Abstract
Antibiotic resistance is a major health concern of the 21st century. The misuse of antibiotics over the years has led to their increasing presence in the environment, particularly in water resources, which can exacerbate the transmission of resistance genes and facilitate the emergence of resistant microorganisms. The objective of the present work is to develop a chemosensor for screening of sulfonamides in environmental waters, targeting sulfamethoxazole as the model analyte. The methodology was based on the retention of sulfamethoxazole in disks containing polystyrene divinylbenzene sulfonated sorbent particles and reaction with p-dimethylaminocinnamaldehyde, followed by colorimetric detection using a computer-vision algorithm. Several color spaces (RGB, HSV and CIELAB) were evaluated, with the coordinate a_star, from the CIELAB color space, providing the highest sensitivity. Moreover, in order to avoid possible errors due to variations in illumination, a color palette is included in the picture of the analytical disk, and a correction using the a_star value from one of the color patches is proposed. The methodology presented recoveries of 82–101% at 0.1 µg and 0.5 µg of sulfamethoxazole (25 mL), providing a detection limit of 0.08 µg and a quantification limit of 0.26 µg. As a proof of concept, application to in-field analysis was successfully implemented.
Highlights
Antimicrobial agents are considered emerging pollutants in water due to their contribution to the spread of bacterial resistance genes and their harmful effect to ecosystems through death or inhibition of natural microbiota [1]
Sulfonamides comprise an important antimicrobial group and are widely used in treatment of bacterial infections both in human and in animals being raised for consumption, and are among the most-consumed antibiotics in food-producing species [2]
Detection of sulfonamides in water matrices are demanded to assess their impact on the aquatic environment in order to establish action plans and regulatory policies
Summary
Antimicrobial agents are considered emerging pollutants in water due to their contribution to the spread of bacterial resistance genes and their harmful effect to ecosystems through death or inhibition of natural microbiota [1]. Sulfonamides comprise an important antimicrobial group and are widely used in treatment of bacterial infections both in human and in animals being raised for consumption, and are among the most-consumed antibiotics in food-producing species [2]. These compounds and their metabolites are frequently found in environmental water, and they can reach the aquatic medium through different pathways, such as wastewater discharges, contaminated manure and slurry [3].
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