Microfluidic bioanalytical system for biofilm formation indication

Microfluidic bioanalytical system for biofilm formation indication

The formation of biofilms is a key factor that researchers must consider when they work with bacterial cultures. We describe a new microfluidic bioanalytical sensory system for indicating biofilm formation. The method is demonstrated with Pseudomonas bacteria as an example and is based on the real–t...

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Bibliographic Details
Published in:Talanta (Oxford) Vol. 247; p. 123541
Main Authors: Guliy, Olga I., Evstigneeva, Stella S., Bunin, Victor D.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-09-2022
Subjects:
Bacterial cells
Bioanalytical sensory system
Biofilm bacteria
Planktonic bacteria
Planktonic bacteria
Biofilm bacteria
Bioanalytical sensory system
Bacterial cells
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Summary:The formation of biofilms is a key factor that researchers must consider when they work with bacterial cultures. We describe a new microfluidic bioanalytical sensory system for indicating biofilm formation. The method is demonstrated with Pseudomonas bacteria as an example and is based on the real–time recording of cell–polarizability changes caused by an alternating electric field. Control experiments using phase–contrast microscopy and traditional microbiological plating were done that proved biofilms had formed. The physical picture was described of the sensor–signal changes during cell transition from planktonic to biofilm growth. This transition was indicated by the appearance of a peak–shaped signal at 500 kHz and by an increase in the recorded relaxation time. Phenomena of increase in the signal relaxation time from 2.4 s for planktonic to 25.4 s for biofilm cells. The proposed microfluidic sensor system for indicating biofilm formation holds much promise, because it ensures an analysis time of about 20–30 min. An added bonus is that for this system there is no need to grow bacterial biofilms in a sensor and the flow cell is reusable. [Display omitted] •For the first time sensor microfluidic system for biofilm formation indication was development.•Real-time biofilm formation recording by cell-polarizability changes are shown.•Special points of combined changes of bacterial biofilm formation were found.•Phenomena of increase in the signal relaxation time for biofilms were revealed.•Validated microfluidic system assays with an ∼20–30 min analysis time for biofilm formation indication.
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ISSN:0039-9140
1873-3573
DOI:10.1016/j.talanta.2022.123541