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      222-nm UVC light as a skin-safe solution to antimicrobial resistance in acute hospital settings with a particular focus on methicillin-resistant Staphylococcus aureus and surgical site infections: a review

      Journal of Applied Microbiology
      Oxford University Press (OUP)

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          Abstract

          The increasing burden of antimicrobial resistance necessitates a novel approach to disinfect multidrug resistant pathogens. Conventional 254-nm ultraviolet-C (UVC) light shows high germicidal efficacy against bacteria. However, it induces pyrimidine dimerization in exposed human skin with carcinogenic potential. Recent developments suggest 222-nm UVC light can be used to disinfect bacteria and cause less harm to human DNA. This new technology can be used to disinfect healthcare-associated infections and more specifically surgical site infections (SSIs). This includes but is not limited to methicillin-resistant Staphylococcus aureus (MRSA), P. aeruginosa, C. difficile, E. coli, and other aerobic bacteria. This thorough review of scarce literature assesses the germicidal efficacy and skin safety of 222-nm UVC light with a particular focus on its clinical applications to MRSA and SSIs. The study reviews a variety of experimental models, including in vivo and in vitro cell cultures, live human skin, human skin models, mice skin, and rabbit skin. The potential for long-term eradication of bacteria and efficacy against specific pathogens is appraised. This paper focuses on the methods and models used in past and present research to determine the efficacy and safety of 222-nm UVC in the acute hospital setting with a focus on MRSA and its applicability to SSIs.

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          Most cited references46

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          The PRISMA 2020 statement: an updated guideline for reporting systematic reviews

          The Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) statement, published in 2009, was designed to help systematic reviewers transparently report why the review was done, what the authors did, and what they found. Over the past decade, advances in systematic review methodology and terminology have necessitated an update to the guideline. The PRISMA 2020 statement replaces the 2009 statement and includes new reporting guidance that reflects advances in methods to identify, select, appraise, and synthesise studies. The structure and presentation of the items have been modified to facilitate implementation. In this article, we present the PRISMA 2020 27-item checklist, an expanded checklist that details reporting recommendations for each item, the PRISMA 2020 abstract checklist, and the revised flow diagrams for original and updated reviews.
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            Antibiotic resistance in Pseudomonas aeruginosa: mechanisms and alternative therapeutic strategies

            Pseudomonas aeruginosa is an opportunistic pathogen that is a leading cause of morbidity and mortality in cystic fibrosis patients and immunocompromised individuals. Eradication of P. aeruginosa has become increasingly difficult due to its remarkable capacity to resist antibiotics. Strains of Pseudomonas aeruginosa are known to utilize their high levels of intrinsic and acquired resistance mechanisms to counter most antibiotics. In addition, adaptive antibiotic resistance of P. aeruginosa is a recently characterized mechanism, which includes biofilm-mediated resistance and formation of multidrug-tolerant persister cells, and is responsible for recalcitrance and relapse of infections. The discovery and development of alternative therapeutic strategies that present novel avenues against P. aeruginosa infections are increasingly demanded and gaining more and more attention. Although mostly at the preclinical stages, many recent studies have reported several innovative therapeutic technologies that have demonstrated pronounced effectiveness in fighting against drug-resistant P. aeruginosa strains. This review highlights the mechanisms of antibiotic resistance in P. aeruginosa and discusses the current state of some novel therapeutic approaches for treatment of P. aeruginosa infections that can be further explored in clinical practice.
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              Antimicrobial resistance: A global emerging threat to public health systems.

              Antimicrobial resistance (AMR) became in the last two decades a global threat to public health systems in the world. Since the antibiotic era, with the discovery of the first antibiotics that provided consistent health benefits to human medicine, the misuse and abuse of antimicrobials in veterinary and human medicine have accelerated the growing worldwide phenomenon of AMR. This article presents an extensive overview of the epidemiology of AMR, with a focus on the link between food producing-animals and humans and on the legal framework and policies currently implemented at the EU level and globally. The ways of responding to the AMR challenges foresee an array of measures that include: designing more effective preventive measures at farm level to reduce the use of antimicrobials; development of novel antimicrobials; strengthening of AMR surveillance system in animal and human populations; better knowledge of the ecology of resistant bacteria and resistant genes; increased awareness of stakeholders on the prudent use of antibiotics in animal productions and clinical arena; and the public health and environmental consequences of AMR. Based on the global nature of AMR and considering that bacterial resistance does not recognize barriers and can spread to people and the environment, the article ends with specific recommendations structured around a holistic approach and targeted to different stakeholders.
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                Author and article information

                Journal
                Journal of Applied Microbiology
                Oxford University Press (OUP)
                1365-2672
                March 2023
                March 01 2023
                March 2023
                March 01 2023
                March 03 2023
                : 134
                : 3
                Article
                10.1093/jambio/lxad046
                08faf47c-bd12-42a6-9044-bb2001c0cc80
                © 2023

                https://creativecommons.org/licenses/by/4.0/

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