Rapid nanomolar detection of cocaine in biofluids by electrochemical aptamer-based sensor with low-temperature effect for drugged driving screening

Xie, Yu; Huang, Da-Dong; Xu, Ling-Feng; Wan, Ting; Cao, Yi-Jie; Salminen, Kalle; Sun, Jian-Jun

doi:10.1007/s00604-024-06599-4

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Rapid nanomolar detection of cocaine in biofluids by electrochemical aptamer-based sensor with low-temperature effect for drugged driving screening
Citation	Xie Y, Huang DD, Xu LF, Wan T, Cao YJ, Salminen K, Sun JJ. Mikrochim. Acta 2024; 191(9): e510.
Copyright	(Copyright © 2024, Holtzbrinck Springer Nature Publishing Group)
DOI	10.1007/s00604-024-06599-4
PMID	39103665
Abstract	Cocaine is one of the most abused illicit drugs, and its abuse damages the central nervous system and can even lead directly to death. Therefore, the development of simple, rapid and highly sensitive detection methods is crucial for the prevention and control of drug abuse, traffic accidents and crime. In this work, an electrochemical aptamer-based (EAB) sensor based on the low-temperature enhancement effect was developed for the direct determination of cocaine in bio-samples. The signal gain of the sensor at 10 °C was greatly improved compared to room temperature, owing to the improved affinity between the aptamer and the target. Additionally, the electroactive area of the gold electrode used to fabricate the EAB sensor was increased 20 times by a simple electrochemical roughening method. The porous electrode possesses more efficient electron transfer and better antifouling properties after roughening. These improvements enabled the sensor to achieve rapid detection of cocaine in complex bio-samples. The low detection limits (LOD) of cocaine in undiluted urine, 50% serum and 50% saliva were 70 nM, 30 nM and 10 nM, respectively, which are below the concentration threshold in drugged driving screening. The aptasensor was simple to construct and reusable, which offers potential for drugged driving screening in the real world. Keywords: Drug impaired driving Language: en
Keywords	Humans; Electrodes; Cold Temperature; Aptamers, Nucleotide/chemistry; Cocaine/urine/analysis/blood; Electrochemical Techniques/methods/instrumentation; Gold/chemistry; Limit of Detection; Substance Abuse Detection/methods; Automobile Driving; Biofluids; Biosensing Techniques/methods; Cocaine; Drugged driving screening; EAB sensor; Low-temperature enhancement effect; Porous gold electrode; Saliva/chemistry; Square wave voltammetry