SERS-CNN approach for non-invasive and non-destructive monitoring of stem cell growth on a universal substrate through an analysis of the cultivation medium

The development of advanced methods of SERS-CNN data analysis seems to provide a perfect analytical system that is capable of solving the sophisticated task of determining the species and the behavior of microorganisms. Unlike the widely-used analytical approach, machine learning allows precise anal...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2023-01, Vol.375, p.132812, Article 132812
Main Authors: Skvortsova, Anastasia, Trelin, Andrii, Sedlar, Antonin, Erzina, Mariia, Travnickova, Martina, Svobodova, Lucie, Kolska, Zdenka, Siegel, Jakub, Bacakova, Lucie, Svorcik, Vaclav, Lyutakov, Oleksiy
Format: Article
Language:English
Subjects:
Artificial intelligence
Non-invasive detection
SERS
Stem cells
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Summary:The development of advanced methods of SERS-CNN data analysis seems to provide a perfect analytical system that is capable of solving the sophisticated task of determining the species and the behavior of microorganisms. Unlike the widely-used analytical approach, machine learning allows precise analysis even of very complex spectra of biological samples, and can provide precise decisions for a specific biochemical or microbiological task. In this article, we show for the first time the utilization of the SERS–CNN approach for remote observation of mesenchymal stem cell behavior. Our approach is based on SERS measurements of the biochemical changes taking place in the surrounding culture media due to stem cell proliferation and their biochemical activity. The cells were cultivated on various substrates supporting random or oriented cell growth, and also on “surface-toxic” substrates. SERS-CNN analysis reveals the ability to perform “remote” non-invasive estimation (i.e. using the surrounding medium analysis) of the degree of cell survival and the proliferation rate, using Raman measurements and advanced spectra data processing. It should be noted that the proposed approach makes it possible to analyze cell behavior without disrupting cell growth, and it can also be performed by untrained staff with the use of widely-available equipment. [Display omitted] •The utilization of the SERS–CNN approach for remote observation of mesenchymal stem cell behavior is demonstrated.•SERS-CNN analysis reveals the ability to perform “remote” estimation of cells survival and the proliferation rates.•The proposed approach was universal, directly related to the number of cells, and was insensitive to the type of substrate morphology or substrate chemistry.•The cell behavior can be monitored without disrupting cell growth, and it can also be performed by untrained staff with widely-available equipment.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2022.132812