UiO-66@Fe3O4 nanocomposite as an adsorbent in dispersive solid phase extraction of metformin in surface water and wastewater

Abigail Goitumetswe Sekopelo, Tshimangadzo Saddam Munonde, Azile Nqombolo, Anele Mpupa and Philiswa Nosizo Nomngongo
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Abstract

Metformin, an anti-hypoglycemic medication, has been used for decades due to its efficiency and is the most consumed pharmaceutical drug worldwide. Consequently, monitoring its concentration in environmental water is important due to its suspected effect on human health and aquatic life. This study reported the extraction, preconcentration, separation and determination of metformin (MET) in waters. Dispersive solid phase extraction (dSPE) using UiO-66@Fe3O4 nanocomposite as a sorbent was used to extract and preconcentrate MET. The high-performance liquid chromatography-diode array detector (HPLC-DAD) achieved the separation and quantification of MET in the samples. Experiemental design was used to optimise influential variables in the extraction and preconcentration of MET. The linearity, limit of detection (LOD) and limit of quantification (LOQ) for MET were 0.5–100 μg L−1 (R2 = 0.9987), 0.16 μg L−1 and 0.53 μg L−1, respectively. The intraday (n = 10 same-day replicates) and interday (n = 5 consecutive days) precisions reported as relative standard deviations (RSD %) were less than 5%. The accuracy of the method expressed as percentage recovery (%R) ranged from 84 to 112%. The method was applied to extract and preconcentrate MET in wastewater and river water samples. The MET was detected in greater concentrations in wastewater than in river water samples. The validation based on specificity, trueness, linearity, precision, and application to the analysis of MET in real samples showed that the combination of dSPE and HPLC-DAD methods is applicable for MET monitoring in surface water and wastewater. Furthermore, the dSPE/HPLC-DAD method was rapid, simple and suitable for estimating the concentrations of MET in South African surface water and wastewater for the first time. Lastly, the environmental risk caused by the occurrence of MET in surface water was investigated in terms of hazard quotient (HQ). The HQ values were less than unity, suggesting a low possibility risk for the aquatic organisms.
UiO-66@Fe3O4 纳米复合材料作为吸附剂在地表水和废水中二甲双胍的分散固相萃取中的应用
二甲双胍是一种降血糖药物,因其高效而被使用了几十年,是全球消费量最大的药物。因此,由于二甲双胍可能对人类健康和水生生物产生影响,对其在环境水体中的浓度进行监测非常重要。本研究报告了水体中二甲双胍(MET)的萃取、预浓缩、分离和测定。以 UiO-66@Fe3O4 纳米复合材料为吸附剂,采用分散固相萃取(dSPE)对二甲双胍进行萃取和预浓缩。高效液相色谱-二极管阵列检测器(HPLC-DAD)实现了样品中 MET 的分离和定量。实验设计用于优化 MET 提取和预浓缩过程中的影响变量。MET 的线性相关系数、检出限(LOD)和定量限(LOQ)分别为 0.5-100 μg L-1 (R2 = 0.9987)、0.16 μg L-1 和 0.53 μg L-1。以相对标准偏差(RSD %)表示的日内(n = 10 个同日重复)和日间(n = 5 个连续日)精确度均小于 5%。以回收率 (%R) 表示的方法准确度在 84% 到 112% 之间。该方法适用于提取和预浓缩废水和河水样品中的 MET。废水中 MET 的检测浓度高于河水样品。基于特异性、真实性、线性、精密度和实际样品中 MET 分析应用的验证表明,dSPE 和 HPLC-DAD 方法组合适用于地表水和废水中 MET 的监测。此外,dSPE/HPLC-DAD 方法快速、简单,首次适用于估算南非地表水和废水中 MET 的浓度。最后,从危害商数(HQ)的角度研究了地表水中出现 MET 所造成的环境风险。HQ 值小于 1,表明对水生生物的可能性风险较低。
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