固相萃取与高效液相色谱和二极管阵列紫外检测相结合监测水样中不同类别抗生素残留的方法优化。

Rania A Mahmoud, Ghada M Hadad, Randa A Abdel Salam, Hatem I Mokhtar
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引用次数: 0

摘要

背景:在过去几年中,头孢菌素类抗生素的使用增加,以及在废水处理厂和医院废水中检测到它们的残留物,这对它们的残留物渗透到环境水样中构成了风险。目的:建立并验证了一种简单、灵敏、方便的固相萃取(SPE)方法,结合高效液相色谱法或二极管阵列快速液相色谱检测法来筛选六种不同头孢菌素类抗生素的残留:头孢哌酮、头孢吡肟、头孢他啶、头孢曲松、头孢迪尼和头孢噻肟以及阿莫西林,水样中的左氧氟沙星和环丙沙星。方法:采用高效液相色谱二极管阵列检测器(HPLC-DAD)法和基于核壳固定相的快速高效液相色谱仪快速筛选抗生素化合物。此外,对SPE步骤进行了优化,以使所研究的药物能够以高精度的回收残留物量进行提取。结果:SPE与HPLC-DAD和Fast HPLC联用提高了方法的灵敏度,达到了较低的检测限;从0.2到3.8 ng/mL和0.65至12.2 ng/mL。通过LC-MS/MS测定对所开发的方法进行了补充,以确认任何阳性鉴定样品的身份和数量。该方法用于分析从农村采集的水样,以及头孢噻肟污染不锈钢表面清洁验证的潜在实例。结论:该方法简单、灵敏度高,可用于环境样品和清洁验证活动样品等不同类型水样中抗生素残留的监测。亮点:HPLC-DAD和快速高效液相色谱法用于分离九种不同的抗生素。与SPE程序相结合实现了低检测限;从0.2到3.8 SPE-HPLC-DAD的ng/mL和0.65至12.2 ng/mL用于SPE快速HPLC。
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Optimization of a Solid-Phase Extraction Coupled with a High-Performance Liquid Chromatography and Diode Array Ultraviolet Detection Method for Monitoring of Different Antibiotic Class Residues in Water Samples.

Background: The increased use of cephalosporin antibiotics in the last few years as well as the detection of their residues in wastewater treatment plants and hospital wastewater poses a risk for infiltration of their residues into environmental water samples.

Objective: A simplified, sensitive, and convenient solid-phase extraction (SPE) procedure coupled with either HPLC or fast HPLC methods with diode array detection was developed and validated to screen the residues of six different cephalosporin antibiotics: cefoperazone, cefipime, ceftazedime, ceftriaxone, cefdinir, and cefotaxime, along with amoxicillin, levofloxacin, and ciprofloxacin in water samples.

Methods: An HPLC-diode array detector (HPLC-DAD) method and a fast HPLC method, based on a core-shell stationary phase, were developed for the fast screening of the antibiotic compounds. In addition, the SPE step was optimized to enable the extraction of the studied drugs with high accuracy of the recovered amounts of residues.

Results: The method sensitivity was enhanced by the coupling of SPE with HPLC-DAD and fast HPLC to achieve low LODs; from 0.2 to 3.8 ng/mL and from 0.65 to 12.2 ng/mL, respectively. The developed methods were augmented by LC-MS/MS determination for confirmation of identity and quantity of any positively identified sample. The method was applied to the analysis of water samples collected from a rural site. In Addition, an example application of cleaning validation of cefotaxime-contaminated stainless-steel surfaces was provided.

Conclusion: The method's simplicity and high sensitivity encourage its application in monitoring of antibiotic residues in different types of water samples such as environmental samples and samples from cleaning validation activities.

Highlights: HPLC-DAD and fast HPLC methods were developed for separation of nine different antibiotics. The combination with the SPE procedure achieved low detection limits; from 0.2 to 3.8 ng/mL for SPE-HPLC-DAD and from 0.65 to 12.2 ng/mL for SPE-fast HPLC.

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