Heavy Metal (Arsenic) Induced Antibiotic Resistance among Extended-Spectrum β-Lactamase (ESBL) Producing Bacteria of Nosocomial Origin

Antimicrobial resistance (AMR) is a leading cause of treatment failure for many infectious diseases worldwide. Improper overdosing and the misuse of antibiotics contributes significantly to the emergence of drug-resistant bacteria. The co-contamination of heavy metals and antibiotic compounds existi...

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Autores principales: Ahmed, Naveed, Tahir, Kinza, Aslam, Sara, Cheema, Sara Masood, Rabaan, Ali A., Turkistani, Safaa A., Garout, Mohammed, Halwani, Muhammad A., Aljeldah, Mohammed, Al Shammari, Basim R., Sabour, Amal A., Alshiekheid, Maha A., Alshamrani, Saleh A., Azmi, Reyouf Al, Al-Absi, Ghadeer H., Zeb, Shah, Yean, Chan Yean
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9692669/
https://www.ncbi.nlm.nih.gov/pubmed/36422556
http://dx.doi.org/10.3390/ph15111426
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author Ahmed, Naveed
Tahir, Kinza
Aslam, Sara
Cheema, Sara Masood
Rabaan, Ali A.
Turkistani, Safaa A.
Garout, Mohammed
Halwani, Muhammad A.
Aljeldah, Mohammed
Al Shammari, Basim R.
Sabour, Amal A.
Alshiekheid, Maha A.
Alshamrani, Saleh A.
Azmi, Reyouf Al
Al-Absi, Ghadeer H.
Zeb, Shah
Yean, Chan Yean
author_facet Ahmed, Naveed
Tahir, Kinza
Aslam, Sara
Cheema, Sara Masood
Rabaan, Ali A.
Turkistani, Safaa A.
Garout, Mohammed
Halwani, Muhammad A.
Aljeldah, Mohammed
Al Shammari, Basim R.
Sabour, Amal A.
Alshiekheid, Maha A.
Alshamrani, Saleh A.
Azmi, Reyouf Al
Al-Absi, Ghadeer H.
Zeb, Shah
Yean, Chan Yean
author_sort Ahmed, Naveed
collection PubMed
description Antimicrobial resistance (AMR) is a leading cause of treatment failure for many infectious diseases worldwide. Improper overdosing and the misuse of antibiotics contributes significantly to the emergence of drug-resistant bacteria. The co-contamination of heavy metals and antibiotic compounds existing in the environment might also be involved in the spread of AMR. The current study was designed to test the efficacy of heavy metals (arsenic) induced AMR patterns in clinically isolated extended-spectrum β-lactamase (ESBL) producing bacteria. A total of 300 clinically isolated ESBL-producing bacteria were collected from a tertiary care hospital in Lahore, Pakistan, with the demographic characteristics of patients. After the collection of bacterial isolates, these were reinoculated on agar media for reidentification purposes. Direct antimicrobial sensitivity testing (AST) for bacterial isolates by disk diffusion methods was used to determine the AST patterns with and without heavy metal. The heavy metal was concentrated in dilutions of 1.25 g/mL. The collected bacterial isolates were isolated from wounds (n = 63, 21%), urine (n = 112, 37.3%), blood (n = 43, 14.3%), pus (n = 49, 16.3%), and aspirate (n = 33, 11%) samples. From the total 300 bacterial isolates, n = 172 were Escherichia coli (57.3%), 57 were Klebsiella spp. (19%), 32 were Pseudomonas aeruginosa (10.6%), 21 were Proteus mirabilis (7%) and 18 were Enterobacter spp. (6%). Most of the antibiotic drugs were found resistant to tested bacteria. Colistin and Polymyxin-B showed the highest sensitivity against all tested bacteria, but when tested with heavy metals, these antibiotics were also found to be significantly resistant. We found that heavy metals induced the resistance capability in bacterial isolates, which leads to higher AMR patterns as compared to without heavy metal tested isolates. The results of the current study explored the heavy metal as an inducer of AMR and may contribute to the formation and spread of AMR in settings that are contaminated with heavy metals.
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spelling pubmed-96926692022-11-26 Heavy Metal (Arsenic) Induced Antibiotic Resistance among Extended-Spectrum β-Lactamase (ESBL) Producing Bacteria of Nosocomial Origin Ahmed, Naveed Tahir, Kinza Aslam, Sara Cheema, Sara Masood Rabaan, Ali A. Turkistani, Safaa A. Garout, Mohammed Halwani, Muhammad A. Aljeldah, Mohammed Al Shammari, Basim R. Sabour, Amal A. Alshiekheid, Maha A. Alshamrani, Saleh A. Azmi, Reyouf Al Al-Absi, Ghadeer H. Zeb, Shah Yean, Chan Yean Pharmaceuticals (Basel) Article Antimicrobial resistance (AMR) is a leading cause of treatment failure for many infectious diseases worldwide. Improper overdosing and the misuse of antibiotics contributes significantly to the emergence of drug-resistant bacteria. The co-contamination of heavy metals and antibiotic compounds existing in the environment might also be involved in the spread of AMR. The current study was designed to test the efficacy of heavy metals (arsenic) induced AMR patterns in clinically isolated extended-spectrum β-lactamase (ESBL) producing bacteria. A total of 300 clinically isolated ESBL-producing bacteria were collected from a tertiary care hospital in Lahore, Pakistan, with the demographic characteristics of patients. After the collection of bacterial isolates, these were reinoculated on agar media for reidentification purposes. Direct antimicrobial sensitivity testing (AST) for bacterial isolates by disk diffusion methods was used to determine the AST patterns with and without heavy metal. The heavy metal was concentrated in dilutions of 1.25 g/mL. The collected bacterial isolates were isolated from wounds (n = 63, 21%), urine (n = 112, 37.3%), blood (n = 43, 14.3%), pus (n = 49, 16.3%), and aspirate (n = 33, 11%) samples. From the total 300 bacterial isolates, n = 172 were Escherichia coli (57.3%), 57 were Klebsiella spp. (19%), 32 were Pseudomonas aeruginosa (10.6%), 21 were Proteus mirabilis (7%) and 18 were Enterobacter spp. (6%). Most of the antibiotic drugs were found resistant to tested bacteria. Colistin and Polymyxin-B showed the highest sensitivity against all tested bacteria, but when tested with heavy metals, these antibiotics were also found to be significantly resistant. We found that heavy metals induced the resistance capability in bacterial isolates, which leads to higher AMR patterns as compared to without heavy metal tested isolates. The results of the current study explored the heavy metal as an inducer of AMR and may contribute to the formation and spread of AMR in settings that are contaminated with heavy metals. MDPI 2022-11-17 /pmc/articles/PMC9692669/ /pubmed/36422556 http://dx.doi.org/10.3390/ph15111426 Text en © 2022 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
Ahmed, Naveed
Tahir, Kinza
Aslam, Sara
Cheema, Sara Masood
Rabaan, Ali A.
Turkistani, Safaa A.
Garout, Mohammed
Halwani, Muhammad A.
Aljeldah, Mohammed
Al Shammari, Basim R.
Sabour, Amal A.
Alshiekheid, Maha A.
Alshamrani, Saleh A.
Azmi, Reyouf Al
Al-Absi, Ghadeer H.
Zeb, Shah
Yean, Chan Yean
Heavy Metal (Arsenic) Induced Antibiotic Resistance among Extended-Spectrum β-Lactamase (ESBL) Producing Bacteria of Nosocomial Origin
title Heavy Metal (Arsenic) Induced Antibiotic Resistance among Extended-Spectrum β-Lactamase (ESBL) Producing Bacteria of Nosocomial Origin
title_full Heavy Metal (Arsenic) Induced Antibiotic Resistance among Extended-Spectrum β-Lactamase (ESBL) Producing Bacteria of Nosocomial Origin
title_fullStr Heavy Metal (Arsenic) Induced Antibiotic Resistance among Extended-Spectrum β-Lactamase (ESBL) Producing Bacteria of Nosocomial Origin
title_full_unstemmed Heavy Metal (Arsenic) Induced Antibiotic Resistance among Extended-Spectrum β-Lactamase (ESBL) Producing Bacteria of Nosocomial Origin
title_short Heavy Metal (Arsenic) Induced Antibiotic Resistance among Extended-Spectrum β-Lactamase (ESBL) Producing Bacteria of Nosocomial Origin
title_sort heavy metal (arsenic) induced antibiotic resistance among extended-spectrum β-lactamase (esbl) producing bacteria of nosocomial origin
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9692669/
https://www.ncbi.nlm.nih.gov/pubmed/36422556
http://dx.doi.org/10.3390/ph15111426
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