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Nano-particle enhanced impedimetric biosensor for detedtion of foodborne pathogens

Authors
Kim, GiyoungMun, J.H.Om, Ae Son
Issue Date
Apr-2007
Publisher
IOP Publishing Ltd.
Citation
Journal of Physics: Conference Series, v.61, no.1, pp 555 - 559
Pages
5
Indexed
SCOPUS
Journal Title
Journal of Physics: Conference Series
Volume
61
Number
1
Start Page
555
End Page
559
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/180244
DOI
10.1088/1742-6596/61/1/112
ISSN
1742-6588
1742-6596
Abstract
Recent outbreaks of foodborne illness have been increased the need for rapid and sensitive methods for detection of these pathogens. Conventional methods for pathogens detection and identification involve prolonged multiple enrichment steps. Even though some immunological rapid assays are available, these assays still need enrichment steps result in delayed detection. Biosensors have shown great potential for rapid detection of foodborne pathogens. They are capable of direct monitoring the antigen-antibody reactions in real time. Among the biosensors, impedimetric biosensors have been widely adapted as an analysis tool for the study of various biological binding reactions because of their high sensitivity and reagentless operation. In this study a nanoparticle- enhanced impedimetric biosensor for Salmonella enteritidis detection was developed which detected impedance changes caused by the attachment of the cells to the anti-Salmonella antibodies immobilized on interdigitated gold electrodes. Successive immobilization of neutravidin followed by anti-Salmonella antibodies was performed to the sensing area to create a biological detection surface. To enhance the impedance responses generated by antigen-antibody reactions, anti-Salmonella antibody conjugated nanoparticles were introduced on the sensing area. Using a portable impedance analyzer, the impedance across the interdigital electrodes was measured after the series of antigen-antibody bindings. Bacteria cells present in solution attached to capture antibodies and became tethered to the sensor surface. Attached bacteria cells changed the dielectric constant of the media between the electrodes thereby causing a change in measured impedance. Optimum input frequency was determined by analyzing frequency characteristics of the biosensor over ranges of applied frequencies from 10 Hz to 400 Hz. At 100 Hz of input frequency, the biosensor was most sensitive to the changes of the bacteria concentration and this frequency was used for the detection experiments. The biosensor was able to detect 10 6 CFU/mL in phosphate buffered saline (PBS) with a detection time of 3 minutes. Additional use of nanoparticles significantly enhanced the detection performance. By using the nanoparticles the biosensor could detect 10 4 CFU/mL of Salmonella enteritidis in PBS and 105 CFU/mL of cells in milk.
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