第二代抗抑郁药的临床相关药代动力学药物相互作用:最新进展
Clinically relevant pharmacokinetic drug interactions with second-generation antidepressants: an update.
作者信息
Spina Edoardo, Santoro Vincenza, D'Arrigo Concetta
机构信息
Section of Pharmacology, Department of Clinical and Experimental Medicine and Pharmacology, University of Messina, Messina, Italy.
出版信息
Clin Ther. 2008 Jul;30(7):1206-27. doi: 10.1016/s0149-2918(08)80047-1.
BACKGROUND
The second-generation antidepressants include selective serotonin reuptake inhibitors (SSRIs), serotonin and norepinephrine reuptake inhibitors (SNRIs), and other compounds with different mechanisms of action. All second-generation antidepressants are metabolized in the liver by the cytochrome P450 (CYP) enzyme system. Concomitant intake of inhibitors or inducers of the CYP isozymes involved in the biotransformation of specific antidepressants may alter plasma concentrations of these agents, although this effect is unlikely to be associated with clinically relevant interactions. Rather, concern about drug interactions with second-generation antidepressants is based on their in vitro potential to inhibit > or = 1 CYP isozyme.
OBJECTIVE
The goal of this article was to review the current literature on clinically relevant pharmacokinetic drug interactions with second-generation antidepressants.
METHODS
A search of MEDLINE and EMBASE was conducted for original research and review articles published in English between January 1985 and February 2008. Among the search terms were drug interactions, second-generation antidepressants, newer antidepressants, SSRIs, SNRIs, fluoxetine, paroxetine, fluvoxamine, sertraline, citalopram, escitalopram, venlafaxine, duloxetine, mirtazapine, reboxetine, bupropion, nefazodone, pharmacokinetics, drug metabolism, and cytochrome P450. Only articles published in peer-reviewed journals were included, and meeting abstracts were excluded. The reference lists of relevant articles were hand-searched for additional publications.
RESULTS
Second-generation antidepressants differ in their potential for pharmacokinetic drug interactions. Fluoxetine and paroxetine are potent inhibitors of CYP2D6, fluvoxamine markedly inhibits CYP1A2 and CYP2C19, and nefazodone is a substantial inhibitor of CYP3A4. Therefore, clinically relevant interactions may be expected when these antidepressants are coadministered with substrates of the pertinent isozymes, particularly those with a narrow therapeutic index. Duloxetine and bupropion are moderate inhibitors of CYP2D6, and sertraline may cause significant inhibition of this isoform, but only at high doses. Citalopram, escitalopram, venlafaxine, mirtazapine, and reboxetine are weak or negligible inhibitors of CYP isozymes in vitro and are less likely than other second-generation antidepressants to interact with co-administered medications.
CONCLUSIONS
Second-generation antidepressants are not equivalent in their potential for pharmacokinetic drug interactions. Although interactions may be predictable in specific circumstances, use of an antidepressant with a more favorable drug-interaction profile may be justified.
背景
第二代抗抑郁药包括选择性5-羟色胺再摄取抑制剂(SSRIs)、5-羟色胺和去甲肾上腺素再摄取抑制剂(SNRIs)以及其他具有不同作用机制的化合物。所有第二代抗抑郁药均在肝脏中通过细胞色素P450(CYP)酶系统进行代谢。同时摄入参与特定抗抑郁药生物转化的CYP同工酶的抑制剂或诱导剂可能会改变这些药物的血浆浓度,尽管这种影响不太可能与临床相关的相互作用有关。相反,对第二代抗抑郁药药物相互作用的关注基于它们在体外抑制≥1种CYP同工酶的可能性。
目的
本文的目的是综述有关第二代抗抑郁药临床相关药代动力学药物相互作用的当前文献。
方法
检索MEDLINE和EMBASE,查找1985年1月至2008年2月期间以英文发表的原创研究和综述文章。检索词包括药物相互作用、第二代抗抑郁药、新型抗抑郁药、SSRIs、SNRIs、氟西汀、帕罗西汀、氟伏沙明、舍曲林、西酞普兰、艾司西酞普兰、文拉法辛、度洛西汀、米氮平、瑞波西汀、安非他酮、奈法唑酮、药代动力学、药物代谢和细胞色素P450。仅纳入在同行评审期刊上发表的文章,会议摘要除外。手工检索相关文章的参考文献列表以查找其他出版物。
结果
第二代抗抑郁药在药代动力学药物相互作用的可能性方面存在差异。氟西汀和帕罗西汀是CYP2D6的强效抑制剂,氟伏沙明显著抑制CYP1A2和CYP2C19,奈法唑酮是CYP3A4的强效抑制剂。因此,当这些抗抑郁药与相关同工酶的底物合用时,可能会出现临床相关的相互作用,尤其是那些治疗指数较窄的底物。度洛西汀和安非他酮是CYP2D6的中度抑制剂,舍曲林可能会对该同工酶产生显著抑制,但仅在高剂量时。西酞普兰、艾司西酞普兰、文拉法辛、米氮平和瑞波西汀在体外是CYP同工酶的弱抑制剂或可忽略不计的抑制剂,与其他第二代抗抑郁药相比,与合用药物相互作用的可能性较小。
结论
第二代抗抑郁药在药代动力学药物相互作用的可能性方面并不相同。尽管在特定情况下相互作用可能是可预测的,但使用具有更有利药物相互作用特征的抗抑郁药可能是合理的。
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