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Review
. 2021 May 28;37(6):108.
doi: 10.1007/s11274-021-03070-x.

Nanoparticles as therapeutic options for treating multidrug-resistant bacteria: research progress, challenges, and prospects

Ifeanyi E Mba  1 Emeka I Nweze  2
Affiliations
Review

Nanoparticles as therapeutic options for treating multidrug-resistant bacteria: research progress, challenges, and prospects

Ifeanyi E Mba et al. World J Microbiol Biotechnol. .

Abstract

Resistance to antimicrobial agents has been alarming in recent years and poses a huge public health threat globally according to the WHO. The increase in morbidity and mortality resulting from microbial infections has been attributed to the emergence of multidrug-resistant microbes. Associated with the increase in multidrug resistance is the lack of new and effective antimicrobials. This has led to global initiatives to identify novel and more effective antimicrobial agents in addition to discovering novel and effective drug delivery and targeting methods. The use of nanoparticles as novel biomaterials to fully achieve this feat is currently gaining global attention. Nanoparticles could become an indispensable viable therapeutic option for treating drug-resistant infections. Of all the nanoparticles, the metals and metal oxide nanoparticles appear to offer the most promise and have attracted tremendous interest from many researchers. Moreover, the use of nanomaterials in photothermal therapy has received considerable attention over the years. This review provides current insight on antimicrobial resistance as well as the mechanisms of nanoparticle antibacterial activity. It offers an in-depth review of all the recent findings in the use of nanomaterials as agents against multi-resistant pathogenic bacteria. Also, nanomaterials that can respond to light stimuli (photothermal therapy) to kill microbes and facilitate enhanced drug delivery and release are discussed. Moreover, the synergistic interactions of nanoparticles with antibiotics and other nanomaterials, microbial adaptation strategies to nanoparticles, current challenges, and future prospects were extensively discussed.

Keywords: Antibacterial activity; Antimicrobial resistance; Bacterial resistance to nanoparticles; Conjugated nanoparticles/nanocomposites; Nanoparticles; Photothermal therapy.

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Figures

Fig. 1
Fig. 1
Mechanism of nanoparticles activity against bacteria
Fig. 2
Fig. 2
Silica-coated gold-silver nanocages (Au–Ag NCs) showing antibacterial activity by a photothermal effect. Reproduced from Wu et al. (2019) with permission
Fig. 3
Fig. 3
Resistant mechanisms of bacteria to nanoparticles
See this image and copyright information in PMC

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