Development and validation of an imprinted polymer based DGT for monitoring β-blocker drugs in wastewater surveillance

Li, Y. and Wu, M. and Yin, X. and Wang, Y. and Tan, D. and Zhang, P. and Zhou, Z. and Wang, D. and Jones, K.C. and Zhang, H. (2024) Development and validation of an imprinted polymer based DGT for monitoring β-blocker drugs in wastewater surveillance. Journal of Hazardous Materials, 479: 135753. ISSN 0304-3894

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Abstract

Wastewater surveillance is an effective and objective approach to monitor contaminant releases and drug usage in the catchment, the estimation requires accurate measurement. In this study, a novel diffusive gradients in thin-film (DGT) technique based on molecularly imprinted polymers (MIPs) for selective measurement of a class of widely prescribed cardiovascular drugs (β-blockers) in wastewater was developed. The synthesized MIPs showed strong affinity and selectivity for the target compounds. The MIP-DGT had large effective capacities, its performance was independent of a wide range of environmental conditions, including pH (4.58 – 8.89), ionic strength (0.01 – 0.5 M) and dissolved organic matter (< 20 mg L −1). Biofouling had little effect on the uptake of target compounds within 7 days. MIP-DGT devices were applied in a Chinese urban WWTP alongside an auto-sampler. Metoprolol concentrations detected were much higher than other β-blockers. Concentrations obtained using MIP-DGT were comparable to the 24 h composite samples using an autosampler. The estimated daily consumption calculated based on the data obtained with MIP-DGT implied that metoprolol and propranolol were the most popular β-blockers in the studied area. Overall, the results in this study demonstrate that the MIP-DGT is a cost-effective, reliable and efficient tool for in situ wastewater monitoring.