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采用 LC/QQQ 和 LC/Q-TOF 法鉴定和定量测定喀麦隆医院废水中的 19 种药物活性化合物和代谢物。

Identification and quantification of 19 pharmaceutical active compounds and metabolites in hospital wastewater in Cameroon using LC/QQQ and LC/Q-TOF.

机构信息

Department of Pharmacology and Toxicology, Faculty of Medicine and Biomedical Sciences, University of Yaounde I, Yaounde, Cameroon.

Department of Galenic Pharmacy and Pharmaceutical Legislation, Faculty of Medicine and Biomedical Sciences, University of Yaounde I, Yaounde, Cameroon.

出版信息

Environ Monit Assess. 2018 Nov 14;190(12):723. doi: 10.1007/s10661-018-7097-1.

DOI:10.1007/s10661-018-7097-1
PMID:30430263
Abstract

Human pharmaceutical residues are a serious environmental concern. They have been reported to have eco, geno, and human toxic effects, and thus their importance as micropollutants cannot be ignored. These have been studied extensively in Europe and North America. However, African countries are still lagging behind in research on these micropollutants. In this study, the wastewaters of the University Teaching Hospital of Yaoundé (UTHY) were screened for the presence of active pharmaceutical ingredients and their metabolites. The screening was carried out using two methods: high-performance liquid chromatography coupled to a triple quadrupole analyzer (LC/QQQ) and high-performance coupled to a mass spectrometer with a time of flight analyzer (LC/Q-TOF). A total of 19 active pharmaceutical ingredients and metabolites were identified and quantified. The compounds identified include paracetamol (211.93 μg/L), ibuprofen (141 μg/L), tramadol (76 μg/L), O-demethyltramadol (141 μg/L), erythromycinanhydrate (7 μg/L), ciprofloxacin (24 μg/L), clarinthromycine (0.088 μg/L), azitromycine (0.39 μg/L), sulfamethoxazole 0.16 μg/L), trimetoprime (0.27 μg/L), caffeine (5.8 μg/L), carnamaeepine (0.94 μg/L), atenolol (0.43 μg/L), propranolol (0.3 μg/L), cimetidine (34 μg/L), hydroxy omeprazole (5 μg/L), diphenhydramine (0.38 μg/L), metformine (154 μg/L), and sucralose (13.07 μg/L).

摘要

人用药物残留是一个严重的环境问题。据报道,它们具有生态、遗传和人类毒性效应,因此不能忽视它们作为微污染物的重要性。这些已经在欧洲和北美得到了广泛研究。然而,非洲国家在这些微污染物的研究方面仍然落后。在这项研究中,对雅温得教学医院(UTHY)的废水进行了活性药物成分及其代谢物的筛查。筛选使用了两种方法:高效液相色谱与三重四极杆分析仪(LC/QQQ)和高效液相色谱与飞行时间分析仪(LC/Q-TOF)耦合。共鉴定和定量了 19 种活性药物成分和代谢物。鉴定出的化合物包括对乙酰氨基酚(211.93μg/L)、布洛芬(141μg/L)、曲马多(76μg/L)、O-去甲曲马多(141μg/L)、红霉素水合物(7μg/L)、环丙沙星(24μg/L)、克拉霉素(0.088μg/L)、阿奇霉素(0.39μg/L)、磺胺甲恶唑(0.16μg/L)、甲氧苄啶(0.27μg/L)、咖啡因(5.8μg/L)、卡纳马嗪(0.94μg/L)、阿替洛尔(0.43μg/L)、普萘洛尔(0.3μg/L)、西咪替丁(34μg/L)、羟奥美拉唑(5μg/L)、苯海拉明(0.38μg/L)、二甲双胍(154μg/L)和三氯蔗糖(13.07μg/L)。

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