Label-free bimodal waveguide immunosensor for rapid diagnosis of bacterial infections in cirrhotic patients

Label-free bimodal waveguide immunosensor for rapid diagnosis of bacterial infections in cirrhotic patients

Spontaneous bacterial peritonitis is an acute bacterial infection of ascitic fluid; it has a high incidence in cirrhotic patients and it is associated with high mortality. In such a situation, early diagnosis and treatment is crucial for the survival of the patient. However, bacterial analysis in as...

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Veröffentlicht in:Biosensors & bioelectronics 2016-11, Vol.85, p.310-316
Hauptverfasser: Maldonado, Jesús, González-Guerrero, Ana Belén, Domínguez, Carlos, Lechuga, Laura M.
Format: Artikel
Sprache:eng
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Ascitic fluid
Ascitic Fluid - microbiology
Bacillus Cereus
Bacillus cereus - isolation & purification
Bacteria
Bacteria - isolation & purification
Bacterial Infections - complications
Bacterial Infections - diagnosis
Bimodal waveguide biosensor
Biosensing Techniques - instrumentation
Biosensors
Devices
Diagnosis
Equipment Design
Escherichia coli
Escherichia coli - isolation & purification
Escherichia coli Infections - complications
Escherichia coli Infections - diagnosis
Fluids
Humans
Immunoassay - instrumentation
Interferometry - instrumentation
Label-free immunoassay
Limit of Detection
Liver - microbiology
Liver Cirrhosis - complications
Liver Cirrhosis - microbiology
Patients
Waveguides
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container_start_page 310
container_title Biosensors & bioelectronics
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creator Maldonado, Jesús
González-Guerrero, Ana Belén
Domínguez, Carlos
Lechuga, Laura M.
description Spontaneous bacterial peritonitis is an acute bacterial infection of ascitic fluid; it has a high incidence in cirrhotic patients and it is associated with high mortality. In such a situation, early diagnosis and treatment is crucial for the survival of the patient. However, bacterial analysis in ascitic fluid is currently based on culture methods, which are time-consuming and laborious. We report here the application of a photonic interferometer biosensor based on a bimodal waveguide (BiMW) for the rapid and label-free detection of bacteria directly in ascitic fluid. The device consists of a straight waveguide in which two modes of the same polarization interfere while interacting with the external medium through their evanescent fields. A bimolecular event occurring on the sensor area of the device (e.g. capturing bacteria) will differently affect each light mode, inducing a variation in the phase of the light exiting at the output of the waveguide. In this work, we demonstrate the quantitative detection of Bacillus cereus in buffer medium and Escherichia coli in undiluted ascitic fluid from cirrhotic patients. In the case of Bacillus cereus detection, the device was able to specifically detect bacteria at relevant concentrations in 12.5min and in the case of Escherichia coli detection, the analysis time was 25min. Extrapolation of the data demonstrated that the detection limits of the biosensor could reach few bacteria per milliliter. Based on the results obtained, we consider that the BiMW biosensor is positioned as a promising new clinical tool for user-friendly, cost-effective and real-time microbiological analysis. •An integrated interferometric device has been employed to directly detect bacteria in real-time and by a label-free format.•The surface biofunctionalisation has been tailored to allow E. coli detection in 100% human ascitic fluid.•The detection of E. coli in real ascitic fluid has been achieved with a theoretical detection limit of 4cfumL−1.
doi_str_mv 10.1016/j.bios.2016.04.095
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In such a situation, early diagnosis and treatment is crucial for the survival of the patient. However, bacterial analysis in ascitic fluid is currently based on culture methods, which are time-consuming and laborious. We report here the application of a photonic interferometer biosensor based on a bimodal waveguide (BiMW) for the rapid and label-free detection of bacteria directly in ascitic fluid. The device consists of a straight waveguide in which two modes of the same polarization interfere while interacting with the external medium through their evanescent fields. A bimolecular event occurring on the sensor area of the device (e.g. capturing bacteria) will differently affect each light mode, inducing a variation in the phase of the light exiting at the output of the waveguide. In this work, we demonstrate the quantitative detection of Bacillus cereus in buffer medium and Escherichia coli in undiluted ascitic fluid from cirrhotic patients. In the case of Bacillus cereus detection, the device was able to specifically detect bacteria at relevant concentrations in 12.5min and in the case of Escherichia coli detection, the analysis time was 25min. Extrapolation of the data demonstrated that the detection limits of the biosensor could reach few bacteria per milliliter. 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source MEDLINE; Elsevier ScienceDirect Journals
subjects Ascitic fluid
Ascitic Fluid - microbiology
Bacillus Cereus
Bacillus cereus - isolation & purification
Bacteria
Bacteria - isolation & purification
Bacterial Infections - complications
Bacterial Infections - diagnosis
Bimodal waveguide biosensor
Biosensing Techniques - instrumentation
Biosensors
Devices
Diagnosis
Equipment Design
Escherichia coli
Escherichia coli - isolation & purification
Escherichia coli Infections - complications
Escherichia coli Infections - diagnosis
Fluids
Humans
Immunoassay - instrumentation
Interferometry - instrumentation
Label-free immunoassay
Limit of Detection
Liver - microbiology
Liver Cirrhosis - complications
Liver Cirrhosis - microbiology
Patients
Waveguides
title Label-free bimodal waveguide immunosensor for rapid diagnosis of bacterial infections in cirrhotic patients
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