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Advances in Biosensors for the Rapid Detection of Marine Biotoxins: Current Status and Future Perspectives
Summary
This review covers advances in biosensor technology for rapidly detecting marine biotoxins, which are harmful substances produced by marine organisms that threaten both ecosystems and human health through contaminated seafood. While focused on biotoxins rather than microplastics, the optical, electrochemical, and piezoelectric sensor technologies described could be adapted for microplastic detection. Better rapid-testing tools are essential for monitoring the safety of seafood, which is a known pathway for both biotoxins and microplastics to reach humans.
Marine biotoxins (MBs), harmful metabolites of marine organisms, pose a significant threat to marine ecosystems and human health due to their diverse composition and widespread occurrence. Consequently, rapid and efficient detection technology is crucial for maintaining marine ecosystem and human health. In recent years, rapid detection technology has garnered considerable attention for its pivotal role in identifying MBs, with advancements in sensitivity, specificity, and accuracy. These technologies offer attributes such as speed, high throughput, and automation, thereby meeting detection requirements across various scenarios. This review provides an overview of the classification and risks associated with MBs. It briefly outlines the current research status of marine biotoxin biosensors and introduces the fundamental principles, advantages, and limitations of optical, electrochemical, and piezoelectric biosensors. Additionally, the review explores the current applications in the detection of MBs and presents forward-looking perspectives on their development, which aims to be a comprehensive resource for the design and implementation of tailored biosensors for effective MB detection.
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