Evidence of Indoor Dust Acting as Carrier for Metal-Based Nanoparticles: A Study of Exposure and Oxidative Risks

Liu, Ziyi; Peng, Rong; Lv, Shangsi; Wang, Aodi; Zhao, Lijuan; Dong, Shuofei; Yan, Dong; Keller, Arturo A.; Huang, Yuxiong

doi:10.1021/acs.estlett.2c00192

Cited by 11 publications

(5 citation statements)

References 69 publications

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“…It is necessary to remember that while Zn-based nanoparticles are advantageous for gut flora and other bodily functions, they may also cause toxicity, increase inflammation, and cause neuropsychiatric problems (Liu et al, 2022). Eventually, it becomes clear that in contrast to TiO2 and silver nanoparticles, scientific research on ZnO nanoparticle-induced changes in the gut microbiota is uncommon.…”

Section: Zinc and Its Combinationsmentioning

confidence: 99%

Use of Nanoparticles as Antioxidant Agents to Combat Bacterial Infections and its Benefits to Intestinal Microbiota and Immune Response

Khan,

Wei,

Fatima

et al. 2023

Complementary and Alternative Medicine: One Health Perspective

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Section: Zinc and Its Combinationsmentioning

confidence: 99%

Use of Nanoparticles as Antioxidant Agents to Combat Bacterial Infections and its Benefits to Intestinal Microbiota and Immune Response

Khan,

Wei,

Fatima

et al. 2023

Complementary and Alternative Medicine: One Health Perspective

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“…Exposure to airborne particulate matter (PM), which contains various toxic components, is widely recognized to be associated with a variety of adverse health impacts. , Inorganic toxic constituents bonded in PM with a diameter of less than 2.5 μm (PM 2.5 ) have already been revealed to be dominated by trace elements (TEs). − The toxic potency of particulate TEs relies on the chemical composition elements, as well as their oxidation states. , Owing to the spatiotemporal heterogeneity of PM 2.5 in the atmosphere and the discrepancies in their toxicity, , exposure to particulate TEs could cause unequal health risks across different regions. − Although the toxic assessment of each TE treated as a single substance has been intensively investigated via various methods, − limited knowledge on the valence state of particulate TEs and their associated toxicities makes it challenging to accurately evaluate their toxic potencies.…”

Section: Introductionmentioning

confidence: 99%

Variable Valence State of Trace Elements Regulating Toxic Potencies of Inorganic Particulate Matter

Chen,

Wu,

Zheng

et al. 2024

Environ. Sci. Technol. Lett.

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Trace element is known to be one major component in determining particulate matter (PM) toxicities. However, there is still no accurate assessment of the toxic potency of the mixed valences. Here, we reported the oxidative stress and cytotoxicity potencies of 14 trace elements in their various valence states and estimated the toxic gaps of inorganic PM resulting from variations in element valences. Substantial discrepancies of up to 3 orders of magnitude in toxic potencies were observed among their different valences. When considering their abundance in PM, the toxicity gaps are estimated to range from 5 to 6 times between the greatest and weakest toxic valence states in the inorganic PM emitted from industrial sources, with iron contributing to 65.5%–91.0% of the overall gaps. Furthermore, the relative toxic variation of inorganic PM shows a significant correlation with the additive toxicities of Fe(II) and Fe(III) ions during aging process. The finding highlights that the multiple coexisting valence states of trace elements in PM need to be taken into account when estimating their toxic potencies.

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“…However, this method suffered from a tedious sample preparation process, high detection cost, low sensitivity, and high artifacts due to undesirable aggregation during the preparation process. , Dynamic light scattering (DLS) is applicable for particle size characterization, but it is susceptible to larger particles and not suitable for the analysis of small aggregated particles and anisotropic or irregularly shaped particles. , X-ray absorption near-edge spectroscopy (XANES) can be used for speciation analysis of NPs, but it suffers from high cost and low sensitivity . Recently, single-particle inductively coupled plasma mass spectrometry (SP-ICP-MS) has been proposed as a promising technique for the determination of the particle number, mass concentration, and size distribution of NPs with very high sensitivity and low LOD that can detect Ag NPs at the ng/L level, ,− which can meet the identification and quantification requirements of low concentration Ag in real environments. However, SP-ICP-MS can detect only one element at a time, limiting some of the speciation information .…”

Section: Introductionmentioning

confidence: 99%

Determination of the Particle Number Concentration, Size Distribution, and Species of Dominant Silver-Containing Nanoparticles in Soils by Single-Particle ICP-MS

Bai

Liu

2023

Environ. Sci. Technol.

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The potential risk of various silver-containing nanoparticles (AgCNPs) in soils is related to the concentration, size, and speciation, but their determination remains a great challenge. Herein, we developed an effective method for determining the particle number, size, and species of dominant AgCNPs in soils, including nanoparticles of silver (Ag NPs), silver chloride (AgCl NPs), and silver sulfide (Ag 2 S NPs). By ultrasonication wand-assisted tetrasodium pyrophosphate extraction, these AgCNPs were extracted efficiently from soils. Then, multistep selective dissolution of Ag NPs, AgCl NPs, and whole Ag NPs/AgCl NPs/Ag 2 S NPs was achieved by 1% (v/v) H 2 O 2 , 5% (v/v) NH 3 •H 2 O, and 10 mM thiourea in 2% (v/v) acetic acid, respectively. Finally, the particle number concentration and size distribution of AgCNPs in the extracts and the remaining AgCNP particle number concentration after each dissolution were determined by single-particle inductively coupled plasma mass spectroscopy for speciation of the dominant AgCNPs. AgCNPs were detected in all five soil samples with the concentrations of 0.23−8.00 × 10 7 particles/g and sizes of 16−110 nm. Ag 2 S NPs were the main form of AgCNPs in the examined soils with the percentage range of 53.98−69.19%, followed by AgCl NPs (11.42−23.31%) and Ag NPs (7.78−16.19%). Our method offers a new approach for evaluating the occurrence and potential risk of AgCNPs in environmental soils.

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Evidence of Indoor Dust Acting as Carrier for Metal-Based Nanoparticles: A Study of Exposure and Oxidative Risks

Cited by 11 publications

References 69 publications

Use of Nanoparticles as Antioxidant Agents to Combat Bacterial Infections and its Benefits to Intestinal Microbiota and Immune Response

Use of Nanoparticles as Antioxidant Agents to Combat Bacterial Infections and its Benefits to Intestinal Microbiota and Immune Response

Variable Valence State of Trace Elements Regulating Toxic Potencies of Inorganic Particulate Matter

Determination of the Particle Number Concentration, Size Distribution, and Species of Dominant Silver-Containing Nanoparticles in Soils by Single-Particle ICP-MS

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