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Leveraging metal oxide nanoparticles for bacteria tracing and eradicating

En Ren, Chang Zhang, Deng‐Feng Li, Xin Pang, Gang Liu

2020View106 citationsDOIOpen Access PDF

Abstract

Abstract Rapid emergence of antibiotic resistance facilitates the development of a number of novel‐acting alternatives. Among these emerging approaches, metal oxide nanoparticles receive great attention due to their distinctive performance in antimicrobial stewardship. These nanoparticles can not only target the cell wall, membrane, and cytoplasmic contents to disrupt cellular homeostasis, but can also generate reactive oxygen species highly cytotoxic for virtually all microorganisms without resistance concern. By taking advantage of inherent imaging characteristics and facile surface functionalization with specific imaging moieties, the metal oxide nanoparticles show great promise in the bacterial tracing and eradicating. In this review, we examine a critical analysis of antimicrobial mechanisms, physicochemical characteristics, and modification strategies for metal oxide nanoparticles. The diagnosis of metal oxide nanoparticles for bacterial infections, coupled with their potential for bacterial theranostics, has been highlighted. We anticipate that this review will provide new insights on design and development of advanced metal oxide nanoparticles to manage bacterial infections, particularly those caused by multidrug‐resistant species.

Topics & Concepts

NanotechnologyNanoparticleSurface modificationOxideAntimicrobialIron oxide nanoparticlesMetalAntibiotic resistanceBacterial cell structureBacteriaMaterials scienceChemistryAntibioticsBiologyBiochemistryOrganic chemistryPhysical chemistryGeneticsBacterial biofilms and quorum sensingBiosensors and Analytical DetectionAntibiotic Resistance in Bacteria