Combined Dielectrophoresis and Impedance Systems for Bacteria Analysis in Microfluidic On-Chip Platforms

Bacteria concentration and detection is time-consuming in regular microbiology procedures aimed to facilitate the detection and analysis of these cells at very low concentrations. Traditional methods are effective but often require several days to complete. This scenario results in low bioanalytical...

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Published inSensors (Basel, Switzerland) Vol. 16; no. 9; p. 1514
Main Authors Páez-Avilés, Cristina, Juanola-Feliu, Esteve, Punter-Villagrasa, Jaime, Del Moral Zamora, Beatriz, Homs-Corbera, Antoni, Colomer-Farrarons, Jordi, Miribel-Català, Pere Lluís, Samitier, Josep
Format Journal Article
LanguageEnglish
Published Switzerland MDPI 16.09.2016
MDPI AG
Subjects
Bacteria
Bacteria - metabolism
Bacteris
Buffers
dielectrophoresis
Electric Impedance
impedance
Impedance (Electricity)
Impedància (Electricitat)
Lab-On-A-Chip Devices
Microfluidic Analytical Techniques - instrumentation
Microfluidics
Microfluídica
on-chip
Review
Sistema monoxip
Systems on a chip
Technology Transfer
dielectrophoresis
impedance
on-chip
bacteria
microfluidics
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Summary:Bacteria concentration and detection is time-consuming in regular microbiology procedures aimed to facilitate the detection and analysis of these cells at very low concentrations. Traditional methods are effective but often require several days to complete. This scenario results in low bioanalytical and diagnostic methodologies with associated increased costs and complexity. In recent years, the exploitation of the intrinsic electrical properties of cells has emerged as an appealing alternative approach for concentrating and detecting bacteria. The combination of dielectrophoresis (DEP) and impedance analysis (IA) in microfluidic on-chip platforms could be key to develop rapid, accurate, portable, simple-to-use and cost-effective microfluidic devices with a promising impact in medicine, public health, agricultural, food control and environmental areas. The present document reviews recent DEP and IA combined approaches and the latest relevant improvements focusing on bacteria concentration and detection, including selectivity, sensitivity, detection time, and conductivity variation enhancements. Furthermore, this review analyses future trends and challenges which need to be addressed in order to successfully commercialize these platforms resulting in an adequate social return of public-funded investments.
ISSN:1424-8220
1424-8220
DOI:10.3390/s16091514