Overcoming Multidrug Resistance in Bacteria Through Antibiotics Delivery in Surface-Engineered Nano-Cargos: Recent Developments for Future Nano-Antibiotics

Yang, Xinfu; Ye, Wenxin; Qi, Yajun; Yin, Ying; Xia, Zhongni

doi:10.3389/fbioe.2021.696514

Cited by 35 publications

(25 citation statements)

References 128 publications

(138 reference statements)

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“…To address this, external stimuli-responsive agents have been incorporated into the nano delivery systems to improve the release kinetics of antibiotics, enabling controlled and sustained release upon triggered by environmental changes, such as light, pH, temperature, magnetic field, or ultrasonic power [ 153 ]. With these highly localized, precise, and controlled nano delivery modalities, bacterial resistance progression can be largely impeded; yet the uncertainty of their long-term stability in the physiological environment and ADME (absorption, distribution, metabolism and excretion) profile in vivo requires future investigation in order to fully verify their practicality for hospital use [ 154 ].…”

Section: Microbial Resistance To Nanotechnologiesmentioning

confidence: 99%

Microbial resistance to nanotechnologies: An important but understudied consideration using antimicrobial nanotechnologies in orthopaedic implants

Chan

Low

et al. 2022

Bioactive Materials

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Section: Microbial Resistance To Nanotechnologiesmentioning

confidence: 99%

Microbial resistance to nanotechnologies: An important but understudied consideration using antimicrobial nanotechnologies in orthopaedic implants

Chan

Low

et al. 2022

Bioactive Materials

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“…Moreover, by encapsulating antimicrobial compounds of natural origin into suitable NCs, “green therapeutics” can be prepared. For example, recent progress and strategies to overcome bacterial resistance by encapsulating phytochemical oils showing antibacterial activity was presented by Gafur et al [ 80 ] The limitations of conventional antibiotics applied in therapies against bacterial infections can be overcome by the use of surface-modified antibacterial NCs able to enhance delivery, bioavailability and effectiveness of encapsulated drugs [ 81 , 82 ]. For example, the use of bacteriophages in the treatment of bacterial infections using nanotechnologies to overcome pharmacological barriers is very interesting [ 83 ].…”

Section: Nanosystems and Their Benefitsmentioning

confidence: 99%

Advances in Nanostructures for Antimicrobial Therapy

Jampílek

Kráľová

2022

Materials

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Microbial infections caused by a variety of drug-resistant microorganisms are more common, but there are fewer and fewer approved new antimicrobial chemotherapeutics for systemic administration capable of acting against these resistant infectious pathogens. Formulation innovations of existing drugs are gaining prominence, while the application of nanotechnologies is a useful alternative for improving/increasing the effect of existing antimicrobial drugs. Nanomaterials represent one of the possible strategies to address this unfortunate situation. This review aims to summarize the most current results of nanoformulations of antibiotics and antibacterial active nanomaterials. Nanoformulations of antimicrobial peptides, synergistic combinations of antimicrobial-active agents with nitric oxide donors or combinations of small organic molecules or polymers with metals, metal oxides or metalloids are discussed as well. The mechanisms of actions of selected nanoformulations, including systems with magnetic, photothermal or photodynamic effects, are briefly described.

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“…Antibiotics are the most important discovery in the history of mankind that saves countless lives of animals and humans, but the effectiveness of antibiotics diminished through time led to the emergence and spread of multidrug-resistant microbes. 17 , 18 Several factors can be considered for the current rise in antimicrobial resistance in hospitals and communities. Indiscriminate use of antibiotics in human and veterinary medicine, lack of proper regulatory mechanisms, and a decline in novel antimicrobial discovery and poor sanitation practices are the major factors responsible for the widespread multidrug-resistant microbes.…”

Section: Antimicrobial Peptides: Multidrug-resistant Microbial Therap...mentioning

confidence: 99%

Multidrug-Resistant Microbial Therapy Using Antimicrobial Peptides and the CRISPR/Cas9 System

Getahun¹,

Ali²,

Taye³

et al. 2022

VMRR

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The emergence and spread of multidrug-resistant microbes become a serious threat to animal and human health globally because of their less responsiveness to conventional antimicrobial therapy. Multidrug-resistant microbial infection poses higher morbidity and mortality rate with significant economic losses. Currently, antimicrobial peptides and the CRISPR/Cas9 system are explored as alternative therapy to circumvent the challenges of multidrug-resistant organisms. Antimicrobial peptides are small molecular weight, cationic peptides extracted from all living organisms. It is a promising drug candidate for the treatment of multidrug-resistant microbes by direct microbial killing or indirectly modulating the innate immune system. The CRISPR/Cas9 system is another novel antimicrobial alternative used to manage multidrug-resistant microbial infection. It is a versatile gene-editing tool that uses engineered single guide RNA for targeted gene recognition and the Cas9 enzyme for the destruction of target nucleic acids. Both the CRISPR/Cas9 system and antimicrobial peptides were used to successfully treat nosocomial infections caused by ESKAPE pathogens, which developed resistance to various antimicrobials. Despite, their valuable roles in multidrug-resistant microbial treatments, both the antimicrobial peptides and the CRISPR/Cas systems have various limitations like toxicity, instability, and incurring high manufacturing costs. Thus, this review paper gives detailed explanations of the roles of the CRISPR/Cas9 system and antimicrobial peptides in circumventing the challenges of multidrug-resistant microbial infections, its limitation and prospects in clinical applications.

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Overcoming Multidrug Resistance in Bacteria Through Antibiotics Delivery in Surface-Engineered Nano-Cargos: Recent Developments for Future Nano-Antibiotics

Cited by 35 publications

References 128 publications

Microbial resistance to nanotechnologies: An important but understudied consideration using antimicrobial nanotechnologies in orthopaedic implants

Microbial resistance to nanotechnologies: An important but understudied consideration using antimicrobial nanotechnologies in orthopaedic implants

Advances in Nanostructures for Antimicrobial Therapy

Multidrug-Resistant Microbial Therapy Using Antimicrobial Peptides and the CRISPR/Cas9 System

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