Review of the effects of silver nanoparticle exposure on gut bacteria

Li, Jiangyan; Tang, Meng; Yang, Xue

doi:10.1002/jat.3729

Cited by 61 publications

(36 citation statements)

References 117 publications

(174 reference statements)

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“…In the case of antimicrobial silver nanoparticles with application in food industry, the subject of this review, the main human exposure source is through the oral-gastrointestinal tract [68]. The mean dietary exposure level of Ag-NPs is estimated at 70-90 µg/day [69]. After ingestion, the Ag-NPs come in contact with lumen of the oral cavity and esophagus.…”

Section: Impact Of Dietary Exposure To Silver Nanoparticles In Healthmentioning

confidence: 99%

“…There is little published information on the absorption rate of particulates through the epithelium of these two compartments, probably due to both a low surface area and a short residence time for most food matrices [68]. After that, during the gastrointestinal digestion process in the stomach and small intestine, the interaction of Ag-NPs with biological fluids can lead to its agglomeration, aggregation, and dissolution [69][70][71][72][73]. In addition, silver nanoparticle absorption (transcellular and paracellular transport and vesicular phagocytosis) through the gastrointestinal tract epithelium could take place.…”

Section: Impact Of Dietary Exposure To Silver Nanoparticles In Healthmentioning

confidence: 99%

“…In addition, silver nanoparticle absorption (transcellular and paracellular transport and vesicular phagocytosis) through the gastrointestinal tract epithelium could take place. Finally, the nanoparticles that escape the absorption process reach the colon where they could modulate the composition and/or activity of gut microbiota, affecting the production and toxicity of bacterial metabolites [69]. Part of the initial intake of nanoparticles could be extracted in feces.…”

Section: Impact Of Dietary Exposure To Silver Nanoparticles In Healthmentioning

confidence: 99%

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Silver Nanoparticles against Foodborne Bacteria. Effects at Intestinal Level and Health Limitations

et al. 2020

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Foodborne diseases are one of the factors that endanger the health of consumers, especially in people at risk of exclusion and in developing countries. The continuing search for effective antimicrobials to be used in the food industry has resulted in the emergence of nanotechnology in this area. Silver nanoparticles (Ag-NPs) are the nanomaterial with the best antimicrobial activity and therefore, with great potential of application in food processing and packing. However, possible health effects must be properly addressed to ensure food safety. This review presents a detailed description on the main applications of Ag-NPs as antimicrobial agents for food control, as well as the current legislation concerning these materials. Current knowledge about the impact of the dietary exposure to Ag-NPs in human health with special emphasis on the changes that nanoparticles undergo after passing through the gastrointestinal tract and how they alter the oral and gut microbiota, is also summarized. It is concluded that given their potential and wide properties against foodborne pathogens, research in Ag-NPs is of great interest but is not exempt from difficulties that must be resolved in order to certify the safety of their use.

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Section: Impact Of Dietary Exposure To Silver Nanoparticles In Healthmentioning

confidence: 99%

Section: Impact Of Dietary Exposure To Silver Nanoparticles In Healthmentioning

confidence: 99%

Section: Impact Of Dietary Exposure To Silver Nanoparticles In Healthmentioning

confidence: 99%

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Silver Nanoparticles against Foodborne Bacteria. Effects at Intestinal Level and Health Limitations

et al. 2020

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“…When AgNPs are internalized, they are usually stored in vesicles in the cytoplasm. There is no evidence that they the nucleus but there is a theoretical possibility of direct DNA contact when the nuclear membrane breaks down during mitosis [29,31]. Moreover, it is worth noting that AgNPs interactions with the cell membrane can also produce toxic effects, mainly due to oxidative stress.…”

Section: In Vitro Studiesmentioning

confidence: 99%

“…routes, including inhalation, dermal contact and oral ingestion, which is the most significant route. According to Boudreau et al [57], the human dietary intake of silver generally varies from 0.4 to 27 μg a day; however, Vila et al [53] and Wijnhoven et al [46] claim that the dietary intake of AgNPs is between 70 to 90 μg a day, and, Li Tang and Xue [29], agree that the daily intake of silver in humans may be as high as 90 μg.…”

Section: Introductionmentioning

confidence: 99%

Genotoxicity of Silver Nanoparticles

et al. 2020

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Silver nanoparticles (AgNPs) are widely used in diverse sectors such as medicine, food, cosmetics, household items, textiles and electronics. Given the extent of human exposure to AgNPs, information about the toxicological effects of such products is required to ensure their safety. For this reason, we performed a bibliographic review of the genotoxicity studies carried out with AgNPs over the last six years. A total of 43 articles that used well-established standard assays (i.e., in vitro mouse lymphoma assays, in vitro micronucleus tests, in vitro comet assays, in vivo micronucleus tests, in vivo chromosome aberration tests and in vivo comet assays), were selected. The results showed that AgNPs produce genotoxic effects at all DNA damage levels evaluated, in both in vitro and in vivo assays. However, a higher proportion of positive results was obtained in the in vitro studies. Some authors observed that coating and size had an effect on both in vitro and in vivo results. None of the studies included a complete battery of assays, as recommended by ICH and EFSA guidelines, and few of the authors followed OECD guidelines when performing assays. A complete genotoxicological characterization of AgNPs is required for decision-making.

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Research advances in nanomedicine applied to the systemic treatment of colorectal cancer

Yin

Shi

et al. 2022

Intl Journal of Cancer

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The systematic treatment of colorectal cancer (CRC) still has room for improvement.The efficacy of chemotherapy, that of anti-vascular therapy, and that of immunotherapy have been unsatisfactory. In recent years, nanomaterials have been used as carriers to improve the bioavailability of anticancer drugs. For the treatment of colorectal cancer, nanodrugs increase the possibility of more precise targeted delivery. However, the actual benefits may cover more aspects. Nanocarriers can produce synergistic effects with anticancer drugs, including the scavenging of reactive oxygen species and co-delivery of a variety of drugs. Currently, immunotherapy has very limited clinical applications in CRC. Modified nanocarriers can activate the immune microenvironment, which can be used for staging antigen recognition or the immune response. Cancer vaccines based on nanomaterials and modified immune checkpoint inhibitors have shown therapeutic potential in animal models. Considering the direct or indirect relationship between the intestinal microflora and CRC, a variety of nanodrugs that regulate microbial function have been explored as an anticancer strategy, and the special structure of microorganisms can also be used as a basis for improving the delivery of traditional nanoparticles (NPs). This review summarizes recent research performed on nanocarriers in in vivo and in vitro models and the synergistic anticancer effects of nanocarriers, focusing on the interaction between NPs and the body, resulting in enhanced efficacy and immune activation. Furthermore, this review describes the current trend of NPs used in the treatment of CRC.

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Review of the effects of silver nanoparticle exposure on gut bacteria

Cited by 61 publications

References 117 publications

Silver Nanoparticles against Foodborne Bacteria. Effects at Intestinal Level and Health Limitations

Silver Nanoparticles against Foodborne Bacteria. Effects at Intestinal Level and Health Limitations

Genotoxicity of Silver Nanoparticles

Research advances in nanomedicine applied to the systemic treatment of colorectal cancer

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