曲马多
CYP2D6型
背景(考古学)
药理学
代谢物
医学
止痛药
队列
内科学
药物遗传学
新陈代谢
内分泌学
化学
生物
细胞色素P450
生物化学
基因型
基因
古生物学
作者
Pierre‐Jean Ferron,Romain Pelletier,Julie Massart,Céline Narjoz,Vinh-Hoang-Lan Julie Tran,Marie‐Anne Loriot,Angéline Kernalléguen,Marie Zins,Sofiane Kab,Isabelle Morel,Bruno Clément,Thomas Gicquel,Brendan Le Daré
标识
DOI:10.1016/j.fct.2024.115192
摘要
Very few quantitative data exist on tramadol metabolites, which hampers our understanding of their role in efficacy and safety of tramadol. We aimed to provide quantitative data on tramadol and its 5 main metabolites in a patient cohort and to determine whether metabolite ratios can be predictive of a CYP2D6 metabolism phenotype. We also aimed to investigate the influence of co-medications and patient profile (BMI, glycemia, lipid levels) on tramadol metabolite ratios. Overall, 37 patient samples from the CONSTANCES cohort contained tramadol and its 5 metabolites. Mean concentrations found tramadol at 343.2 ± 223.2 μg/L, M1 at 62.4 ± 41.4 μg/L, M2 at 210.0 ± 272.3, M3 at 1.76 ± 3.0 μg/L, M4 at 1.8 ± 2.8 μg/L and M5 at 31.8 ± 28.4 μg/L. The most frequent CYP2D6 phenotype was extensive metabolizers (51.3%), followed by intermediate metabolizers (24.3%) and poor metabolizers (10.8%). CYP2D6-inhibiting co-medications impacted tramadol metabolism independently of CYP2D6 metabolism phenotype. Lipid parameters and glycemia were significantly associated with changes in tramadol metabolic ratios. Metabolic ratios are not sufficient to determine the CYP2D6 metabolic phenotype in patients. CYP2D6 inhibitors and obesity/NAFLD/diabetes impact tramadol metabolism. These factors are likely to impact the analgesic efficacy and safety profile of tramadol, justifying the need for further studies in this area.
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