药物基因分型推翻了家族史中药物相关问题的遗传原因:一份病例报告。

IF 2.3 3区 医学 Q2 ANESTHESIOLOGY
Anna Bollinger, Kurt E Hersberger, Henriette E Meyer Zu Schwabedissen, Samuel S Allemann, Céline K Stäuble
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引用次数: 0

摘要

背景:在临床实践中,家族用药史并非作为患者家族健康史(FHH)的一部分进行常规评估。这些信息都是自我报告的,可能取决于个人的主观感觉。为了说明药物基因学(PGx)检测结果如何用于验证自我报告的家庭用药史中与药物相关的问题(DRP),以及为与药物相关的决策提供信息,我们在此介绍一个涉及同一家庭十名成员的病例:在一次计划中的手术前,由于自述的家族用药史,我们为一名九岁的女孩进行了先期PGx全套检测。她的三个兄弟姐妹、父母和祖父母也接受了 PGx 小组检测。重点放在了外祖母身上,因为她报告说服用催眠药异丙酚后出现了药物过敏反应,而外祖母则描述说服用可待因和曲马多后出现了药物过敏反应。对 30 个不同基因中的 100 个变异进行了商业 PGx 面板测试和分析,重点是细胞色素 P450 酶 2B6 (CYP2B6) 和 CYP2D6 的基因变异,因为它们分别参与异丙酚的生物转化以及可待因和曲马多的生物活化。该女孩被鉴定为(1)酶活性降低的 CYP2B6 中间代谢者(IM)和(2)无酶活性的 CYP2D6 不良代谢者(PM)。关于计划中的手术,医生建议:(1) 谨慎滴定异丙酚剂量,加强对潜在 DRP 的监测;(2) 避免使用由 CYP2D6 介导活化的阿片类药物(如可待因和曲马多)。进一步的 PGx 检测显示:(1) 外祖母是 CYP2B6 正常代谢者 (NM);(2) 外祖母是 CYP2D6 正常代谢者:进行 PGx 检测的最初诱因是祖母们自述的明显的 DRP 家族用药史。然而,女孩的 CYP2B6 IM 和 CYP2D6 PM 基因型预测表型与祖母的不同。通过这个典型案例,我们建议,当相关药物显示出 PGx 关联时,应通过 PGx 面板测试来验证基于 DRP 自我报告信息的遗传性担忧。此外,该女孩的 PGx 检测结果还提供了重要的用药建议,麻醉师在围手术期考虑了这些建议,并建议预先使用 PGx 检测结果为用药相关决策提供依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pharmacogenotyping disproves genetic cause of drug-related problems in family history: a case report.

Background: In clinical practice, family medication history is not routinely assessed as part of a patient's family health history (FHH). The information is self-reported and can depend on the individual's subjective perception. To illustrate how pharmacogenetic (PGx) testing results could be used to validate self-reported family medication history on drug-related problems (DRP), as well as to inform medication-related decisions, we herein present a case involving ten members of the same family.

Case presentation: Prior to a planned surgery, a preemptive PGx panel test was performed for a nine-year-old girl due to self-reported family medication history. The PGx panel test was also performed for her three siblings, parents, and grandparents. The focus was directed to the paternal grandmother, as she reported DRP from the hypnotic agent propofol, and to the maternal grandmother, as she described DRP after the administration of codeine and tramadol. A commercial PGx panel test of 100 variations in 30 different genes was conducted and analyzed focusing on genetic variants in cytochrome P450 enzyme 2B6 (CYP2B6), and CYP2D6 as they are involved in the biotransformation of propofol and the bioactivation of codeine and tramadol, respectively. The girl was identified as (1) CYP2B6 intermediate metabolizer (IM) with reduced enzyme activity and (2) CYP2D6 poor metabolizer (PM) with no enzyme activity. Regarding the planned surgery, it was recommended (1) to carefully titrate propofol dosage with increased monitoring of potential DRP and (2) to avoid opioids whose activation is mediated by CYP2D6 (e.g. codeine and tramadol). Further PGx testing revealed (1) the paternal grandmother as CYP2B6 normal metabolizer (NM) and (2) the maternal grandmother as CYP2D6 NM.

Conclusion: The original trigger for PGx testing was the self-reported, conspicuous family medication history of DRP reported by the grandmothers. However, the girl's genotype predicted phenotypes of CYP2B6 IM and CYP2D6 PM, differed from the grandmothers'. With this exemplary case, we propose that hereditary concerns based on self-reported information on DRP should be verified by a PGx panel test, when the respective drug exhibits a PGx association. Also, the girl's PGx testing results provided important medication recommendations, which were considered perioperatively by the anesthetist suggesting to use PGx testing results preemptively to inform medication-related decisions.

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来源期刊
BMC Anesthesiology
BMC Anesthesiology ANESTHESIOLOGY-
CiteScore
3.50
自引率
4.50%
发文量
349
审稿时长
>12 weeks
期刊介绍: BMC Anesthesiology is an open access, peer-reviewed journal that considers articles on all aspects of anesthesiology, critical care, perioperative care and pain management, including clinical and experimental research into anesthetic mechanisms, administration and efficacy, technology and monitoring, and associated economic issues.
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