中国人血液中地西泮及其代谢物的药代动力学研究。
Study on the Pharmacokinetics of Diazepam and Its Metabolites in Blood of Chinese People.
机构信息
School of Forensic Medicine, Shanxi Medical University, Taiyuan, 030001, China.
Institute of Forensic Science, Ministry of Public Security, Beijing, 100038, China.
出版信息
Eur J Drug Metab Pharmacokinet. 2020 Aug;45(4):477-485. doi: 10.1007/s13318-020-00614-8.
BACKGROUND AND OBJECTIVES
Driving under the influence of diazepam is increasing in China. The pharmacokinetics of diazepam and its metabolites, especially the glucuronide metabolites, are helpful in the identification of diazepam use by drivers. This study aimed to investigate the pharmacokinetics of diazepam and its metabolites (nordazepam, oxazepam, oxazepam glucuronide and temazepam glucuronide) in the blood of Chinese people, and to provide basic data for identifying diazepam use and estimating the time of last diazepam ingestion.
METHODS
A total of 28 participants (14 men, 14 women) were recruited and each person received 5 mg diazepam orally. Whole blood was collected at 0 h (pre-dose), and 1 h, 2 h, 4 h, 8 h, 12 h, and 24 h, and at 2 days, 3 days, 6 days, 12 days, and 15 days post-dose. Analytes of interest were extracted via solid-phase extraction and analyzed by a liquid chromatography tandem mass spectrometry method operated in a positive multiple response monitoring mode. Pharmacokinetic parameters were analyzed by a pharmacokinetic software DAS according to the non-compartment model. The time of last diazepam use was estimated using the concentration ratios of diazepam to metabolites and metabolites to metabolites from controlled drug administration studies.
RESULTS
The respective time of maximum concentration, the maximum concentration and the elimination half-life of diazepam were 1.04 ± 1.00 h, 87.37 ± 31.92 ng/mL and 129.07 ± 75.00 h; of nordazepam were 133.14 ± 109.63 h, 3.80 ± 1.75 ng/mL, and 229.73 ± 236.83 h; of oxazepam were 100.29 ± 87.16 h, 1.62 ± 2.64 ng/mL, and 382.86 ± 324.58 h; of temazepam glucuronide were 44.43 ± 55.41 h, 2.08 ± 0.88 ng/mL, and 130.53 ± 72.11 h; and of oxazepam glucuronide were 66.86 ± 56.33 h, 1.10 ± 0.41 ng/mL, and 240.66 ± 170.12 h. A good correlation model was obtained from the concentration ratio of diazepam to nordazepam and the time of diazepam use, and the prediction errors were less than 20%.
CONCLUSIONS
This study provides a sensitive method to identify diazepam ingestion by monitoring diazepam and its metabolites including glucuronides, as well as to infer the time following oral consumption.
背景与目的
在中国,因服用地西泮而在驾驶中受影响的情况日益增多。地西泮及其代谢物(特别是葡糖苷酸代谢物)的药代动力学有助于识别驾驶员使用地西泮的情况。本研究旨在调查中国人血液中地西泮及其代谢物(去甲西泮、奥沙西泮、奥沙西泮葡糖苷酸和替马西泮葡糖苷酸)的药代动力学,为识别地西泮的使用和估计最后一次服用地西泮的时间提供基础数据。
方法
共招募了 28 名参与者(14 名男性,14 名女性),每人口服 5mg 地西泮。在 0 小时(预剂量)和 1、2、4、8、12 和 24 小时,以及 2、3、6、12 和 15 天服药后采集全血。通过固相萃取提取感兴趣的分析物,并用液相色谱串联质谱法在正多重反应监测模式下进行分析。根据非房室模型,使用 DAS 药代动力学软件分析药代动力学参数。通过从对照药物管理研究中获取地西泮与代谢物以及代谢物与代谢物的浓度比来估计最后一次服用地西泮的时间。
结果
地西泮的最大浓度时间、最大浓度和消除半衰期分别为 1.04±1.00 小时、87.37±31.92ng/mL 和 129.07±75.00 小时;去甲西泮分别为 133.14±109.63 小时、3.80±1.75ng/mL 和 229.73±236.83 小时;奥沙西泮分别为 100.29±87.16 小时、1.62±2.64ng/mL 和 382.86±324.58 小时;替马西泮葡糖苷酸分别为 44.43±55.41 小时、2.08±0.88ng/mL 和 130.53±72.11 小时;奥沙西泮葡糖苷酸分别为 66.86±56.33 小时、1.10±0.41ng/mL 和 240.66±170.12 小时。从地西泮与去甲西泮的浓度比与地西泮使用时间的相关性模型中获得了良好的相关性,预测误差小于 20%。
结论
本研究提供了一种敏感的方法,可通过监测地西泮及其包括葡糖苷酸在内的代谢物来识别地西泮的摄入情况,并推断口服后的时间。
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