Journal ArticleDOI
Antimicrobial silver: uses, toxicity and potential for resistance.
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TLDR
This study shows that it is important to understand in detail how silver and silver nanoparticles exert their toxicity and to understand how bacteria acquire silver resistance, to lead to a better understanding of the impact on human health and ecosystems.Abstract:
This review gives a comprehensive overview of the widespread use and toxicity of silver compounds in many biological applications. Moreover, the bacterial silver resistance mechanisms and their spread in the environment are discussed. This study shows that it is important to understand in detail how silver and silver nanoparticles exert their toxicity and to understand how bacteria acquire silver resistance. Silver ions have shown to possess strong antimicrobial properties but cause no immediate and serious risk for human health, which led to an extensive use of silver-based products in many applications. However, the risk of silver nanoparticles is not yet clarified and their widespread use could increase silver release in the environment, which can have negative impacts on ecosystems. Moreover, it is shown that silver resistance determinants are widely spread among environmental and clinically relevant bacteria. These resistance determinants are often located on mobile genetic elements, facilitating their spread. Therefore, detailed knowledge of the silver toxicity and resistance mechanisms can improve its applications and lead to a better understanding of the impact on human health and ecosystems.read more
Citations
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Journal ArticleDOI
Silver nanoparticles as potential antibacterial agents.
Gianluigi Franci,Annarita Falanga,Stefania Galdiero,Luciana Palomba,Mahendra Rai,Giancarlo Morelli,Massimiliano Galdiero +6 more
TL;DR: This review aims to summarize the emerging efforts to address current challenges and solutions in the treatment of infectious diseases, particularly the use of nanosilver antimicrobials.
Journal ArticleDOI
Silver nanoparticles: A new view on mechanistic aspects on antimicrobial activity
Nelson Durán,Marcela Durán,Marcelo Bispo de Jesus,Amedea B. Seabra,Wagner José Fávaro,Gerson Nakazato +5 more
TL;DR: This overview incorporates a retrospective of previous reviews published from 2007 to 2013 and recent original contributions on the progress of research on antimicrobial mechanisms to summarize the current knowledge in the field of antibacterial activity of silver nanoparticles.
Journal ArticleDOI
Resistance of Gram-Negative Bacteria to Current Antibacterial Agents and Approaches to Resolve It
TL;DR: Research efforts have been made to meet the urgent need for new treatments; some have succeeded to yield activity against resistant Gram-negative bacteria by deactivating the mechanism of resistance, like the action of the β-lactamase Inhibitor antibiotic adjuvants.
Journal ArticleDOI
Bioactive Glasses: Where Are We and Where Are We Going?
TL;DR: A picture of the current clinical applications of bioactive glasses is provided, and six relevant challenges deserving to be tackled in the near future are depicted.
Journal ArticleDOI
Bacterial antimicrobial metal ion resistance.
Jon L. Hobman,Lisa Crossman +1 more
TL;DR: The new, rediscovered and 'never went away' uses of antimicrobial metals are detailed; the prevalence and linkage of antim antibiotic metal resistance genes to other antimicrobial resistance genes are examined; and the evidence for horizontal transfer of these genes between bacteria is examined.
References
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Journal ArticleDOI
The bactericidal effect of silver nanoparticles
Jose Ruben Morones,Jose Luis Elechiguerra,A. Camacho,Katherine B. Holt,Juan B. Kouri,Jose Tapia Ramirez,Miguel Jose Yacaman +6 more
TL;DR: The results indicate that the bactericidal properties of the nanoparticles are size dependent, since the only nanoparticles that present a direct interaction with the bacteria preferentially have a diameter of approximately 1-10 nm.
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Does the antibacterial activity of silver nanoparticles depend on the shape of the nanoparticle? A study of the Gram-negative bacterium Escherichia coli.
TL;DR: This is the first comparative study on the bactericidal properties of silver nanoparticles of different shapes, and the results demonstrate thatsilver nanoparticles undergo a shape-dependent interaction with the gram-negative organism E. coli.
Journal ArticleDOI
Noble Metals on the Nanoscale: Optical and Photothermal Properties and Some Applications in Imaging, Sensing, Biology, and Medicine
TL;DR: How the unique tunability of the plasmon resonance properties of metal nanoparticles through variation of their size, shape, composition, and medium allows chemists to design nanostructures geared for specific bio-applications is emphasized.
Journal ArticleDOI
Silver Colloid Nanoparticles: Synthesis, Characterization, and Their Antibacterial Activity
Aleš Panáček,Libor Kvítek,Robert Prucek,Milan Kolar,Renata Vecerova,N. Pizúrová,Virender K. Sharma,Tat’jana Nevečná,Radek Zboril +8 more
TL;DR: The reduction of [Ag(NH(3))(2)](+) by maltose produced silver particles with a narrow size distribution with an average size of 25 nm, which showed high antimicrobial and bactericidal activity against Gram-positive and Gram-negative bacteria, including highly multiresistant strains such as methicillin-resistant Staphylococcus aureus.
Journal ArticleDOI
Negligible Particle-Specific Antibacterial Activity of Silver Nanoparticles
TL;DR: This work suggests that AgNP morphological properties known to affect antimicrobial activity are indirect effectors that primarily influence Ag(+) release, and antibacterial activity could be controlled by modulating Ag(+ release, possibly through manipulation of oxygen availability, particle size, shape, and/or type of coating.