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Applied Methods to Assess the Antimicrobial Activity of Metallic-Based Nanoparticles

With the rise of antibiotic resistance, the drive to discover novel antimicrobial substances and standard testing methods with the aim of controlling transmissive diseases are substantially high. In healthcare sectors and industries, although methods for testing antibiotics and other aqueous-based r...

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Autores principales: Chung, Etelka, Ren, Guogang, Johnston, Ian, Matharu, Rupy Kaur, Ciric, Lena, Walecka, Agnieszka, Cheong, Yuen-Ki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10669044/
https://www.ncbi.nlm.nih.gov/pubmed/38002383
http://dx.doi.org/10.3390/bioengineering10111259
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author Chung, Etelka
Ren, Guogang
Johnston, Ian
Matharu, Rupy Kaur
Ciric, Lena
Walecka, Agnieszka
Cheong, Yuen-Ki
author_facet Chung, Etelka
Ren, Guogang
Johnston, Ian
Matharu, Rupy Kaur
Ciric, Lena
Walecka, Agnieszka
Cheong, Yuen-Ki
author_sort Chung, Etelka
collection PubMed
description With the rise of antibiotic resistance, the drive to discover novel antimicrobial substances and standard testing methods with the aim of controlling transmissive diseases are substantially high. In healthcare sectors and industries, although methods for testing antibiotics and other aqueous-based reagents are well established, methods for testing nanomaterials, non-polar and other particle-based suspensions are still debatable. Hence, utilities of ISO standard validations of such substances have been recalled where corrective actions had to be taken. This paper reports a serial analysis obtained from testing the antimicrobial activities of 10 metallic-based nanomaterials against 10 different pathogens using five different in vitro assays, where the technique, limitation and robustness of each method were evaluated. To confirm antimicrobial activities of metallic-based nanomaterial suspensions, it was found that at least two methods must be used, one being the agar well diffusion method, which was found to be the most reliable method. The agar well diffusion method provided not only information on antimicrobial efficacy through the size of the inhibitory zones, but it also identified antimicrobial ions and synergistic effects released by the test materials. To ascertain the effective inhibitory concentration of nanoparticles, the resazurin broth dilution method is recommended, as MIC can be determined visually without utilising any equipment. This method also overcomes the limit of detection (LoD) and absorbance interference issues, which are often found in the overexpression of cell debris and nanoparticles or quantum dots with optical profiles. In this study, bimetallic AgCu was found to be the most effective antimicrobial nanoparticle tested against across the bacterial (MIC 7 µg/mL) and fungal (MIC 62.5 µg/mL) species.
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spelling pubmed-106690442023-10-28 Applied Methods to Assess the Antimicrobial Activity of Metallic-Based Nanoparticles Chung, Etelka Ren, Guogang Johnston, Ian Matharu, Rupy Kaur Ciric, Lena Walecka, Agnieszka Cheong, Yuen-Ki Bioengineering (Basel) Article With the rise of antibiotic resistance, the drive to discover novel antimicrobial substances and standard testing methods with the aim of controlling transmissive diseases are substantially high. In healthcare sectors and industries, although methods for testing antibiotics and other aqueous-based reagents are well established, methods for testing nanomaterials, non-polar and other particle-based suspensions are still debatable. Hence, utilities of ISO standard validations of such substances have been recalled where corrective actions had to be taken. This paper reports a serial analysis obtained from testing the antimicrobial activities of 10 metallic-based nanomaterials against 10 different pathogens using five different in vitro assays, where the technique, limitation and robustness of each method were evaluated. To confirm antimicrobial activities of metallic-based nanomaterial suspensions, it was found that at least two methods must be used, one being the agar well diffusion method, which was found to be the most reliable method. The agar well diffusion method provided not only information on antimicrobial efficacy through the size of the inhibitory zones, but it also identified antimicrobial ions and synergistic effects released by the test materials. To ascertain the effective inhibitory concentration of nanoparticles, the resazurin broth dilution method is recommended, as MIC can be determined visually without utilising any equipment. This method also overcomes the limit of detection (LoD) and absorbance interference issues, which are often found in the overexpression of cell debris and nanoparticles or quantum dots with optical profiles. In this study, bimetallic AgCu was found to be the most effective antimicrobial nanoparticle tested against across the bacterial (MIC 7 µg/mL) and fungal (MIC 62.5 µg/mL) species. MDPI 2023-10-28 /pmc/articles/PMC10669044/ /pubmed/38002383 http://dx.doi.org/10.3390/bioengineering10111259 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Chung, Etelka
Ren, Guogang
Johnston, Ian
Matharu, Rupy Kaur
Ciric, Lena
Walecka, Agnieszka
Cheong, Yuen-Ki
Applied Methods to Assess the Antimicrobial Activity of Metallic-Based Nanoparticles
title Applied Methods to Assess the Antimicrobial Activity of Metallic-Based Nanoparticles
title_full Applied Methods to Assess the Antimicrobial Activity of Metallic-Based Nanoparticles
title_fullStr Applied Methods to Assess the Antimicrobial Activity of Metallic-Based Nanoparticles
title_full_unstemmed Applied Methods to Assess the Antimicrobial Activity of Metallic-Based Nanoparticles
title_short Applied Methods to Assess the Antimicrobial Activity of Metallic-Based Nanoparticles
title_sort applied methods to assess the antimicrobial activity of metallic-based nanoparticles
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10669044/
https://www.ncbi.nlm.nih.gov/pubmed/38002383
http://dx.doi.org/10.3390/bioengineering10111259
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