小儿外科患者中CYP2D6药物遗传学与羟考酮药代动力学的关联研究
CYP2D6 pharmacogenetic and oxycodone pharmacokinetic association study in pediatric surgical patients.
作者信息
Balyan Rajiv, Mecoli Marc, Venkatasubramanian Raja, Chidambaran Vidya, Kamos Nichole, Clay Smokey, Moore David L, Mavi Jagroop, Glover Chris D, Szmuk Peter, Vinks Alexander, Sadhasivam Senthilkumar
机构信息
Department of Anesthesia, Cincinnati Children's Hospital Medical Center, 3333 Burnet Avenue, MLC 2001, Cincinnati, OH 45229, USA.
Division of Clinical Pharmacology, Cincinnati Children's Hospital Medical Center, Cincinnati, OH 45229, USA.
出版信息
Pharmacogenomics. 2017 Mar;18(4):337-348. doi: 10.2217/pgs-2016-0183. Epub 2017 Feb 17.
AIM
Oxycodone is partly metabolized to the active metabolite oxymorphone by hepatic CYP2D6 in the liver. Significant genetic variability in CYP2D6 activity affects oxymorphone formation. This study aimed to associate CYP2D6 genotype and oxycodone's metabolism.
METHODS
30 children were administered oral oxycodone postoperatively. Plasma levels of oxycodone and oxymorphone, and CYP2D6 genotype were analyzed. CYP2D6 genotype and oxycodone metabolism phenotype were determined based on CYP2D6 total activity score (TAS) and metabolism phenotype: poor metabolizer (PM), intermediate metabolizer (IM), extensive metabolizer (EM) or ultrarapid metabolizer (UM).
RESULTS
Compared with PM/IM subjects, significantly greater oxymorphone exposure was seen in EM subjects (p = 0.02 for C, p = 0.016 for AUC and p = 0.026 for AUC). Similarly, higher TAS value was found to be associated with greater oxymorphone exposure. Higher conversion of oxycodone to oxymorphone was observed in EM subjects compared with PM/IM subjects (p = 0.0007 for C, p = 0.001 for AUC and p = 0.004 for AUC).
CONCLUSION
CYP2D6 phenotypes explain metabolism of oxycodone in children, and oxymorphone exposure is higher in CYP2D6 EM phenotype. Further studies are needed to predict the occurrence of adverse event and tailor oxycodone dose for a specific CYP2D6 phenotype.
目的
羟考酮在肝脏中部分通过肝CYP2D6代谢为活性代谢产物羟吗啡酮。CYP2D6活性存在显著的基因变异性,会影响羟吗啡酮的形成。本研究旨在关联CYP2D6基因型与羟考酮的代谢。
方法
30名儿童术后接受口服羟考酮治疗。分析羟考酮和羟吗啡酮的血浆水平以及CYP2D6基因型。根据CYP2D6总活性评分(TAS)和代谢表型确定CYP2D6基因型和羟考酮代谢表型:慢代谢者(PM)、中间代谢者(IM)、快代谢者(EM)或超快代谢者(UM)。
结果
与PM/IM受试者相比,EM受试者的羟吗啡酮暴露量显著更高(C的p = 0.02,AUC的p = 0.016,AUC的p = 0.026)。同样,发现较高的TAS值与更高的羟吗啡酮暴露量相关。与PM/IM受试者相比,EM受试者中羟考酮向羟吗啡酮的转化率更高(C的p = 0.0007,AUC的p = 0.001,AUC的p = 0.004)。
结论
CYP2D6表型可解释儿童体内羟考酮的代谢情况,且CYP2D6 EM表型的羟吗啡酮暴露量更高。需要进一步研究来预测不良事件的发生,并针对特定的CYP2D6表型调整羟考酮剂量。
Zotero 插件