Rapid and sensitive detection of campylobacter jejuni in poultry products using a nanoparticle-Based piezoelectric immunosensor integrated with magnetic immunoseparation

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Abstract

Campylobacter jejuni is one of the leading causes of foodborne human gastrointestinal diseases. Poultry and poultry products have been identified as the major transmission routes to humans for this pathogenic bacterium. The objective of this research was to develop a rapid and sensitive immunosensor for detection of C. jejuni in poultry products on the basis of a quartz crystal microbalance (QCM) using magnetic nanobeads (MNBs) for separation of target pathogen and gold nanoparticles for amplification of the measurement. A QCM sensor in a flow cell was prepared by immobilizing the mouse anti–C. jejuni monoclonal antibody (mAb1) on the sensor surface to specifically capture C. jejuni. Rabbit anti–C. jejuni polyclonal antibody (pAb1) was conjugated with MNBs to capture and separate C. jejuni from food matrices. MNB–pAb1–C. jejuni complexes were injected into the flow cell to bind with the mAb1 immobilized on the QCM sensor surface. Goat anti-rabbit immunoglobulin G polyclonal antibody conjugated with gold nanoparticles was injected into the flow cell to bind with pAb1 on MNBs. Finally, resonant frequency was measured with a QCM analyzer, and the change in resonant frequency was correlated to the cell number of C. jejuni. The specificity of this immunosensor was confirmed with different strains of Campylobacter, Salmonella, and other foodborne pathogens commonly colonized in the broiler gastrointestinal tract. Samples of broiler carcass wash and ground Turkey were spiked with C. jejuni at different concentrations for use in tests. Results showed that the QCM immunosensor could rapidly detect C. jejuni in poultry products, with a detection limit of 20 to 30 CFU/mL without preenrichment, and a total detection time of less than 30 min. Characteristics of C. jejuni captured by the antibody immobilized on the surface of the QCM sensor were visualized by using atomic force microscopy. This highly adaptive and flexible method could provide the poultry industry a more rapid, sensitive, and effective method for detection of major foodborne pathogens in poultry products.

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APA

Wang, H., Wang, L., Hu, Q., Wang, R., Li, Y., & Kidd, M. (2018). Rapid and sensitive detection of campylobacter jejuni in poultry products using a nanoparticle-Based piezoelectric immunosensor integrated with magnetic immunoseparation. Journal of Food Protection, 81(8), 1321–1330. https://doi.org/10.4315/0362-028X.JFP-17-381

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