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Your search keyword '"Kreyling W"' showing total 9 results
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9 results on '"Kreyling W"'

1. Inter-laboratory comparison of nanoparticle size measurements using dynamic light scattering and differential centrifugal sedimentation

Author

European Commission, Langevin, Dominique, Lozano, O., Salvati, A., Kestens, V., Monopoli, Marco, Raspaud, E., Mariot, S., Salonen, A., Thomas, S., Driessen, M., Haase, A., Nelissen, Inge, Smisdom, N., Pompa, P. P., Maiorano, G., Puntes, Víctor F., Puchowicz, D., Stępnik, M., Suárez, Guillaume, Riediker, Michael, Benetti, F., Mičetić, I., Venturini, M., Kreyling, W. G., Zande, A. M. van der, Bouwmeester, H., Milani, S., Rädler, J. O., Mülhopt, Sonja, Lynch, Iseult, Dawson, K., European Commission, Langevin, Dominique, Lozano, O., Salvati, A., Kestens, V., Monopoli, Marco, Raspaud, E., Mariot, S., Salonen, A., Thomas, S., Driessen, M., Haase, A., Nelissen, Inge, Smisdom, N., Pompa, P. P., Maiorano, G., Puntes, Víctor F., Puchowicz, D., Stępnik, M., Suárez, Guillaume, Riediker, Michael, Benetti, F., Mičetić, I., Venturini, M., Kreyling, W. G., Zande, A. M. van der, Bouwmeester, H., Milani, S., Rädler, J. O., Mülhopt, Sonja, Lynch, Iseult, and Dawson, K.

Abstract

Nanoparticle in vitro toxicity studies often report contradictory results with one main reason being insufficient material characterization. In particular the characterization of nanoparticles in biological media remains challenging. Our aim was to provide robust protocols for two of the most commonly applied techniques for particle sizing, i.e. dynamic light scattering (DLS) and differential centrifugal sedimentation (DCS) that should be readily applicable also for users not specialized in nanoparticle physico-chemical characterization. A large number of participants (40, although not all participated in all rounds) were recruited for a series of inter-laboratory comparison (ILC) studies covering many different instrument types, commercial and custom-built, as another possible source of variation. ILCs were organized in a consecutive manner starting with dispersions in water employing well-characterized near-spherical silica nanoparticles (nominal 19 nm and 100 nm diameter) and two types of functionalized spherical polystyrene nanoparticles (nominal 50 nm diameter). At first each laboratory used their in-house established procedures. In particular for the 19 nm silica particles, the reproducibility of the methods was unacceptably high (reported results were between 10 nm and 50 nm). When comparing the results of the first ILC round it was observed that the DCS methods performed significantly worse than the DLS methods, thus emphasizing the need for standard operating procedures (SOPs). SOPs have been developed by four expert laboratories but were tested for robustness by a larger number of independent users in a second ILC (11 for DLS and 4 for DCS). In a similar approach another SOP for complex biological fluids, i.e. cell culture medium containing serum was developed, again confirmed via an ILC with 8 participating laboratories. Our study confirms that well-established and fit-for-purpose SOPs are indispensable for obtaining reliable and comparable particle size

Published
2018

2. High-Resolution Phase-Contrast Imaging of Submicron Particles in Unstained Lung Tissue

Author

McNulty, I, Eyberger, C, Lai, B, McNulty, I ( I ), Eyberger, C ( C ), Lai, B ( B ), Schittny, J C, Barré, S F, Mokso, R, Haberthür, D, Semmler-Behnke, M, Kreyling, W G, Tsuda, A, Stampanoni, M, McNulty, I, Eyberger, C, Lai, B, McNulty, I ( I ), Eyberger, C ( C ), Lai, B ( B ), Schittny, J C, Barré, S F, Mokso, R, Haberthür, D, Semmler-Behnke, M, Kreyling, W G, Tsuda, A, and Stampanoni, M

Published
2010

3. Expert elicitation on ultrafine particles: likelihood of health effects and causal pathways.

Author

Knol, A.B., de Hartog, J.J., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., Hoek, G., Knol, A.B., de Hartog, J.J., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., and Hoek, G.

Abstract

BACKGROUND: Exposure to fine ambient particulate matter (PM) has consistently been associated with increased morbidity and mortality. The relationship between exposure to ultrafine particles (UFP) and health effects is less firmly established. If UFP cause health effects independently from coarser fractions, this could affect health impact assessment of air pollution, which would possibly lead to alternative policy options to be considered to reduce the disease burden of PM. Therefore, we organized an expert elicitation workshop to assess the evidence for a causal relationship between exposure to UFP and health endpoints. METHODS: An expert elicitation on the health effects of ambient ultrafine particle exposure was carried out, focusing on: 1) the likelihood of causal relationships with key health endpoints, and 2) the likelihood of potential causal pathways for cardiac events. Based on a systematic peer-nomination procedure, fourteen European experts (epidemiologists, toxicologists and clinicians) were selected, of whom twelve attended. They were provided with a briefing book containing key literature. After a group discussion, individual expert judgments in the form of ratings of the likelihood of causal relationships and pathways were obtained using a confidence scheme adapted from the one used by the Intergovernmental Panel on Climate Change. RESULTS: The likelihood of an independent causal relationship between increased short-term UFP exposure and increased all-cause mortality, hospital admissions for cardiovascular and respiratory diseases, aggravation of asthma symptoms and lung function decrements was rated medium to high by most experts. The likelihood for long-term UFP exposure to be causally related to all cause mortality, cardiovascular and respiratory morbidity and lung cancer was rated slightly lower, mostly medium. The experts rated the likelihood of each of the six identified possible causal pathways separately. Out of these six, the highe

Published
2009

4. Expert elicitation on ultrafine particles: likelihood of health effects and causal pathways.

Author

Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Dep Scheikunde, Knol, A.B., de Hartog, J.J., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., Hoek, G., Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Dep Scheikunde, Knol, A.B., de Hartog, J.J., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., and Hoek, G.

Published
2009

5. Expert elicitation on ultrafine particles: likelihood of health effects and causal pathways.

Author

Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Dep Scheikunde, Knol, A.B., de Hartog, J.J., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., Hoek, G., Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Dep Scheikunde, Knol, A.B., de Hartog, J.J., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., and Hoek, G.

Published
2009

6. Expert elicitation on ultrafine particles: likelihood of health effects and causal pathways.

Author

Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Dep Scheikunde, Knol, A.B., de Hartog, J.J., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., Hoek, G., Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Dep Scheikunde, Knol, A.B., de Hartog, J.J., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., and Hoek, G.

Published
2009

8. PM2.5 measurements in ambient aerosol: comparison between Harvard impactor (HI) and the tapered element oscillating microbalance (TEOM) system

Author

Cyrys, J., Dietrich, G., Kreyling, W., Tuch, Thomas, Heinrich, J., Cyrys, J., Dietrich, G., Kreyling, W., Tuch, Thomas, and Heinrich, J.

Abstract

A comparison, based on the regression of 32 daily mean PM2.5 aerosol loadings determined by a tapered element oscillating microbalance (TEOM) and by a Harvard impactor (HI), is reported for the ambient aerosol of Erfurt (Germany). The PM2.5 concentrations measured by the TEOM were systematically lower then those obtained by the HL The ratio of the means TEOM/HI was 0.74 and the regression equation is TEOM = 0.69 X HI + 0.071. This result is consistent with reports elsewhere suggesting that semi-volatile aerosol material is lost from the heated sample filter on the TEOM. To verify this assertion, a heating system was developed for the HI which was able to keep the HI sample filter at 50 +/- 1 degreesC. After the implementation of this heating system, no systematically differences were observed between the TEOM and the heated HI system. The ratio of means was 1.06 and the regression equation TEOM = 1.10 X HI - 0.668. Because the measured levels of ammonium nitrate were very low in Erfurt, we concluded that other compounds like semi-volatile organics were responsible for the loss of particulate material at 50 degreesC.

Published
2001

9. A high-flow humidograph for testing the water uptake by ambient aerosol

Author

ten Brink, H.M., Khlystov, A., Kos, G.P.A., Tuch, Thomas, Roth, C., Kreyling, W., ten Brink, H.M., Khlystov, A., Kos, G.P.A., Tuch, Thomas, Roth, C., and Kreyling, W.

Abstract

A “humidograph” with an air flow rate of 0.4 m3 s−1 was built to investigate the uptake of water and its effect on sizing, collection and light scattering of ambient aerosol. In the humidograph the relative humidity (RH) can be scanned over a large RH trajectory. Its performance was assessed with laboratory particles of ammonium nitrate, ammonium sulfate and sodium chloride that are the major hygroscopic components of ambient aerosol. The increase in size at the deliquescence points, which ideally is a stepwise function of RH, occurs over a range of 3% RH units. This is shown to be an optimum value in a system of such large dimensions. Because the vapor pressure of ammonium nitrate increases significantly with temperature, its evaporative loss was investigated as a function of heating/drying temperature. The loss of pure test aerosol, with a mass distribution similar to that in the ambient atmosphere, was found to be acceptable for drying temperatures of up to 40°C. The sizing of deliquesced aerosol by LAS-X monitors was tested and found to be a complex function of RH. In Berner low-pressure impactors growth of hygroscopic aerosol was not observed, not even at an RH approaching saturation.

Published
2000

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