Patient resuscitated after cardiopulmonary arrest exhibits abnormally increased phenytoin metabolic rate due to unknown factors: a case report.

IF 1.2 Q4 PHARMACOLOGY & PHARMACY
Ayumu Nagamine, Takuya Araki, Hideaki Yashima, Kiyohiro Oshima, Kyoko Obayashi, Koujirou Yamamoto
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Abstract

Background: Fosphenytoin (FOS) is a prodrug of phenytoin (PHT) with a metabolism that exhibits Michaelis-Menten-type kinetics. Genetic polymorphisms of the metabolic enzymes of PHT make it challenging to predict its plasma concentrations. High plasma PHT concentrations are typically problematic, and several causes have been elucidated. In contrast, cases of patients with low PHT plasma concentrations that did not increase despite the administration of appropriate PHT doses have been reported, and the causes may include changes in plasma protein-binding rates, genetic mutations, and concomitant use of drugs that induce liver enzymes; however, even these factors do not explain the low PHT plasma concentrations in some cases.

Case presentation: We encountered the case of a patient with plasma PHT concentrations that were continuously < 0.7 µg/mL after daily use of FOS for seizures that occurred after cardiopulmonary arrest. We analyzed the protein-unbound fraction, urinary metabolites, and related genes to investigate the cause. False negatives due to the measurement method, errors in dosage and administration method, and increased excretion of PHT were excluded. Hepatic metabolic activity of PHT increased to 4.6-6.1 times the normal level. The S/R ratio of 5-(p-hydroxyphenyl)-5-phenylhydantoin-glucuronide, a major PHT metabolite, was normal at 15.2, suggesting increased activities of CYP2C9 and CYP2C19. Furthermore, the protein-unbound fraction of PHT was 5.2-6.9%, CYP2C19*17 was wild type, and there was no concomitant drug use to induce both enzymes.

Conclusions: The low PHT plasma concentration in this patient was found to be caused by increased hepatic metabolic activity that could not be explained by known factors. Careful monitoring is necessary to consider the possibility of increased hepatic metabolic activity in similar cases.

心肺骤停后复苏的患者因不明因素导致苯妥英代谢率异常升高:病例报告。
背景:磷苯妥英(FOS)是苯妥英(PHT)的一种原药,其代谢过程表现为迈克尔斯-门顿(Michaelis-Menten)型动力学。PHT 代谢酶的基因多态性使预测其血浆浓度成为难题。血浆 PHT 浓度过高通常会引起问题,目前已阐明了几种原因。与此相反,也有患者在服用适当剂量的 PHT 后,PHT 血浆浓度仍然很低且没有升高的报道,其原因可能包括血浆蛋白结合率的变化、基因突变以及同时使用诱导肝酶的药物;然而,即使这些因素也不能解释某些病例中 PHT 血浆浓度低的原因:我们遇到了一例血浆 PHT 浓度持续*17 的野生型患者,而且患者没有同时服用诱导两种酶的药物:结论:该患者的 PHT 血浆浓度较低,其原因是肝脏代谢活动增加,而已知因素无法解释这种情况。有必要对类似病例进行仔细监测,以考虑肝脏代谢活性增加的可能性。
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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来源期刊
CiteScore
1.80
自引率
0.00%
发文量
29
审稿时长
8 weeks
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