Iron oxide nanoparticle-mediated hyperthermia stimulates dispersal in bacterial biofilms and enhances antibiotic efficacy

Nguyen, Thuy‐Khanh; Duong, Hien T. T.; Selvanayagam, Ramona; Boyer, Cyrille; Barraud, Nicolas

doi:10.1038/srep18385

Cited by 115 publications

(80 citation statements)

References 62 publications

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“…40 At higher concentrations, CHX attacks the bacterial cytoplasmic membrane and denatures microbial proteins. CHX has both a rapid onset of bactericidal action and prolonged antimicrobial efficacy through residual effects.…”

mentioning

confidence: 99%

Use of magnetic nanoparticles as a drug delivery system to improve chlorhexidine antimicrobial activity

Tokajuk

Niemirowicz

Deptuła

et al. 2017

IJN

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Nanotechnology offers new tools for developing therapies to prevent and treat oral infections, particularly biofilm-dependent disorders, such as dental plaques and endodontic and periodontal diseases. Chlorhexidine (CHX) is a well-characterized antiseptic agent used in dentistry with broad spectrum activity. However, its application is limited due to inactivation in body fluid and cytotoxicity toward human cells, particularly at high concentrations. To overcome these limitations, we synthesized nanosystems composed of aminosilane-coated magnetic nanoparticles functionalized with chlorhexidine (MNP@CHX). In the presence of human saliva, MNPs@CHX displayed significantly greater bactericidal and fungicidal activity against planktonic and biofilm-forming microorganisms than free CHX. In addition, CHX attached to MNPs has an increased ability to restrict the growth of mixed-species biofilms compared to free CHX. The observed depolarization of mitochondria in fungal cells treated with MNP@CHX suggests that induction of oxidative stress and oxidation of fungal structures may be a part of the mechanism responsible for pathogen killing. Nanoparticles functionalized by CHX did not affect host cell proliferation or their ability to release the proinflammatory cytokine, IL-8. The use of MNPs as a carrier of CHX has great potential for the development of antiseptic nanosystems.

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confidence: 99%

Use of magnetic nanoparticles as a drug delivery system to improve chlorhexidine antimicrobial activity

Tokajuk

Niemirowicz

Deptuła

et al. 2017

IJN

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“…In 2016, Situ et al improved the material properties of SPIONs and demonstrated that Zn-doping can enhance performance and antibiofilm efficacy in E. coli biofilms (Situ et al, 2016). Similarly, magnetic hyperthermia coupled with antibiotics has been shown to eradicate biofilms formed by S. epidermidis (Geilich, Gelfat, Sridhar, van de Ven, & Webster, 2017) and P. aeruginosa (Nguyen, Duong, Selvanayagam, Boyer, & Barraud, 2015). These studies demonstrate the versatility of magnetic nanoparticle (MNP)-mediated hyperthermia for the disruption of different types of biofilms.…”

Section: Beyond the Traditional Antibiotic Drug Treatment And Reimpmentioning

confidence: 99%

Applications and challenges of using 3D printed implants for the treatment of birth defects

Wickramasinghe

Navarreto-Lugo

2018

Birth Defects Research

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Pediatric implants are a special subclass of a vast number of clinically used medical implants, uniquely designed to address the needs of young patients who are at the onset of their developmental growth stage. Given the vulnerability of the implant receiver, it is crucial that the implants manufactured for small children with birth-associated defects be given careful considerations and great attention to design detail to avoid postoperative complications. In this review, we focus on the most common types of medical implants manufactured for the treatment of birth defects originating from both genetic and environmental causes. Particular emphasis is devoted toward identifying the implant material of choice and manufacturing approaches for the fabrication of pediatric prostheses. Along this line, the emerging role of 3D printing to enable customized implants for infants with congenital disorders is presented, as well as the possible complications associated with prosthetic-related infections that is prevalent in using artificial implants for the treatment of birth malformations.

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“…A further development is silicon NPs with polymer-like strands holding an anti-cancer drug; these degrade upon entering the cells and discharge the contents (48). Research also aims to develop NPs to target bacteria including gold NPs irradiated with infrared light and iron oxide (FeO) NPs coated with polymer (49).…”

Section: Nanotechnologymentioning

confidence: 99%

Cancer in North Cyprus: 2. Biomedical Research Activities

Djamgoz¹,

Akün²,

Arslan³

et al. 2017

Cyprus J Med Sci

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This is the second part of a two-part review on the cancer status of North Cyprus. Here, we give an overview of the various areas of research on cancer. There are four main areas of ongoing biomedical investigation. First, monitoring of possible carcinogenic chemical factors in the environment (soil and water) is focused on arsenic. Arsenic has been found to exist broadly over the island at levels above the minimum level advised by the Environmental Protection Agency. At present, the source(s) of environmental arsenic is unclear. Second, pathophysiological mechanisms of breast and prostate cancer are being investigated with a focus on ion channels (particularly, the voltage-gated sodium channel) driving the metastatic process. In particular, the triangular relationship involving the channel, its persistent current component, and tumor hypoxia is being elucidated. Third, a further emerging theme is the association of microbiota with cancer. The possible roles of bacterial infections or microbiota in preventing, treating, or causing several types of cancers are among these projects. Fourth, a range of developments in nanotechnology is being considered. It is concluded that the island offers significant opportunities for internationally competitive, multi-faceted research on cancer.

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Iron oxide nanoparticle-mediated hyperthermia stimulates dispersal in bacterial biofilms and enhances antibiotic efficacy

Cited by 115 publications

References 62 publications

Use of magnetic nanoparticles as a drug delivery system to improve chlorhexidine antimicrobial activity

Use of magnetic nanoparticles as a drug delivery system to improve chlorhexidine antimicrobial activity

Applications and challenges of using 3D printed implants for the treatment of birth defects

Cancer in North Cyprus: 2. Biomedical Research Activities

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