Study of the Relation between the Resonance Behavior of Thickness Shear Mode (TSM) Sensors and the Mechanical Characteristics of Biofilms

Study of the Relation between the Resonance Behavior of Thickness Shear Mode (TSM) Sensors and the Mechanical Characteristics of Biofilms

This work analyzes some key aspects of the behavior of sensors based on piezoelectric Thickness Shear Mode (TSM) resonators to study and monitor microbial biofilms. The operation of these sensors is based on the analysis of their resonance properties (both resonance frequency and dissipation factor)...

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Main Authors: Pedro Castro, Luis Elvira, Juan Ramón Maestre, Francisco Montero de Espinosa
Format: Article
Language:English
Published: MDPI AG 2017-06-01
Series:Sensors
Subjects:
TSM sensor
QCM
AT-cut quartz crystal
biofilm
semi-infinite layer
mechanical characterization
shear modulus
S. epidermidis
E. coli
micro-rheological technique
Online Access:http://www.mdpi.com/1424-8220/17/6/1395
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spelling doaj-22a66394f8ce46e19d5ca313629331152020-11-24T21:55:13ZengMDPI AGSensors1424-82202017-06-01176139510.3390/s17061395s17061395Study of the Relation between the Resonance Behavior of Thickness Shear Mode (TSM) Sensors and the Mechanical Characteristics of BiofilmsPedro Castro0Luis Elvira1Juan Ramón Maestre2Francisco Montero de Espinosa3Institute of Physical and Information Technologies, CSIC, C/Serrano, 144, 28006 Madrid, SpainInstitute of Physical and Information Technologies, CSIC, C/Serrano, 144, 28006 Madrid, SpainServicio de Microbiología Clínica, Hospital Central de la Defensa Gómez-Ulla, Glorieta del Ejército, s/n, 28047 Madrid, SpainInstitute of Physical and Information Technologies, CSIC, C/Serrano, 144, 28006 Madrid, SpainThis work analyzes some key aspects of the behavior of sensors based on piezoelectric Thickness Shear Mode (TSM) resonators to study and monitor microbial biofilms. The operation of these sensors is based on the analysis of their resonance properties (both resonance frequency and dissipation factor) that vary in contact with the analyzed sample. This work shows that different variations during the microorganism growth can be detected by the sensors and highlights which of these changes are indicative of biofilm formation. TSM sensors have been used to monitor in real time the development of Staphylococcus epidermidis and Escherichia coli biofilms, formed on the gold electrode of the quartz crystal resonators, without any coating. Strains with different ability to produce biofilm have been tested. It was shown that, once a first homogeneous adhesion of bacteria was produced on the substrate, the biofilm can be considered as a semi-infinite layer and the quartz sensor reflects only the viscoelastic properties of the region immediately adjacent to the resonator, not being sensitive to upper layers of the biofilm. The experiments allow the microrheological evaluation of the complex shear modulus (G* = G′ + jG″) of the biofilm at 5 MHz and at 15 MHz, showing that the characteristic parameter that indicates the adhesion of a biofilm for the case of S. epidermidis and E. coli, is an increase in the resonance frequency shift of the quartz crystal sensor, which is connected with an increase of the real shear modulus, related to the elasticity or stiffness of the layer. In addition both the real and the imaginary shear modulus are frequency dependent at these high frequencies in biofilms.http://www.mdpi.com/1424-8220/17/6/1395TSM sensorQCMAT-cut quartz crystalbiofilmsemi-infinite layermechanical characterizationshear modulusS. epidermidisE. colimicro-rheological technique
collection DOAJ
language English
format Article
sources DOAJ
author Pedro Castro
Luis Elvira
Juan Ramón Maestre
Francisco Montero de Espinosa
spellingShingle Pedro Castro
Luis Elvira
Juan Ramón Maestre
Francisco Montero de Espinosa
Study of the Relation between the Resonance Behavior of Thickness Shear Mode (TSM) Sensors and the Mechanical Characteristics of Biofilms
Sensors
TSM sensor
QCM
AT-cut quartz crystal
biofilm
semi-infinite layer
mechanical characterization
shear modulus
S. epidermidis
E. coli
micro-rheological technique
author_facet Pedro Castro
Luis Elvira
Juan Ramón Maestre
Francisco Montero de Espinosa
author_sort Pedro Castro
title Study of the Relation between the Resonance Behavior of Thickness Shear Mode (TSM) Sensors and the Mechanical Characteristics of Biofilms
title_short Study of the Relation between the Resonance Behavior of Thickness Shear Mode (TSM) Sensors and the Mechanical Characteristics of Biofilms
title_full Study of the Relation between the Resonance Behavior of Thickness Shear Mode (TSM) Sensors and the Mechanical Characteristics of Biofilms
title_fullStr Study of the Relation between the Resonance Behavior of Thickness Shear Mode (TSM) Sensors and the Mechanical Characteristics of Biofilms
title_full_unstemmed Study of the Relation between the Resonance Behavior of Thickness Shear Mode (TSM) Sensors and the Mechanical Characteristics of Biofilms
title_sort study of the relation between the resonance behavior of thickness shear mode (tsm) sensors and the mechanical characteristics of biofilms
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2017-06-01
description This work analyzes some key aspects of the behavior of sensors based on piezoelectric Thickness Shear Mode (TSM) resonators to study and monitor microbial biofilms. The operation of these sensors is based on the analysis of their resonance properties (both resonance frequency and dissipation factor) that vary in contact with the analyzed sample. This work shows that different variations during the microorganism growth can be detected by the sensors and highlights which of these changes are indicative of biofilm formation. TSM sensors have been used to monitor in real time the development of Staphylococcus epidermidis and Escherichia coli biofilms, formed on the gold electrode of the quartz crystal resonators, without any coating. Strains with different ability to produce biofilm have been tested. It was shown that, once a first homogeneous adhesion of bacteria was produced on the substrate, the biofilm can be considered as a semi-infinite layer and the quartz sensor reflects only the viscoelastic properties of the region immediately adjacent to the resonator, not being sensitive to upper layers of the biofilm. The experiments allow the microrheological evaluation of the complex shear modulus (G* = G′ + jG″) of the biofilm at 5 MHz and at 15 MHz, showing that the characteristic parameter that indicates the adhesion of a biofilm for the case of S. epidermidis and E. coli, is an increase in the resonance frequency shift of the quartz crystal sensor, which is connected with an increase of the real shear modulus, related to the elasticity or stiffness of the layer. In addition both the real and the imaginary shear modulus are frequency dependent at these high frequencies in biofilms.
topic TSM sensor
QCM
AT-cut quartz crystal
biofilm
semi-infinite layer
mechanical characterization
shear modulus
S. epidermidis
E. coli
micro-rheological technique
url http://www.mdpi.com/1424-8220/17/6/1395
work_keys_str_mv AT pedrocastro studyoftherelationbetweentheresonancebehaviorofthicknessshearmodetsmsensorsandthemechanicalcharacteristicsofbiofilms
AT luiselvira studyoftherelationbetweentheresonancebehaviorofthicknessshearmodetsmsensorsandthemechanicalcharacteristicsofbiofilms
AT juanramonmaestre studyoftherelationbetweentheresonancebehaviorofthicknessshearmodetsmsensorsandthemechanicalcharacteristicsofbiofilms
AT franciscomonterodeespinosa studyoftherelationbetweentheresonancebehaviorofthicknessshearmodetsmsensorsandthemechanicalcharacteristicsofbiofilms
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