Systematic study on the evaluation method of surface antibacterial activity based on the fluorescent observation of bacterial growth

Systematic study on the evaluation method of surface antibacterial activity based on the fluorescent observation of bacterial growth

Abstract Antibacterial and antiviral coating materials have attracted increasing attention for the prevention of infections caused by frequently touched surfaces in communities and hospitals. The standard assessment procedure for antibacterial surfaces involves bacterial culture on a film-covered su...

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Bibliographic Details
Main Authors: Noriko Nakamura, Tatsuki Yamagishi, Wataru Nagata, Yuki Akahane, Hyemin Seo, Ayaka Otsuka, Daiki Hishikawa, Risa Yoshimoto, Nobuhiro Miyamae, Seiichi Ohta
Format: Article
Language:English
Published: Nature Portfolio 2025-01-01
Series:Scientific Reports
Subjects:
Antibacterial activity
Bacterial growth
Fluorescent observation
in situ visualization
Online Access:https://doi.org/10.1038/s41598-024-81945-3
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Summary:Abstract Antibacterial and antiviral coating materials have attracted increasing attention for the prevention of infections caused by frequently touched surfaces in communities and hospitals. The standard assessment procedure for antibacterial surfaces involves bacterial culture on a film-covered substrate followed by transfer onto agar for colony counting (ISO22196:2011). However, this assessment lacks temporal and spatial information regarding bacterial growth, resulting in an incomplete and inaccurate evaluation of the antibacterial activity of the surface. In this study, we develop a novel evaluation procedure for antibacterial substrates that enables in situ visualization of bacterial growth on a surface with centimeter-scale spatial information using fluorescent protein-expressing bacterial cells and an image acquisition setup. The effects of equipment parameters on bacterial growth are systematically investigated to establish the standard evaluation conditions. Based on the optimized parameters, a quantitative evaluation of the antibacterial activity of the coating material is successfully demonstrated. The proposed method is expected to be useful in investigating the spatial and temporal distribution of bacterial growth on substrates.
ISSN:2045-2322

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