Multi-functional nano silver: A novel disruptive and theranostic agent for pathogenic organisms in real-time

Gopinath, Ponnusamy Manogaran; Ranjani, Anandan; Dhanasekaran, Dharumadurai; Thajuddin, Nooruddin; Archunan, ‪Govindaraju; Akbarsha, Mohammad Abdulkader; Gulyás, Balázs

doi:10.1038/srep34058

Cited by 23 publications

(12 citation statements)

References 77 publications

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“…As described earlier, larger surface area of silver nanoparticles are believed to be key player in interaction with bacterial cell wall and would have resulted in more antibacterial activity. Although mechanism of action of silver NPs on bacterial cell is debatable; however, assumed mechanism include (i) adherence of AgNPs with bacterial cell wall causing membrane lysis, ultimately releasing cellular contents leading to destruction of cell structure and death [89][90][91], (ii) interaction of Ag ions with free thiol groups (−SH) and disulfide bridges (-S-S-) of cellular enzymes and membrane of bacteria to downregulate or inactivate the cellular protein synthesis by interfering the translation [72,91,92], (iii) blocking DNA replication [93], and (iv) inhibition of signal transduction by dephosphorylation of peptide substrates on tyrosine residues (Figure 2) [91]. Furthermore, inhibitory effect of AgNPs varied for different bacterium, e.g., Gram-positive bacteria were more susceptible to silver nanoparticles as compared to Gram-negative one [84].…”

Section: Antibacterial Activity Of Mycosynthesized Nanoparticlesmentioning

confidence: 99%

Fungal-Derived Nanoparticles as Novel Antimicrobial and Anticancer Agents

Waseem¹,

Nisar²

2016

Functionalized Nanomaterials

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In order to control microbial resistance against commonly used antibiotics, it is indispensable to develop novel and efficient antimicrobial agents. For this purpose, metallic nanoparticles (mainly inorganic) with their antimicrobial activites represent an effective solution for this global problem. However, synthesis of nanoparticles involves the use of expensive, poisonous and dangerous chemicals responsible for different biological and environmental hazards. This fact increases the necessity of developing environmentfriendly procedure by means of green synthesis (using plants) and extra-biological methods (using microbes such as bacteria and fungi). More recently, metallic nanoparticles, derived from fungal sources, have demonstrated their potential not only as a new-generation antimicrobial agents but also as anticancer agents. Therefore, this chapter is aimed to explore the various nanoparticles producing fungi with ultimate objective of elucidating the possible (i) mechanism of biosynthesis of metallic NPs by various fungi and (ii) mode of action of these mycosynthesized NPs on bacterial cell. This chapter would certainly increase our knowledge about interaction of nanoparticles with bacterial cell for their use in health biotechnology.

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Section: Antibacterial Activity Of Mycosynthesized Nanoparticlesmentioning

confidence: 99%

Fungal-Derived Nanoparticles as Novel Antimicrobial and Anticancer Agents

Waseem¹,

Nisar²

2016

Functionalized Nanomaterials

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“…Gopinath et al . found that biogenic AgNPs are effective against endospores of Bacillus and Clostridium species 31 . Wang et al .…”

Section: Discussionmentioning

confidence: 99%

Effects of Local Application of Nano-silver on Osteomyelitis and Soft Tissue Infections: An Experimental Study in Rats

Kemah

Uzer

Turhan

et al. 2018

J. Bone Joint Infect.

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Purpose: Bone and soft tissue infections are among the least desired complications after orthopaedic surgery. This study analysed the in vivo effects of the local application of nano-silver particles (AgNPs) [1nm = 1 billionth of a meter] in soft tissue infections.Materials-Method: An experimental osteomyelitis model was formed by inoculating both tibias of 24 rats with methicillin-resistant Staphylococcus aureus. The rats were followed without treatment for 21 days. Blood samples and tibial x-rays at day 21 confirmed the development of infection. Then, the rats were divided randomly into two groups. One group (12 rats) underwent surgical debridement and received 21 days of teicoplanin therapy. The second group had the same treatment, with the addition of local nano-silver. All of the rats were sacrificed at day 42. Blood and wound swab samples were taken and the culture results were analysed.Results: No differences were observed between the groups in healing values at pathological examination, or in changes in the number of colonies at days 21 and 42. No differences in white blood cell count (WBC) were observed between the groups before and after the treatment.Conclusion: Although in vitro studies suggest the effectiveness of AgNPs on pathogens, we found that the application of nano-silver did not make any difference when used in addition to the classical osteomyelitis treatment with antibiotics and local surgical debridement. We believe that additional in vivo studies using repeated nano-silver application could be beneficial.

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“…For example, Liu and co-authors have used gold nanoparticles for imaging (SERS, CT, and TPL imaging) and photothermal therapy in mouse models of sarcomas and shown that gold nanostars are more effective than gold nanoshells [88]. There are also reports on the theranostic application of Ag NPs or Pt NPs [89,90].…”

Section: Bioimaging and Molecular Diagnosismentioning

confidence: 99%

Applications of Noble Metal-Based Nanoparticles in Medicine

Klębowski

Depciuch

Parlińska-Wojtan

et al. 2018

IJMS

212

101

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Nanoparticles have unique, size-dependent properties, which means they are widely used in various branches of industry. The ability to control the properties of nanoparticles makes these nanomaterials very interesting for medicine and pharmacology. The application of nanoparticles in medicine is associated with the design of specific nanostructures, which can be used as novel diagnostic and therapeutic modalities. There are a lot of applications of nanoparticles, e.g., as drug delivery systems, radiosensitizers in radiation or proton therapy, in bioimaging, or as bactericides/fungicides. This paper aims to introduce the characteristics of noble metal-based nanoparticles with particular emphasis on their applications in medicine and related sciences.

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Multi-functional nano silver: A novel disruptive and theranostic agent for pathogenic organisms in real-time

Cited by 23 publications

References 77 publications

Fungal-Derived Nanoparticles as Novel Antimicrobial and Anticancer Agents

Fungal-Derived Nanoparticles as Novel Antimicrobial and Anticancer Agents

Effects of Local Application of Nano-silver on Osteomyelitis and Soft Tissue Infections: An Experimental Study in Rats

Applications of Noble Metal-Based Nanoparticles in Medicine

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