Release of particulate matter from nano-enabled building materials (NEBMs) across their lifecycle: Potential occupational health and safety implications

Singh, Dilpreet; Marrocco, Antonella; Wohlleben, Wendel; Park, Hae-Ryung; Diwadkar, Avantika R.; Himes, Blanca E.; Lu, Quan; Christiani, David C.; Demokritou, Philip

Release of particulate matter from nano-enabled building materials (NEBMs) across their lifecycle: Potential occupational health and safety implications

2022

The present study investigates potential nanomaterial releases and occupational health risks across the lifecycle of nano-enabled building materials (NEBMs), namely, insulations and coatings. We utilized real-world degradation scenarios of a) sanding (mechanical), b) incineration (thermal), and c) accelerated UV-aging (environmental) followed by incineration. Extensive physicochemical characterization of the released lifecycle particulate matter (LCPM) was performed. The LCPM₂.₅ aerosol size fraction was used to assess the acute biological, cytotoxic and inflammatory effects on Calu-3 human lung epithelial cells. RNA-Seq analysis of exposed cells was performed to assess potential for systemic disease. Findings indicated that release dynamics and characteristics of LCPM depended on both the NEBM composition and the degradation scenario(s). Incineration emitted a much higher nanoparticle number concentration than sanding (nearly 4 orders of magnitude), which did not change with prior UV-aging. Released nanofillers during sanding were largely part of the matrix fragments, whereas those during incineration were likely physicochemically transformed. The LCPM from incineration showed higher bioactivity and inflammogenicity compared to sanding or sequential UV-aging and incineration, and more so when metallic nanofillers were present (such as Fe₂O₃). Overall, the study highlights the need for considering real-world exposure and toxicological data across the NEBM lifecycle to perform adequate risk assessments and to ensure workplace health and safety.

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Palabras clave de AGROVOC

aerosols cytotoxicity egf epithelium humans ifn ldh lungs mip pah particulates pcr pet physicochemical properties puf risk sequence analysis star tgf toxicology working conditions

Información bibliográfica

Publicado en

Journal of hazardous materials

Volumen 422 Paginación 126771 ISSN 0304-3894

Editorial

Elsevier B.V.

Otras materias

Nec; Ucsc; Coatings; Nes; Ins1/ins2; Engineered nanomaterials; Exposure and risk assessment; Rna-seq; Pc; Cnt; M-csf; Fgf; Anova; Lcpm; Fbs; S/tem-edx; Tnf; Pe; Pm; G-csf; Osha; Sedd; Gm-csf; Acr; Enm; Mppd; Td; Msigdb; Pcm; Ipf; Gc-ms; Insulations; Cci; Pbs; Eva; Qc; Hepa; Ms-wf; Aim; Bet; Nep; Il; Rel; Nebm; Pp; Occupational health and safety; Inexs; Xrf; Icp-ms; Iso; Rantes; Incineration; Ops; Ros; Pel; Kegg; Ftir; Pdi; Ssa; Ptfe; Pdgf; Xrd; Aps; Gro; Uv-aging/weathering; Emem; Dls; Mig; Smps; Nanofiller; Msds; Dpp; Mdc; Pams; Niosh; Vegf; Raved; Xps; Mcp-1; Sanding; Ip-10; Tga; Gsea

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Inglés

Tipo

Journal Article; Text

En AGRIS desde: 2024-02-28

Formato: MODS

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Este registro bibliográfico ha sido proporcionado por National Agricultural Library

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DOI DOI https://dx.doi.org/10.1016/j.jhazmat.2021.126771

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Release of particulate matter from nano-enabled building materials (NEBMs) across their lifecycle: Potential occupational health and safety implications

2022

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Información bibliográfica