Molecularly imprinted polymers as solid-phase and dispersive solid-phase extraction sorbents in the extraction of antiretroviral drugs in water: adsorption, selectivity and reusability studies

IF 2.5 4区 化学 Q3 CHEMISTRY, ANALYTICAL Journal of Analytical Science and Technology Pub Date : 2024-03-18 DOI:10.1186/s40543-024-00418-4
Thabiso Xolo, Precious Mahlambi
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Abstract

The antiretroviral drugs (ARVDs) have been reported to be among the emerging water pollutants as a results attention is being paid on their analysis. This work therefore explored for the first time the multi-template MIP for the selective removal of selected ARVDs (abacavir, efavirenz and nevirapine) in wastewater, river water and tap water. The adsorption studies of a multi-template MIP were conducted by determining the effect of an increase in ARVDs concentration in solution and the effect of an increase in contact time between the sorbent and the ARVDs. High adsorption efficiencies were observed for abacavir, efavirenz and nevirapine analytes within 5 min and the maximum adsorption efficiency was observed at 60 min ranging from 94.76 to 96.93%. Adsorption kinetics showed that pseudo-second rate order was the best fitting model, while adsorption isotherms indicated that the Freundlich isotherm (R2 = 0.94–0.98) best described the adsorption mechanism of ARVDs onto the MIPs. These results indicated that the electrostatic attractions influenced the multilayer coverage and chemisorption process. Selectivity studies conducted in the presence of competitors gave the recoveries between 92 and 98% for the target analytes, while they were 63–79% for competitors indicating good selectivity and strong affinity of the polymer towards the target analytes. Reusability studies showed that the MIP can be reused for up to 8 cycles with recoveries above 92% for all target ARVDs. The application of the MIP-DSPE method to wastewater, river and tap water samples gave concentrations of 28.75–178.02, 1.95–13.15 and 2.17–6.27 µg L−1, respectively. These results indicate the potential unplanned consumption of ARVDs upon drinking contaminated water which could result to their resistance by the human body. Therefore, their continuous monitoring as well as investigation of their removal strategies is of paramount importance.
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分子印迹聚合物作为固相萃取和分散固相萃取吸附剂在水中萃取抗逆转录病毒药物:吸附性、选择性和重复使用性研究
据报道,抗逆转录病毒药物(ARVDs)是新出现的水污染物之一,因此人们开始关注对它们的分析。因此,本研究首次探索了多模板 MIP 选择性去除废水、河水和自来水中某些 ARVDs(阿巴卡韦、依非韦伦和奈韦拉平)的方法。通过确定溶液中 ARVDs 浓度增加的影响以及吸附剂与 ARVDs 接触时间增加的影响,对多模板 MIP 进行了吸附研究。在 5 分钟内观察到阿巴卡韦、依非韦伦和奈韦拉平分析物具有较高的吸附效率,在 60 分钟时观察到最大吸附效率为 94.76% 至 96.93%。吸附动力学表明,伪二阶速率是最佳拟合模型,而吸附等温线表明,Freundlich 等温线(R2 = 0.94-0.98)最好地描述了 ARVDs 在 MIPs 上的吸附机理。这些结果表明,静电吸引影响了多层覆盖和化学吸附过程。在有竞争者存在的情况下进行的选择性研究表明,目标分析物的回收率在 92% 至 98% 之间,而竞争者的回收率为 63% 至 79%,这表明聚合物对目标分析物具有良好的选择性和很强的亲和力。重复使用性研究表明,MIP 可重复使用长达 8 个循环,对所有目标 ARVD 的回收率均在 92% 以上。将 MIP-DSPE 方法应用于废水、河水和自来水样品,其浓度分别为 28.75-178.02、1.95-13.15 和 2.17-6.27 µg L-1。这些结果表明,在饮用受污染的水时,人体可能会意外摄入 ARVDs,从而产生抗药性。因此,对其进行持续监测并研究去除策略至关重要。
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来源期刊
Journal of Analytical Science and Technology
Journal of Analytical Science and Technology Environmental Science-General Environmental Science
CiteScore
4.00
自引率
4.20%
发文量
39
审稿时长
13 weeks
期刊介绍: The Journal of Analytical Science and Technology (JAST) is a fully open access peer-reviewed scientific journal published under the brand SpringerOpen. JAST was launched by Korea Basic Science Institute in 2010. JAST publishes original research and review articles on all aspects of analytical principles, techniques, methods, procedures, and equipment. JAST’s vision is to be an internationally influential and widely read analytical science journal. Our mission is to inform and stimulate researchers to make significant professional achievements in science. We aim to provide scientists, researchers, and students worldwide with unlimited access to the latest advances of the analytical sciences.
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