Size dependence of the translocation of inhaled iridium and carbon nanoparticle aggregates from the lung of rats to the blood and secondary target organs

Kreyling, Wolfgang G.; Semmler‐Behnke, Manuela; Seitz, Jürgen; Scymczak, Wilfried; Wenk, Alexander; Mayer, Paula; Takenaka, Shinji; Oberdörster, Günter

doi:10.1080/08958370902942517

Cited by 338 publications

(284 citation statements)

References 16 publications

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“…Kreyling et al also show that nanoparticles distribute into heart at the first blood circulation and start to aggregate into lung after 4 hours. 39 Our results also supports this idea that drugs are distributed in the blood, which is likely to provide greater access to well perfused organs such as the heart, liver and lung.…”

Section: Resultssupporting

confidence: 77%

Gold nanostars for efficient in vitro and in vivo real-time SERS detection and drug delivery via plasmonic-tunable Raman/FTIR imaging

Tian¹,

et al. 2016

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Section: Resultssupporting

confidence: 77%

Gold nanostars for efficient in vitro and in vivo real-time SERS detection and drug delivery via plasmonic-tunable Raman/FTIR imaging

Tian¹,

et al. 2016

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“…The airways are the primary target organs for inhaled particles but evidence from experimental studies with animals shows that ultrafine particles can translocate to other organs, such as the liver, kidneys, heart and brain 13,[31][32][33] . Although the amount of particles accumulating in secondary target organs, such as the kidney, is many times lower than the lung tissue dose, it may be relevant for carcinogenic processes 34,35 .…”

Section: Discussionmentioning

confidence: 99%

“…Most of the study areas were large cities and the surrounding suburban or rural communities, as specified in the online appendix (pp. [4][5][6][7][8][9][10][11][12][13]. A pooled analysis of all cohort data was not possible due to data-transfer and privacy issues but data from the four Stockholm cohorts (SNAC-K, SALT, 60-y/IMPROVE and SDPP) were pooled, and analysed and denoted as one Similarly, data from the two cohorts from the Netherlands (EPIC-MORGEN and EPIC-PROSPECT) were pooled, analysed and denoted as one [EPIC-NL].…”

Section: Design and Participantsmentioning

confidence: 99%

“…Garcia-Perez et al found higher kidney cancer mortality in Spanish general populations exposed to ambient air pollution from incinerators and hazardous waste treatment plants 11 and a cohort study of a general Danish population found positive but statistically insignificant associations between nitrogen oxides (NO x ) at the residence and kidney cancer incidence but no association with amount of street traffic near the residence 12 . Further, ultrafine particles can translocate from the airways to the kidney and other organs of experimental animals 13 and experiments have shown that diesel particles can induce cancer-relevant processes in the kidneys 14,15 .…”

Section: Introductionmentioning

confidence: 99%

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Outdoor air pollution and risk for kidney parenchyma cancer in 14 European cohorts

Raaschou-Nielsen

Pedersen

Stafoggia

et al. 2017

Intl Journal of Cancer

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Several studies have indicated weakly increased risk for kidney cancer among occupational groups exposed to gasoline vapors, engine exhaust, polycyclic aromatic hydrocarbons and other air pollutants, although not consistently. It was the aim to investigate possible associations between outdoor air pollution at the residence and the incidence of kidney parenchyma cancer in the general population. We used data from 14 European cohorts from the ESCAPE study. We geocoded and assessed air pollution concentrations at baseline addresses by land-use regression models for particulate matter (PM10, PM2.5, PMcoarse, PM2.5 absorbance (soot)) and nitrogen oxides (NO2, NOx), and collected data on traffic. We used Cox regression models with adjustment for potential confounders for cohort-specific analyses and random effects models for meta-analyses to calculate summary hazard ratios (HRs). The 289,002 cohort members contributed 4,111,908 person-years at risk. During follow-up (mean 14.2 years) 697 incident cancers of the kidney parenchyma were diagnosed. The meta-analyses showed higher HRs in association with higher PM concentration, e.g. HR = 1.57 (95%CI: 0.81–3.01) per 5 μg/m3 PM2.5 and HR = 1.36 (95%CI: 0.84–2.19) per 10−5m−1 PM2.5 absorbance, albeit never statistically significant. The HRs in association with nitrogen oxides and traffic density on the nearest street were slightly above one. Sensitivity analyses among participants who did not change residence during follow-up showed stronger associations, but none were statistically significant. Our study provides suggestive evidence that exposure to outdoor PM at the residence may be associated with higher risk for kidney parenchyma cancer; the results should be interpreted cautiously as associations may be due to chance

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“…There is some evidence that the pulmonary hazard of single-walled carbon nanotubes might be increased by the formation of nanotube assemblages in the lungs [60]. Kreyling et al [61] found that the translocation from the rat lung to the circulatory system and other organs of assemblages of Ir (2-4 nm) and C (5-10 nm) nanoparticles was reduced if compared with individual (monodisperse) Ir and C nanoparticles. Albanese and Chan [62] studying the uptake of monodisperse and assemblage of Au nanoparticles by mammalian cells, found the uptake to be dependent on cell type with aggregate uptakes of assemblages ranging from 25% lower to a twofold increase if compared with monodisperse nanoparticles.…”

Section: Determinants Of Human Inhalation Hazards Of Persistent Enginmentioning

confidence: 99%

Human health hazards of persistent inorganic and carbon nanoparticles

Reijnders

2012

J Mater Sci

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Persistent inorganic and carbon nanoparticles are increasingly engineered for applications and may also be present in conventional materials such as carbon black. Furthermore, they may originate from conventional non particulate materials by processes such as wear and tear. Persistent inorganic and carbon nanoparticles can be hazardous to humans. Relatively much research regards the hazards of inhaled nanoparticles. These may give rise to respiratory disease and to negative effects on other organs, including the cardiovascular system. Determinants of risk of inhaled nanoparticles include: number, size, surface characteristics, shape, structure, and the formation of assemblages. These determinants should preferentially be considered in exposure metrics. A major molecular mechanism underlying the inhalation hazard of nanoparticles is the generation of reactive oxygen species, but other mechanisms such as interactions with proteins and DNA may also contribute. Health hazards may also be linked to ingestion of persistent inorganic and carbon nanoparticles, dermal exposure and exposure of the eye. Standards for workplace exposure to persistent inorganic and carbon are currently emerging and there are options for hazard reduction by elimination and substitution of hazardous nanoparticles and by engineering controls.

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Size dependence of the translocation of inhaled iridium and carbon nanoparticle aggregates from the lung of rats to the blood and secondary target organs

Cited by 338 publications

References 16 publications

Gold nanostars for efficient in vitro and in vivo real-time SERS detection and drug delivery via plasmonic-tunable Raman/FTIR imaging

Gold nanostars for efficient in vitro and in vivo real-time SERS detection and drug delivery via plasmonic-tunable Raman/FTIR imaging

Outdoor air pollution and risk for kidney parenchyma cancer in 14 European cohorts

Human health hazards of persistent inorganic and carbon nanoparticles

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