Occupational exposure to inhaled nanoparticles: Are young workers being left in the dust?

Graczyk, Halshka; Riediker, Michael

doi:10.1002/1348-9585.12056

Cited by 11 publications

(7 citation statements)

References 36 publications

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“…The particulates of 10-100 nm are primarily deposited in the alveolar region where the gas exchange occurs. Rather than only interact with lung cells, nano-sized dusts are of particular concern as they may translocate and be transported by mechanism such as macrophage-mediated clearance (Kreyling 1990;Kreyling et al 2012), interstitial-lymphatic clearance (Semmler-Behnke et al 2014) and the blood circulation (Kreyling et al 2017;Graczyk and Riediker 2019) to distance sites and organs. The predominant mechanism for dust clearance from peripheral lungs is uptake by lung surface macrophages and transport to the larynx.…”

Section: Mechanisms Of Health Impacts Of Nano-dustsmentioning

confidence: 99%

“…When suspended in air, smaller airborne particles of dust can be a great risk to the miners' respirable system. It has been proved that the smaller the aerodynamic diameter of the inhaled dust particle, the more likely it will be deposited more deeply in the respirable tract (Prata 2018;Gasparotto et al 2018;Gianoncelli et al 2018;Entwistle et al 2019;Graczyk and Riediker 2019). A dramatic increase of the prevalence of progressive massive fibrosis among working underground coal miners in central Appalachia has been observed in the past decade although stringent regulations have been proposed by MSHA and NIOSH, as shown in Fig.…”

Section: Introductionmentioning

confidence: 99%

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Respirable nano-particulate generations and their pathogenesis in mining workplaces: a review

Fan

Liu

2021

Int J Coal Sci Technol

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There is a growing concern in mining community about the contribution of nano-particulates to miner’s health. Despite the health influence of respirable dusts and associated lung diseases have been recognized for decades in the mining industry, the nano-scale particulates accompanying with complicated physiochemical properties and their enormous contribution in quantity have been drawing attentions only in recent a few years because of the advancement of nano-science discipline. In this review, we examine the current regulations of dusts exposure and the dominant mass-based monitoring methods to point out the ignorance of nano-particulates in mining industry. The recognized mining-related nano-particulates sources are summarized to identify the mechanically generated finer particulates including particles and aerosols. In addition, the mechanism of adverse health impact on miner with exposure to nano-scale particulates is discussed in a detail to emphasize their substantial detriment as a potential respiratory hazard. Characterization of the complex physiochemical properties of nano-particulates are then summarized and discussed because these properties could be different from regular respirable dusts due to their dramatically increased surface area and particulate counts. The intent of this review is to demonstrate the potential of adverse health effect of nano-particulate on the mine personals throughout the mining cycle and to identify the research gaps of the mine nano-particulate characterization and quantification. We suggest that further understanding of the mining induced nano-particulate properties and their pathogenesis are critical for the future engineering control measure to mitigate the potential health threat for future miners.

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Section: Mechanisms Of Health Impacts Of Nano-dustsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Respirable nano-particulate generations and their pathogenesis in mining workplaces: a review

Fan

Liu

2021

Int J Coal Sci Technol

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“…Przez lata pracownicy różnych branż przemysłowych byli narażeni na przypadkowe ultradrobne cząstki, a badania epidemiologiczne wykazały związek między narażeniem na ten typ zanieczyszczeń powietrza w wyższych stężeniach i niekorzystnymi skutkami zdrowotnymi, prowadzącymi do chorób płuc. Współczesny ciągły wzrost produkcji i zastosowań NPs budzi obawy dotyczące narażenia zawodowego i będących jego efektem skutków zdrowotnych [10]. Szczególnie niepokojący jest fakt, że ekspozycja na projektowane NPs zawieszone w powietrzu ma największe znaczenie właśnie w aspekcie bezpieczeństwa i zdrowia w miejscu pracy.…”

Section: źRódła Narażenia Inhalacyjnegounclassified

Toxicokinetics and toxicity of nanoparticles in the course of inhalation exposure

Fal¹,

Czajka²,

Matysiak‐Kucharek³

et al. 2020

Med Og Nauk Zdr.

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Wprowadzenie i cel pracy. Współczesny dynamiczny rozwój nanotechnologii zapewnia społeczeństwu wiele korzyści. Za sprawą niemal nieograniczonych manipulacji materią w nanoskali powstają nanomateriały (NMs), wykazujące odmienne właściwości fizykochemiczne w porównaniu do swoich odpowiedników o większych rozmiarach. Celem niniejszej pracy jest przedstawienie czynników determinujących zachowanie toksykokinetyczne nanocząstek (NPs) wskutek narażenia inhalacyjnego oraz potencjalnych losów NPs w układzie oddechowym i toksycznych efektów ich oddziaływań ze strukturami biologicznymi. Omówiono w niej najnowsze postępy i ograniczenia związane z oceną i zarządzaniem ryzykiem narażenia na NPs. Skrócony opis stanu wiedzy. Możliwość nadawania NMs pożądanych cech przekłada się na szeroki wachlarz ich zastosowań niemal w każdej dziedzinie życia. Pociąga to za sobą rosnące ryzyko narażenia ludzi na NMs, w tym NPs, których nie należy traktować analogicznie do innych zanieczyszczeń chemicznych. NPs przekraczają bariery ochronne organizmu zarówno drogą dermalną, pokarmową, jak i inhalacyjną, jednak ta ostatnia ma największe znaczenie w odniesieniu do toksycznych efektów ekspozycji. Wiele projektowanych NPs wykazuje zdolność pokonywania barier fizycznych, biochemicznych oraz komórkowych układu oddechowego i przejścia przez powierzchnię oddechową do krwiobiegu. Podsumowanie. Toksykologiczna ocena ryzyka narażenia na NMs powinna zachodzić równocześnie z opracowywaniem nowych NMs, w celu zapewnienia zdrowia i bezpieczeństwa ludzi oraz ochrony środowiska. Dokładne zbadanie toksykokinetyki wdychanych NPs ma zatem ogromne znaczenie dla wiarygodnego oszacowania ryzyka ekspozycji.

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“…Moreover, industries with the usage of AuNPs have been identified as the potential source of occupational exposure, which may pose unpredictable adverse health effects to the exposed workers. (Graczyk and Riediker, 2019;Pietroiusti and Magrini, 2014).…”

Section: Introductionmentioning

confidence: 99%

Discriminatory alteration of carbohydrate homeostasis by gold nanoparticles ingestion in Drosophila

et al. 2020

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With the extensive usage of gold nanoparticles (AuNPs) in various industrial sectors and biomedical applications, evaluation of their possible effects on human health becomes imperative. Therefore, the present study was aimed toward assessing the dose-dependent impact of AuNPs ingestion on metabolic homeostasis using Drosophila melanogaster as a model system. We found that larval ingestion of higher dose of AuNPs significantly reduced body weight. Further analysis of the crucial energy reservoir showed selective alteration in carbohydrate levels without any change in the lipid and protein levels. Transcriptional downregulation of glycogen synthase further supported impaired glycogen metabolism in flies supplemented with higher dose of AuNPs. Additionally, ingestion of higher dose of AuNPs in larvae results in significantly increased levels of reactive oxygen species (ROS) in the peripheral tissues, suggestive of stress condition. Our findings clearly imply that supplementing higher doses of AuNPs at an early developmental stage can potentially cause weight loss, impair glycogen metabolism, and elevate ROS production. Therefore, determination of a biologically effective dose is critical for the safety of mankind and vulnerable populations at the workplace.

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Occupational exposure to inhaled nanoparticles: Are young workers being left in the dust?

Cited by 11 publications

References 36 publications

Respirable nano-particulate generations and their pathogenesis in mining workplaces: a review

Respirable nano-particulate generations and their pathogenesis in mining workplaces: a review

Toxicokinetics and toxicity of nanoparticles in the course of inhalation exposure

Discriminatory alteration of carbohydrate homeostasis by gold nanoparticles ingestion in Drosophila

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