Metal nanoparticles against multi-drug-resistance bacteria
Antimicrobial-resistant (AMR) bacterial infections remain a significant public health concern.
The situation is exacerbated by the rapid development of bacterial resistance to currently …
The situation is exacerbated by the rapid development of bacterial resistance to currently …
[HTML][HTML] Mechanistic insights into the antimicrobial actions of metallic nanoparticles and their implications for multidrug resistance
Multiple drug-resistant bacteria are a severe and growing public health concern. Because
relatively few antibiotics have been approved over recent years and because of the inability …
relatively few antibiotics have been approved over recent years and because of the inability …
Synergistic combinations of metal, metal oxide, or metalloid nanoparticles plus antibiotics against resistant and non-resistant bacteria
M Alavi, MR Hamblin, F Martinez… - Micro Nano Bio …, 2022 - mnba-journal.com
The emergence of drug resistance in pathogenic bacteria due to the indiscriminate use of
antibiotics is a major challenge to global public health. Therefore, improved and more …
antibiotics is a major challenge to global public health. Therefore, improved and more …
[HTML][HTML] Metallic nanoparticles: a promising arsenal against antimicrobial resistance—unraveling mechanisms and enhancing medication efficacy
The misuse of antibiotics and antimycotics accelerates the emergence of antimicrobial
resistance, prompting the need for novel strategies to combat this global issue. Metallic …
resistance, prompting the need for novel strategies to combat this global issue. Metallic …
[HTML][HTML] Transition metal-based nanoparticles as potential antimicrobial agents: recent advancements, mechanistic, challenges, and future prospects
Bacterial transmission is considered one of the potential risks for communicable diseases,
requiring promising antibiotics. Traditional drugs possess a limited spectrum of …
requiring promising antibiotics. Traditional drugs possess a limited spectrum of …
Metal nanobullets for multidrug resistant bacteria and biofilms
CW Chen, CY Hsu, SM Lai, WJ Syu, TY Wang… - Advanced drug delivery …, 2014 - Elsevier
Infectious diseases were one of the major causes of mortality until now because drug-
resistant bacteria have arisen under broad use and abuse of antibacterial drugs. These …
resistant bacteria have arisen under broad use and abuse of antibacterial drugs. These …
[HTML][HTML] Multimetallic nanoparticles as alternative antimicrobial agents: challenges and perspectives
N Basavegowda, KH Baek - Molecules, 2021 - mdpi.com
Recently, infectious diseases caused by bacterial pathogens have become a major cause of
morbidity and mortality globally due to their resistance to multiple antibiotics. This has …
morbidity and mortality globally due to their resistance to multiple antibiotics. This has …
[HTML][HTML] Alternative mechanisms of action of metallic nanoparticles to mitigate the global spread of antibiotic-resistant bacteria
A Girma - The Cell Surface, 2023 - Elsevier
One of the biggest issues for medical professionals and a serious global concern is the
emergence of multi-drug-resistant bacteria, which is the result of the overuse or misuse of …
emergence of multi-drug-resistant bacteria, which is the result of the overuse or misuse of …
Antimicrobial activity of metal and metal‐oxide based nanoparticles
K Gold, B Slay, M Knackstedt… - Advanced …, 2018 - Wiley Online Library
With an increase in antibiotic resistance, a growing interest in developing new antimicrobial
agents has gained popularity. Metal‐and metal‐oxide‐based nanoparticles, surface‐to …
agents has gained popularity. Metal‐and metal‐oxide‐based nanoparticles, surface‐to …
[HTML][HTML] Metal-based nanoparticles: Antibacterial mechanisms and biomedical application
The growing increase in antibiotic-resistant bacteria has led to the search for new
antibacterial agents capable of overcoming the resistance problem. In recent years …
antibacterial agents capable of overcoming the resistance problem. In recent years …