Proceedings Paper
Escherichia coli biosensors for environmental, food industry and biological warfare agent detection| Format | Member Price | Non-Member Price |
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Paper Abstract
This work has the objective to research and develop a plastic optical fiber biosensor based taper and mPOF LPG techniques to detect Escherichia coli by measurements of index of refraction. Generally, cell detection is crucial in microbiological analysis of clinical, food, water or environmental samples. However, methods current employed are time consuming, taking at least 72 hours in order to produce reliable responses as they depend on sample collection and cell culture in controlled conditions. The delay in obtaining the results of the analysis can result in contamination of a great number of consumers. Plastic Optical Fiber (POF) biosensors consist in a viable alternative for rapid and inexpensive scheme for cells detection. A study the sensitivity of these sensors for microbiological detection, fiber Tapers and Long Period Grating (LPG) both in poly-methyl-methacrylate (PMMA) were realized as possible candidates to take part of a biosensor system to detect Escherichia coli in water samples. In this work we adopted the immunocapture technique, which consists of quantifying bacteria in a liquid sample, attract-ing and fixing the bacteria on the surface of the polymer optical fiber, by the antigen-antibody reaction. The results were obtained by optical setup that consists in a side of the fiber a LED coupled to a photodetector through a POF with the taper in the middle of it. On the other side of the POF a photodetector receives this light producting a photocurrent. The output voltage is fed into the microcontroller A/D input port and its output data is sent via USB to a LabView software running in a microcomputer. The results showed the possibility of the POF in biosensor application capable to detect E. coli for environmental and food industry and for detecting and identifying biological-warfare agents using a very rapid response sensor, applicable to field detection prototypes.
Paper Details
Date Published: 3 June 2013
PDF: 8 pages
Proc. SPIE 8722, Fiber Optic Sensors and Applications X, 87220Q (3 June 2013); doi: 10.1117/12.2016269
Published in SPIE Proceedings Vol. 8722:
Fiber Optic Sensors and Applications X
Eric Udd; Gary Pickrell; Henry H. Du; Jerry J. Benterou; Xudong Fan; Alexis Mendez; Stephen J. Mihailov; Anbo Wang; Hai Xiao, Editor(s)
PDF: 8 pages
Proc. SPIE 8722, Fiber Optic Sensors and Applications X, 87220Q (3 June 2013); doi: 10.1117/12.2016269
Show Author Affiliations
R. C. S. B. Allil, Brazilian Army Technological Ctr. (Brazil)
Univ. Federal do Rio de Janeiro (Brazil)
M. M. Werneck, Brazilian Army Technological Ctr. (Brazil)
J. L. da Silva-Neto, Brazilian Army Technological Ctr. (Brazil)
M. A. L. Miguel, Univ. Federal do Rio de Janiero (Brazil)
Univ. Federal do Rio de Janeiro (Brazil)
M. M. Werneck, Brazilian Army Technological Ctr. (Brazil)
J. L. da Silva-Neto, Brazilian Army Technological Ctr. (Brazil)
M. A. L. Miguel, Univ. Federal do Rio de Janiero (Brazil)
D. M. C. Rodrigues, Brazilian Army Technological Ctr. (Brazil)
G. L. Wandermur, Brazilian Army Technological Ctr. (Brazil)
Univ. Federal do Rio de Janiero (Brazil)
D. C. Rambauske, Univ. Federal do Rio de Janiero (Brazil)
G. L. Wandermur, Brazilian Army Technological Ctr. (Brazil)
Univ. Federal do Rio de Janiero (Brazil)
D. C. Rambauske, Univ. Federal do Rio de Janiero (Brazil)
Published in SPIE Proceedings Vol. 8722:
Fiber Optic Sensors and Applications X
Eric Udd; Gary Pickrell; Henry H. Du; Jerry J. Benterou; Xudong Fan; Alexis Mendez; Stephen J. Mihailov; Anbo Wang; Hai Xiao, Editor(s)
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