of the Sheiner-Tozer and Derivative Equations for the Correction of Phenytoin Concentrations.关于用于校正苯妥英浓度的谢纳 - 托泽方程及衍生方程预测性能的综合综述
Ann Pharmacother. 2016 Apr;50(4):311-25. doi: 10.1177/1060028016628166. Epub 2016 Jan 29.
5
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6
Characterization of unbound phenytoin concentrations in neurointensive care unit patients using a revised Winter-Tozer equation.应用修正后的 Winter-Tozer 方程对神经重症监护病房患者的游离苯妥英钠浓度进行特征描述。
Ann Pharmacother. 2013 May;47(5):628-36. doi: 10.1345/aph.1R651. Epub 2013 Apr 19.
7
Clinical decision support of therapeutic drug monitoring of phenytoin: measured versus adjusted phenytoin plasma concentrations.苯妥英治疗药物监测的临床决策支持:实测与调整后的苯妥英血浆浓度。
BMC Med Inform Decis Mak. 2012 Feb 14;12:7. doi: 10.1186/1472-6947-12-7.
8
Antiepileptic drugs--best practice guidelines for therapeutic drug monitoring: a position paper by the subcommission on therapeutic drug monitoring, ILAE Commission on Therapeutic Strategies.抗癫痫药物——治疗药物监测的最佳实践指南:国际抗癫痫联盟治疗策略委员会治疗药物监测小组委员会的立场文件
Epilepsia. 2008 Jul;49(7):1239-76. doi: 10.1111/j.1528-1167.2008.01561.x.
9
Linking laboratory and medication data: new opportunities for pharmacoepidemiological research.连接实验室与用药数据:药物流行病学研究的新机遇
Clin Chem Lab Med. 2007;45(1):13-9. doi: 10.1515/CCLM.2007.009.
10
Interactions of serum albumin, valproic acid and carbamazepine with the pharmacokinetics of phenytoin in cancer patients.血清白蛋白、丙戊酸和卡马西平与癌症患者中苯妥英钠药代动力学的相互作用。
Basic Clin Pharmacol Toxicol. 2006 Aug;99(2):133-40. doi: 10.1111/j.1742-7843.2006.pto_309.x.

临床实践中苯妥英的非线性蛋白结合:机制预测模型的建立与验证。

Nonlinear protein binding of phenytoin in clinical practice: Development and validation of a mechanistic prediction model.

机构信息

Radboud institute for Health Sciences & Department of Pharmacy, Radboudumc, Nijmegen, The Netherlands.

Department of Pharmacy Practice, Rosalind Franklin University of Medicine and Science, North Chicago, IL, USA.

出版信息

Br J Clin Pharmacol. 2019 Oct;85(10):2360-2368. doi: 10.1111/bcp.14053. Epub 2019 Aug 7.

DOI:10.1111/bcp.14053
PMID:31269540
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6783592/
Abstract

AIMS

To individualize treatment, phenytoin doses are adjusted based on free concentrations, either measured or calculated from total concentrations. As a mechanistic protein binding model may more accurately reflect the protein binding of phenytoin than the empirical Winter-Tozer equation that is routinely used for calculation of free concentrations, we aimed to develop and validate a mechanistic phenytoin protein binding model.

METHODS

Data were extracted from routine clinical practice. A mechanistic drug protein binding model was developed using nonlinear mixed effects modelling in a development dataset. The predictive performance of the mechanistic model was then compared with the performance of the Winter-Tozer equation in 5 external datasets.

RESULTS

We found that in the clinically relevant concentration range, phenytoin protein binding is not only affected by serum albumin concentrations and presence of severe renal dysfunction, but is also concentration dependent. Furthermore, the developed mechanistic model outperformed the Winter-Tozer equation in 4 out of 5 datasets in predicting free concentrations in various populations.

CONCLUSIONS

Clinicians should be aware that the free fraction changes when phenytoin exposure changes. A mechanistic binding model may facilitate prediction of free phenytoin concentrations from total concentrations, for example for dose individualization in the clinic.

摘要

目的

为了实现个体化治疗,通常根据游离浓度调整苯妥英钠的剂量,游离浓度可以通过测量或从总浓度计算得出。由于机制蛋白结合模型比常规用于计算游离浓度的经验 Winter-Tozer 方程更能准确反映苯妥英钠的蛋白结合,因此我们旨在开发和验证一种机制苯妥英钠蛋白结合模型。

方法

从常规临床实践中提取数据。在开发数据集使用非线性混合效应建模来开发机制药物蛋白结合模型。然后,在 5 个外部数据集比较机制模型与 Winter-Tozer 方程的预测性能。

结果

我们发现,在临床相关浓度范围内,苯妥英钠蛋白结合不仅受血清白蛋白浓度和严重肾功能不全的影响,而且还与浓度有关。此外,在 5 个数据集的 4 个数据集中外推中,开发的机制模型在预测各种人群中的游离浓度方面优于 Winter-Tozer 方程。

结论

临床医生应该意识到苯妥英钠暴露变化时游离分数会发生变化。机制结合模型可以帮助从总浓度预测游离苯妥英钠浓度,例如用于临床中的剂量个体化。