# Rapid and cost-effective evaluation of bacterial viability using   fluorescence spectroscopy

**Authors:** Fang Ou, Cushla McGoverin, Simon Swift, Fr\'ed\'erique Vanholsbeeck

arXiv: 1901.07637 · 2019-01-24

## TL;DR

This study presents a rapid, cost-effective fluorescence spectroscopy method using an optrode and multi-spectra support vector regression to accurately determine bacterial viability in samples, facilitating quick assessments in microbiology.

## Contribution

The paper introduces a novel combination of fluorescence spectroscopy with multi-spectra SVR and an optrode device for efficient bacterial viability analysis, improving accuracy over traditional methods.

## Key findings

- Multi-spectra SVR reliably predicts bacterial viability percentages.
- The optrode provides a cost-effective, convenient platform for fluorescence spectral analysis.
- The method works effectively across different bacterial concentrations.

## Abstract

The fluorescence spectra of bacterial samples stained with SYTO 9 and propidium iodide (PI) were used to monitor bacterial viability. Stained mixtures of live and dead Escherichia coli with proportions of live:dead cells varying from 0 to 100% were measured using the optrode, a cost effective and convenient fibre-based spectroscopic device. We demonstrated several approaches to obtaining the proportions of live:dead E. coli in a mixture of both live and dead, from analyses of the fluorescence spectra collected by the optrode. To find a suitable technique for predicting the percentage of live bacteria in a sample, four analysis methods were assessed and compared: SYTO 9:PI fluorescence intensity ratio, an adjusted fluorescence intensity ratio, single-spectrum support vector regression (SVR) and multi-spectra SVR. Of the four analysis methods, multi-spectra SVR obtained the most reliable results and was able to predict the percentage of live bacteria in 10^8 bacteria/mL samples between c. 7% and 100% live, and in 10^7 bacteria/mL samples between c. 7% and 73% live. By demonstrating the use of multi-spectra SVR and the optrode to monitor E. coli viability, we raise points of consideration for spectroscopic analysis of SYTO 9 and PI and aim to lay the foundation for future work that use similar methods for different bacterial species.

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Source: https://tomesphere.com/paper/1901.07637