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5. 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

10. 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

13. Long-term responses of canine lungs to acidic particles

Author

Heyder, J., primary, Beck-Speier, I., additional, Ferron, G. A., additional, Josten, M., additional, Karg, E., additional, Kreyling, W. G., additional, Lenz, A.-G., additional, Maier, K. L., additional, Reitmeier, P., additional, Ruprecht, L., additional, Takenaka, S., additional, Wohland, T., additional, Ziesenis, A., additional, and Schulz, H., additional

Published
2009
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14. Chemical Swarm Robots: Design, Synthesis and Functionality

Author

Weitschies, W., Yarin, A. L., Seville, J. P. K., Waters, M., Stepanek, F., Lehr, C.-M., Langer, K., Kreyling, W. G., Rothen-Rutishauser, B., Brandenberger, C., Lehmann, A., Gehr, P., Hammond, S., Moshgbar, M., Rades, T., Kleinebudde, P., Regdon, G., Grabnar, I., and Stegemann, S.

Subjects
Conference abstract L14, Abstracts of the 8th Central European Symposium on Pharmaceutical Technology (CESPT), Satellite Symposium: 4th International Graz Congress on Pharmaceutical Engineering, September 16th-18th, Graz, Austria, Conference abstract L12, Conference abstract L13, Conference abstract L10, Conference abstract L11, Pharmaceutical Science, Pharmacology, In vivo, Medicine, Conference abstract L05, Conference abstract L06, Conference abstract L03, Conference abstract L04, Conference abstract L01, business.industry, Conference abstract L02, digestive, oral, and skin physiology, Controlled release, In vitro, stomatognathic diseases, Drug delivery, Conference abstract L09, business, Conference abstract L07, Oral retinoid, Conference abstract L08
Abstract

There is very often a great gap between the performance of oral drug delivery systems in vitro and in vivo. During the last decade modern high resolution and/or real time imaging techniques like Magnetic Marker Monitoring (MMM) [1] or Magnetic Resonance Imaging (MRI) [2, 3] have provided new insights into the in vivo performance of drug delivery systems and their interaction with the physiology of the gastrointestinal tract. The physiological conditions for drug absorption along the gastrointestinal tract are far from being constant. This applies to the expression of transport proteins and metabolizing enzymes as well as for the luminal conditions [3, 4]. Accordingly, gastrointestinal passage of a drug delivery system plays a crucial role for drug absorption. Gastrointestinal transit is also not a constant process. It is strongly controlled by feedback mechanisms that involve neuronal and hormonal signal pathways. In contrast to widespread assumption, transit times through all gastrointestinal organs, i. e. stomach, small intestine and colon, are highly variable. Gastric residence times are in general dependent on the energy content of the gastric filling. The rate of gastric emptying under fed conditions is controlled by the energy content of the meal, the energy requirement of the body and feedback mechanisms like the ileal brake mechanism. Furthermore, the rate of gastric emptying under fed conditions is also influenced by particle size. As a consequence, the emptying of drug substances from the digesting stomach is dependent on three main factors, the gastric emptying rate of the meal, the intragastric distribution of the drug and the particle size of the formulation. Examples for the in vivo behavior of different oral controlled release systems and resulting drug plasma concentration profiles will be shown and discussed., Several inter-related issues relevant for the development of novel drug delivery systems are covered in the talk. They encompass: Release from electrospun nanofibers. The present work shows that solid-state diffusion may not be the primary mechanism at play. In such cases the release rate of low molecular weight compounds can be explained by desorption of the embedded compound from nanopores in the fibers, or from the outer surface of the fibers. In addition, the desorption-limited release mechanism is supported by the results for release of two model protein (high molecular weight) compounds from electrospun polycaprolactone (PCL) nanofiber mats. The studied compounds were bovine serum albumin (BSA) and an anti-integrin antibody (AI). The results are consistent with protein release mechanism dominated by desorption from the polymer surface.Nanofluidics for long-term drug delivery. Macroscopically long bundles of parallel straight carbon nanotubes/nanopores produced by either coelectrospinning or the nanofiber template casting method were studied as possible tools for this purpose. These nanopores have diameters in the range of about 300 nm to 1 μm and lengths up to 1 cm.Nanochannels were also used to polymerize sufficiently monodisperse monolithic and core-shell thermo-responsive Poly(N-isopropyl acrylamide) (PNIPAM) nanoparticles of the order of 400 nm dia. at the rate of 107 particles per sec. During their formation, the nanoparticles were loaded with a model fluorescent admixture to study its encapsulation in these promising drug carriers. The release kinetics from the nanoparticles was studied under the conditions of thermal stimulation.Filling nanotubes with low molecular weight fluids or particles is a challenge faced in numerous applications. We recently discovered that self-sustained diffusion at room temperature and atmospheric pressure in a droplet of dilute polymer solution or nanoparticle suspension allows for intercalating several-micron-long nanotubes with polymers, surfactants and nanoparticles with no harm for biologically active species. The method also allows for intercalating nanotubes with drugs sealing them with NIPAM-based thermo- and pH-responsive caps. This allows, in principle, creating nanobots: nanotubes intercalated with anti-cancer drugs, which release them only near a tumor in response to pH stimulus, since tumors and inflammated places are typically more acidic (pH 6.5) than normal tissues (pH 7.4)., Almost alone among the process industries, the pharmaceutical industry has tended to rely on batch operations. This is now changing, driven by a need for better utilisation of resources, particularly clean space, and a demand for more closely controlled processes. Process Analytical Technology (PAT) demands that processes be controlled; this is much more easily engineered into continuous processes. Wet granulation presents a particular problem, in that it has traditionally been carried out in a high-shear mixer-granulator and is not particularly well understood. What is known is that the mechanisms of nucleation, consolidation, growth and breakage occur more-or-less simultaneously in a high shear environment, and in a relatively uncontrolled way. In principle, it would be highly attractive to separate these basic mechanisms so that they occur within a continuous process in a controlled way. This paper proposes the practical development of an overall process for continuous pharmaceutical manufacture, with consideration of process control, instrumentation, validation and real-time product release., Most currently produced pharmaceutical formulations are based on a single molecular entity – the active pharmaceutical ingredient (API) – that is synthesised in a dedicated (bio)chemical plant and then has to be stable throughout the supply chain all the way to the patient. However, many pathogens that the API is supposed to fight use a different strategy: they produce toxins locally within the host and the timing, quantity and even composition of the toxins can vary from host to host and depending on local conditions. The aim of our work is to design and synthesise structured microparticles called chemical robots that are inspired by the structure and function of single-cell organisms. A chemical robot consists of an outer semi-permeable shell and several internal separate compartments able to store and release chemical reagents on demand. A predefined set of chemical or enzymatic reactions take place within the body of the chemical robot and the reaction product is released to the outside environment at a predefined rate. The chemical robot can therefore be thought of as a miniature chemical reactor with internal supply of reactants and a mechanism for triggering their release. The synthesis of chemical robots follows a bottom-up strategy. In the first step, the internal compartments (either based on liposomes or on hollow mesoporous silica particles) are synthesised and pre-filled with the required reagents. Compartments containing different reagents are then mixed in a colloidal suspension called “roboplasma” (like cytoplasma), which is then encapsulated into the external membrane by means of either inkjet printing technology [1] or interfacial polymerisation [2]. Finally, the outer surface of the chemical robots can be functionalised by attaching the desired functional groups e. g. for specific ligand-receptor binding. In this presentation the current status of chemical robot synthesis and functionality will be reviewed and some challenges for further research in this area will be outlined., Inflammatory bowel diseases, such as Morbus Crohn or Colitis Ulcerosa, are painful for the patient and moreover difficult to treat due to the increased mucus production and the occurrence of diarrhea. We could demonstrate that the anti-inflammatory drug rolipram, when delivered by nanoparticles made of biodegradable PLGA, led to a prolonged alleviation of colitis syndromes in rats and a reduction of central nervous side effects, compared to the same dose of the drug administered as an aqueous solution [1, 2]. With respect to skin drug delivery, there is an interesting new hypothesis that nanoparticles may penetrate along hair shafts and to thus accumulate in hair follicles [3]. However, applying PLGA nanoparticles loaded with flufenamic acid, were mostly seen in the intercellular clefts between the keratinocytes [4]. The observed enhancement of epidermal penetration may instead be explained by an acidic microclimate around the hydrolyzing polymer particles, leading to a reduced dissociation and higher lipophilicity/better penetration of flufenamic acid [5]. This data points out that, besides of their small size, the chemical composition of such nanomaterials remains evenly important. Due to their large surface area and excellent blood supply, the lungs are an attractive alternative route for drug delivery, both for local as well as for systemic action. By escaping mucociliary or macrophage clearance, inhaled nanopharmaceuticals could perhaps be used as platform for pulmonary sustained release delivery systems. Finally, nanoplexes formed between biodegradable polymeric carriers and DNA/RNA-based drugs can be used to facilitate cellular transfection [6]. We are currently using this approach for the delivery of telomerase inhibiting antisense oligonucleotides to lung cancer cells [7, 8]., Nanoparticles represent useful drug delivery systems for the specific transport of drugs to target cells and tissues. Over the last 30 years a multitude of different nanoparticle systems based on several starting materials were described. Recently, albumin based nanoparticles were approved by the FDA and EMEA as drug delivery device for tumor therapy. Most often nanoparticles are developed with the aim of selectively transporting a drug to a diseased tissue or organ. To reach this goal, such drug carrier systems may be combined with targeting ligands, which enable a cell-specific accumulation of the nanoparticles. Within the presentation the development of targeted nanoparticles for tumor therapy will be described. The preparation and characterisation of antibody-modified protein-based nanoparticles will be focused [1]. The ability of the particle systems to specifically accumulate in different tumor cell models by receptor-mediated endocytosis will be presented [2]. The results indicate that protein-based nanoparticles conjugated to an antibody against a specific cellular epitope hold promise as selective drug delivery systems for the treatment of cells and tissues expressing a specific cellular antigen., Nanoparticles (NP) are increasingly used in a wide range of applications in science, technology and medicine. Since they are produced for specific purposes which cannot be met by larger particles and bulk material they are likely to be highly reactive, in particular, with biological systems. Direct routes of intake into the organism are (1) inhalation and deposition of NP in the respiratory tract and (2) oral intake of NP and ingestion. Recently there is evidence that nanoparticles can cross body membranes – such as the air-blood-barrier in lungs and the intestinal epithelium – reaching blood circulation and accumulating in secondary target organs. Therefore, direct intravenous administration of NP into circulation provides a powerful tool to shed light on the various interactions of crossing body membranes. To quantitatively determine accumulated NP fractions in such organs the ultimate aim is to balance the NP fractions in all interesting organs and tissues including the remaining body and total excretion. Since these gross determinations of NP contents in organs and tissues do not provide microscopic information on the anatomical and cellular location of nanoparticles such studies are to be complemented by electron microscopy analysis as demonstrated for inhaled titanium dioxide nanoparticles. Based on quantitative biokinetics after all three routes of administration in a rat model (lungs, blood, gastro-intestinal tract) we found small NP fractions (iridium, carbon, titanium dioxide, gold,) in all secondary organs studied including brain, heart and even in foetuses. Fractions per secondary organ were usually below 0.1% of the administered dose but depended strongly on particle size, material and surface modifications as well as on the route of intake. The current knowledge on systemic translocation of NP and their accumulation in secondary target organs and tissues of man and animal models does not suggest to cause acute effects of translocated NP but chronic exposure may lead to elevated NP accumulations resulting eventually in adverse health effects. In fact, there is growing evidence that ambient ultrafine particles and some of the engineered NP can induce acute adverse health effects in humans and in animal models not only in the respiratory tract but also in the cardio-vascular-system. Since NP translocation is so low these effects are likely to be triggered by mediators released in the organ of intake., Understanding the intracellular localisation of biomedical nanoparticles (NPs), such as their co-localisation within cellular organells, e. g. endosomes, lysosomes, mitochondria or nuclei, or, alternatively free in the cytosol, can provide essential information in regard to the potential toxicity of NPs. Polymer coated iron-platinum and gold NPs with a fluorescent dye embedded in the polymer shell were used to investigate their intracellular localization in lung cells, i. e. epithelial cells, macrophages as well as dendritic cells [1], and their potential to induce a pro-inflammatory response dependent on concentration and incubation time [2]. In addition, a quantitivate method [3] was used to evaluate the intracellular gold NP distribution by transmission electron microsopy within time (1h, 4h and 24h). By laser scanning microscopy it was shown that the iron-platinum NP were taken up by all three cell types but macrophages and dendritic cells to a higher extent than epithelial cells. In both cell types of the defence system but not in epithelial cells, a particle dose-dependent increase of tumor necrosis factor-α is found. By comparing the iron-platinum- and the gold NPs as well as the shell only it was shown that the cores combined with the shells are responsible for the induction of inflammatory effects and not the shells alone. The quantitative analysis revealed a significant, non-random intracellular gold NP distribution. No particles were observed in the nucleus, mitochondria, endoplasmatic reticulum or golgi, and the cytosol was not the preferred NP compartment. A significant increased gold NP localization in large vesicles (lysosomes) was found with prolonged post-incubation times, indicating intracellular particle trafficking. In conclusion, by using sophisticated cell culture and microscopic methods, it is possible to determine if NPs exposed to cultured lung cells can penetrate into these cells, inducing an effect and furthermore, in which intracellular compartments they are subsequently localized (trafficking)., Continuous processing offers many advantages in pharmaceutical manufacturing. Low capital investment from a small factory foot print, removal of scale-up issues during process development and support of agile /lean supply chain being key economic benefits. Process analytical technology is a key enabler of continuous processing of pharmaceuticals. The ability of rapid on-line measurement technologies reduces the risk of continuous mixing systems, and can support a QbD approach to control and lead to adoption of Real Time Release strategies for the product. This paper will describe the on-line PAT systems developed for, and installed in Pfizer’s first commercial scale continuous drug product manufacturing facility. The focus will be on design of sample interfaces and the measure capability related to the product specifications. The paper will also include a discussion on method validation philosophies for on-line real time technologies applied to pharmaceutical processes., Different solid state characterization techniques have been widely used to gain a better understanding of the physical solid state characteristics of drug substances and drug formulations. In the past, physical characterization in the pharmaceutical industry mainly relied on x-ray powder diffraction, thermal analysis and microscopy. More recently, vibrational spectroscopic techniques such as infrared (IR), near-infrared (NIR), Raman and solid state nuclear magnetic resonance spectroscopy (SS-NMR) have attracted growing attention in both academia and industry. Even more recently, terahertz pulsed spectroscopy (TPS) has also been utilized to investigate pharmaceutical materials. Spectroscopic techniques possess many advantages over other traditional analytical techniques, for instance the fact that they allow rapid, non-destructive measurements, suitable for use in the process analytical technology (PAT) setting. In this presentation recent examples of the use of spectroscopic techniques especially Raman spectroscopy, NIR and TPS on characterizing pharmaceutical compounds and formulations will be presented. Specific examples from our own work will be presented in this talk. Using the example of the important anticonvulsant drug carbamazepine (CBZ), we will demonstrate that Raman spectroscopy combined with partial least squares (PLS) analyses can be used to quantify the conversion of CBZ polymorphs to the CBZ dihydrate in aqueous suspension. It was found that crystal morphology and polymorphic form have a large effect on the conversion, but that the conversion is not quantitative. An increased understanding of the influence of factors of this conversion such as defects, crystalline face differences, which are important to the physical stability of CBZ, can be obtained using a combination of spectroscopic and imaging techniques., Coating of tablets is an important way to design properties of the final dosage form. The purposes for coating are manifold, e. g. taste masking, humidity protection, gastric resistance, modified release, active coating. In some cases the coating uniformity is critical for the intended use. Therefore, it is important to know coating uniformity of tablets can be achieved and analysed. Several aspects have to be taken into account, namely the intra-tablet coating uniformity, the inter-tablet coating uniformity, and the batch-to-batch coating uniformity. The intra-tablet coating uniformity can be determined by different methods. One modern approach is the determination of coating thickness by Terahertz pulsed imaging. Several thousands measurements can be done to scan the total surface of a coated tablet. It turns out that the coating thickness is higher on the upper and lower surface compared with the central band. This has consequences for the modified drug release. From simulations the film distribution on the tablet surface can be estimated. The inter-tablet coating uniformity can also be estimated from simulations. These simulations are the basis for machine and process optimization in order to minimize the tablet-to-tablet coating variability. In case of active coating the content uniformity is limiting the variability. While the inter-tablet coating uniformity is typically determined offline first attempts are made for inline measurements. Not only the amount and distribution of coated material on the surface of a tablet can influence the product properties, but also the quality of the film. Tablets coated with the same amount of polymer can show different release profiles, because the film thickness differs due to different densities of the film. Thus, not only the film thickness is of importance but also the film structure., The majority of active agents used in medicinal therapy belong to category BCS II, which means that they have poor dissolution and good absorption properties, thus their absorption can be controlled and promoted first of all with various formulation technologies. Melt granulation, which is a thermomechanical technology, is used more and more frequently for the formulation of these poorly soluble active agents. It can be considered as a possible technological operation only if the active agent(s) and excipients to be used are not heat-sensitive, and if the binding material has a solid state at room temperature but can be melted between about 30–90 °C. During the operation the active agent is either melted or is aggregated with the melt of the excipient. Our aim was to create an excipient system with melt granulation the thermoanalytical and physical properties of which correspond to the values required for further processing (tabletting, encapsulation), and in which active agents belonging to category BCS II can also be processed well. Melt granulation was performed with the hydrophilic Gelucire 44/14 (Gattefossé) lipid system, Mg-Al-silicate (Neusilin US2, Fuji Chem. Ind.) was used as a vehicle. Granulates were made with ProCepT high sheer granulator. The particle size distribution and the sphericity of the granulates was examined with Camsizer (Retsch Technology), their flowability with Erweka GT, the physical parameters of the tablets (breaking hardness, friability, disintegration) with Pharmatest equipment, while the dissolution studies were made with a Hanson apparatus. The changes in the thermoanalytical properties of the granulates were followed with DSC and TG (Perkin Elmer). A drug reducing appetite was used as an active agent. During our work we were successful in formulating melt granulates which contained a sufficient quantity of adsorbed lipids to enhance the solubility of BCS II active agents and also had appropriate physical properties necessary for tabletting. It was found that the yield of the granulate increases with the increase in the concentration of Gelucire, in addition to which its density also increases and its thermal stability improves., Variability among individuals that affects clinical outcome is still one of the major challenges in drug development and in the practice of medicine. No single drug is 100% efficacious in all patients. While some individuals obtain the desired effects, there can be no or little therapeutic response in others. Additionally, some patients might experience adverse effects. This interindividual variability is a consequence of myriad of factors, such as disease states, genetic factors, patient age, concomitant medications, and life style factors such as smoking. Most drugs undergo biotransformation and their disposition in the body may involve multiple transport proteins. In addition, they interact with diverse protein targets. This concerted action results in the multigenic nature of a majority of drug responses. Pharmacogenomics, in the future, may provide a complex and more precise set of tools for clinicians to use for diagnosis and treatment. Extensive pharmacometric expertise and model building enables personalization of therapies, which is far from trivial if one considers the complexities of designing the most effective dosage regimen of one or more drugs in conjunction with novel biomarkers. Population pharmacokinetic/pharmacodynamic methods, such as nonlinear mixed effects modeling are able to obtain relevant information in patients who are representative of the target population. They recognize sources of variability such as inter- and intraindividual as important drug characteristics, and seek to explain variability by identifying various covariates, including genetic factors. Additionally, they aim to quantitatively estimate the magnitude of the unexplained part of the variability, which is important because the efficacy and safety of a drug may decrease as unexplained variability increases. This presentation will demonstrate how pharmacogenetics and population pharmacokinetics can personalize treatment with warfarin, leflunomide [1], and risperidone [2]., The dramatic changes in the demographics will increase the number of elderly people from today’s 10 % to 20% of the population in 2050, which is considered of one of the biggest challenge for our society. Geriatric therapeutic care is a multidisciplinary task that starts early on in the therapy of older adults and involves all stakeholders, including the patient, clinicians, physician, pharmacist, nurse, pharmaceutical industry and sciences and health care providers and policy makers [1]. When chronic diseases develop along with the increasing age and people start to take regularly medicines. With other diseases or symptoms occuring additional medications are given in the best intend of curing. Various physiological, biological, physical and social functions are changing with age too, leading to an increasingly heterogeneous patient group of the people 65 years and older. With 30–50% of all prescription drugs elderly patients represent the majority of drug users; however, their needs are poorly recognized in drug products development as well as their perception on medicines and their individual goals in drug prescription and therapy. Changes in the physiological and functional capacities, declining cognitive functions, impaired vision [2], increasing motoric limitations [3], an increasing difficulty of swallowing [4] and an increasing number of chronic diseases occurs with age. Within our drug product development programs the needs of special patient populations like elderly have to be taken into consideration. Age related changes need to be better understood and integrated into an overall therapeutic care plan that reflects the patient expectations and goals in the therapy as well as the patient life style to be executable.

Published
2010
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18. High-Resolution Phase-Contrast Imaging of Submicron Particles in Unstained Lung Tissue.

Author

Schittny, J. C., Barré, S. F., Mokso, R., Haberthür, D., Semmler-Behnke, M., Kreyling, W. G., Tsuda, A., and Stampanoni, M.

Subjects
IMAGING systems, PARTICLES, LOCALIZATION theory, SYNCHROTRON radiation, ABSORPTION, GOLD, LUNGS
Abstract

To access the risks and chances of deposition of submicron particles in the gas-exchange area of the lung, a precise three-dimensional (3D)-localization of the sites of deposition is essential-especially because local peaks of deposition are expected in the acinar tree and in individual alveoli. In this study we developed the workflow for such an investigation. We administered 200-nm gold particles to young adult rats by intratracheal instillation. After fixation and paraffin embedding, their lungs were imaged unstained using synchrotron radiation x-ray tomographic microscopy (SRXTM) at the beamline TOMCAT (Swiss Light Source, Villigen, Switzerland) at sample detector distances of 2.5 mm (absorption contrast) and of 52.5 mm (phase contrast). A segmentation based on a global threshold of grey levels was successfully done on absorption-contrast images for the gold and on the phase-contrast images for the tissue. The smallest spots containing gold possessed a size of 1-2 voxels of 370-nm side length. We conclude that a combination of phase and absorption contrast SRXTM imaging is necessary to obtain the correct segmentation of both tissue and gold particles. This method will be used for the 3D localization of deposited particles in the gas-exchange area of the lung. [ABSTRACT FROM AUTHOR]

Published
2011
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30. Minute Translocation of Inhaled Ultrafine Insoluble Iridium Particles from Lung Epithelium to Extrapulmonary Tissues.

Author

KREYLING, W. G., SEMMLER, M., ERBE, F., MAYER, P., TAKENAKA, S., OBERDÖRSTER, G., and ZIESENIS, A.

Subjects
LUNG diseases, CARDIOVASCULAR diseases, HYPOTHESIS, VENTILATION, YOUNG adults
Abstract

Recently it was speculated that ultrafine particles (UPs) may translocate from deposition sites in the lungs to the systemic circulation. This translocation could lead to accumulation and potentially adverse reactions in critical organs such as liver, heart and even brain, and is consistent with the hypothesis that ultrafine insoluble particles may play a role in the onset of cardiovascular diseases, as growing evidence from epidemiological studies suggests. Aerosols of ultrafine 192Ir radiolabelled iridium particles (15 and 80 nm count median diameter) were produced with a spark generator and inhaled by young adult, healthy, male WKY rats, ventilated for 1 h via an endotracheal tube. After exposure, excreta were collected separately and quantitatively. At time points ranging from 6 h to 7 days, rats were killed, and a complete balance of 192Ir activity retained in various organs, tissues and the remaining carcass, and cleared by excretion, was determined by gamma spectroscopy. In additional studies the biokinetics of UPs and soluble 192Ir were studied after administration by either gavage, lung instillation or intravenous injection. Both batches of ultrafine iridium particles proved to be almost insoluble. Particles retained in the peripheral lungs were predominantly cleared via the mucociliary escalator into the gastrointestinal tract and faeces during the first week after particle inhalation. Additionally, minute particle translocation of <1% of the deposited particles into secondary organs such as liver, spleen, heart and brain was estimated after systemic uptake in the lungs. This study indicates that tiny fractions, at most, of UPs have access from the peripheral lungs to systemic circulation and extrapulmonary organs. Therefore, it is not consistent with the hypothesis that ultrafine insoluble particles may play a role in the onset of cardiovascular diseases. However, chemical particle composition and long-term biokinetics may be another important determinant. [ABSTRACT FROM AUTHOR]

Published
2002
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31. HEALTH EFFECTS OF SULFUR-RELATED ENVIRONMENTAL AIR POLLUTION. II. Cellular and Molecular Parameters of Injury.

Author

Maier, K. L., Beck-Speier, I., Dayal, N., Dirscherl, P., Griese, M., Heilmann, P., Hinze, H., Josten, M., Karg, E., Kreyling, W. G., Lenz, A.-G., Leuschel, L., Meyer, B., Miaskowski, U., Reitmeir, P., Ruprecht, L., Schumann, G., Ziesenis, A., and Heyder, J.

Subjects
SULFUR & the environment, AIR pollution, LABORATORY dogs, HEALTH
Abstract

Recently, concern has been raised about effects related to environmental sulfur and/ or acidic aerosols. To assess long-term effects on nonrespiratory lung function, 8 beagle dogs were exposed over a period of 13 mo for 16.5 h/day to a neutral sulfite aerosol at a sulfur(IV) concentration of 0.32 mg m-3 and for 6 h/day to an acidic sulfate aerosol providing a hydrogen concentration of 15.2 mumol m-3 for inhalation. Prior to exposure the dogs were kept under clean air conditions for 16 mo to establish physiological baseline values for each animal. A second group of eight dogs (control) was kept for the entire study under clean air conditions. No clinical symptoms were identified that could be related to the combined exposure. Biochemical and cellular parameters were analyzed in sequential bronchoalveolar lavage (BAL) fluids. The permeability of the alveolocapillary membrane and diethylenetriaminepentaacetic acid (DTPA) clearance was not affected. Similarly, oxidant burden of the epithelial lining fluid evaluated by levels of oxidation products in the BAL fluid protein fraction remained unchanged. Both the lysosomal enzyme- N -acetylglucosaminidase and the alpha-1-AT were increased (p < .05). In contrast, the cytoplasmic marker lactate dehydrogenase remained unchanged, indicating the absence of severe damages to epithelial cells or phagocytes. Various surfactant functions were not altered during exposure. Three animals showed elevated levels of the type II cell-associated alkaline phosphatase (AP), indicating a nonuniform response of type II cells. Significant correlations were found between AP and total BAL protein, but not between AP and lactate dehydrogenase, suggesting proliferation of alveolar type II cells. Absolute and relative cell counts in the BAL fluid were not influenced by exposure. Alveolar macrophages showed no alterations with regard to their respiratory burst upon stimulation with opsonized zymosan. The percentage of alveolar macrophages capable of phagocytozing latex particles was significantly decreased ( p < .05), while the phagocytosis index was not altered. In view of the results of this and previous studies, we conclude that there is no synergism of effects of these two air pollutants on nonrespiratory lung functions. It is hypothesized that antagonistic effects of these air pollutants on phospholipase A2-dependent pathways account for compensatory physiological mechanisms. The results emphasize the complexity of health effects on lung functions in response to the complex mixture of air pollutants and disclose the precariousness in the risk assessment of air pollutants for humans. [ABSTRACT FROM AUTHOR]

Published
1999
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32. HEALTH EFFECTS OF SULFUR-RELATED ENVIRONMENTAL AIR POLLUTION. V. Lung Structure.

Author

Takenaka, S., Godleski, J. J., Heini, A., Karg, E., Kreyling, W. G., Ritter, B., Schulz, H., Ziesenis, A., and Heyder, J.

Subjects
SULFUR & the environment, AIR pollution, LABORATORY dogs, HEALTH
Abstract

The lungs of 8 male beagle dogs were examined morphologically and morphometrically after exposure for 13 mo to a respirable sulfur( IV) aerosol at a mass concentration of 1.53 mg m-3 (16.5 h/ day) , and to an acidic sulfate aerosol carrying 15.2 mumol m-3 hydrogen ions into the lungs (6 h/day). An additional eight dogs served as unexposed controls. Standard morphometric analyses of both the surface epithelia of the conducting airways and the alveolar region were performed. These analyses showed no difference between the exposure group and control group. However, there was a tendency to an increase in the volume density of bronchial glands in the exposure group. Five of eight exposed animals showed thickened ridges (knob-like structures) at the entrance to alveoli in the alveolar duct and alveolar sac. Transmission electron microscopy revealed that the thickening was mainly due to type II cell proliferation. As the previous experiment using sulfite aerosol only showed no alterations in the proximal alveolar regions, the changes observed may be considered as effects of acidic sulfate aerosol alone or in combination with sulfite. These findings suggest that sulfur aerosols have the potential to induce epithelial alterations in the proximal alveolar region, which is a primary target for air pollutants. [ABSTRACT FROM AUTHOR]

Published
1999
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33. Deposition and Clearance of Fine Particles in the Human Respiratory Tract.

Author

Roth, C., Kreyling, W. G., Scheuch, G., Busch, B., and Stahlhofen, W.

Subjects
PHYSIOLOGICAL effects of air pollution, RESPIRATORY organ physiology, PARTICLE size distribution, ATMOSPHERIC deposition, AIR pollutants, AEROSOLS
Abstract

The article presents a study which examines the deposition and clearance of fine particles in the respiratory tract. Particular focus is given to the application of the radio aerosol Technegas (TcG) from Tetley Manufacturing Ltd. in determining its lung deposition and clearance kinetics from the lungs. It highlights the assessment of the particle size distribution of the TcG-aerosol as well as discusses its dynamic behaviour.

Published
1997
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34. Health Effects of Sulphur-Related Environmental Air Pollution—The Role of Acidic Aerosols.

Author

Heyder, J., Beck-Speier, I., Busch, B., Ferron, G. A., Karg, E., Kreyling, W. G., Lenz, A.-G., Maier, K. L., Schulz, H., Takenaka, S., and Ziesenis, A.

Subjects
AEROSOLS, AIR pollution, DOGS, LONGITUDINAL method, SULFUR
Abstract

The article discusses a study on the role of acidic aerosols in the health effects of sulphur-related environmental air pollution. The study use a more complex air pollution mixture. The long-term exposure study used 16 young adult beagle dogs housed in whole body chambers at minimum restraint and was designed as a longitudinal study.

Published
1997
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35. Particle Deposition in the Canine Respiratory Tract.

Author

Kreyling, W. G., Eder, K., Erbe, F., Ferron, G. A., Haider, B., Karg, E., Ruprecht, L., and Schumann, G.

Abstract

Both total respiratory deposition of inhaled particles during breathing through the nose and thoracic deposition during breathing through an endotracheal tube were measured in beagle dogs using aerosol photometry and respiratory flow anemometry of individual breaths. Both sebacate and cobalt oxide (Co3O4) particles of densities of 0.9 and 3 g cm−3 were used in the aerodynamic domain from 0.4 to 5 μm. For a given dog breathing through the nose, the deposition probability was similar for sebacate and Co3O4 particles of similar aerodynamic particle diameter. The results show that canine thoracic deposition for particles in the aerodynamic domain breathed at rest are not significantly different from those observed in the human respiratory tract rising from 0.12 to 0.35 of the inhaled particles of 0.7 to 3.7 μm aeodynamic diameter. When the fast cleared fraction of thoracic deposition was distinguished from the long-term retained fraction by means of lung clearance analysis of radiolabelled57 Co3O4 particles, it varied from 0.02 to 0.15 of thoracic deposition for particles of 0.7−3.6 μm aerodynamic diameter. The intersubject variability of total deposition during nose breathing resulted from the variability of nasophyryngeal deposition similar to the human intersubject variability nasopharyngeal deposition. [ABSTRACT FROM PUBLISHER]

Published
1994

36. An Interspecies Comparison of the Translocation of Material from Lung to Blood.

Author

Bailey, M. R., Kreyling, W. G., Andre, S., Batchelor, A., Black, A., Collier, C. G., Drosselmeyer, E., Ferron, G. A., Foster, P., Haider, B., Hodgson, A., Metivier, H., Moores, S. R., Morgan, A., Müller, H. L., Patrick, G., Pickering, S., Ramsden, D., Stirling, C., and Talbot, R. J.

Abstract

Preliminary results are reported of measurements on baboons, dogs, guinea pigs, rats, hamsters and mice which inhaled 0.8 or 1.7 μm geometric diameter monodisperse 57Co-labelled cobalt oxide particles. Lung retention at three months ranged from < 30% in rats to > 50% in baboons. Most of the cobalt which cleared from the lung was rapidly excreted. At 6–13 weeks after inhalation of 1.7 μm particles, the fraction of the remaining activity excreted per day in urine ranged from 0.0014 in baboons to 0.008 in dogs, and was approximately twice as high for 0.8 μm particles. Faecal excretion rates were similar for the two sizes, and average rates 6–13 weeks after inhalation ranged from < 0.001 per day in dogs, to > 0.01 per day in the small rodents. Measurements will continue to at least six months after exposure and the study extended to include man. The results, with those of metabolic studies on intravenously injected cobalt, and on ingested cobalt oxide, will be used to derive cobalt translocation rates from the particles in the lung to the blood, and the particle clearance rates to the GI tract for each species. [ABSTRACT FROM PUBLISHER]

Published
1988

37. Influence of the Growth of Salt Aerosol Particles on Deposition in the Lung.

Author

Ferron, G. A., Kreyling, W. G., and Haider, B.

Abstract

The deposition of hygroscopic aerosol particles in the human respiratory tract is calculated for NaCl particles. The calculation uses an estimate of the relative humidity in the upper airways, a theory of particle growth in humid air, and a model for the deposition of aerosol particles in the human respiratory tract. The results show that considerable differences in deposition may occur from that expected for a non growing aerosol particle with the same initial size and density. This is particularly true for deposition in the bronchial region of particles with an initial size of about 3 μm. [ABSTRACT FROM PUBLISHER]

Published
1988

39. A Study of the Human Biokinetics of Inhaled Gadolinium Oxide.

Author

SHUTT, A. L., YOUNGMAN, M. J., RAINE, C., STRADLING, G. N., ETHERINGTON, G., and KREYLING, W. G.

Subjects
RESPIRATORY infections, LABORATORY animals, GADOLINIUM, POLYSTYRENE, DETECTORS
Abstract

An experimental study of the absorption of inhaled gadolinium oxide from the human respiratory tract was conducted. Preliminary estimates of human respiratory tract model (HRTM) parameters describing the time dependence of absorption were derived and are compared with similar parameters determined from the results of experiments with laboratory animals. [ABSTRACT FROM AUTHOR]

Published
2002
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42. Dosimetry and toxicology of inhaled ultrafine particles.

Author

Schmid O, Möller W, Semmler-Behnke M, Ferron GA, Karg E, Lipka J, Schulz H, Kreyling WG, and Stoeger T

Subjects
Air Pollutants metabolism, Animals, Body Burden, Dose-Response Relationship, Drug, Humans, Lung drug effects, Lung metabolism, Particle Size, Particulate Matter metabolism, Risk Assessment, Surface Properties, Tissue Distribution, Air Pollutants toxicity, Inhalation Exposure, Particulate Matter toxicity
Abstract

Both epidemiological and toxicological studies indicate that inhalation and subsequent deposition of airborne particles into the lungs have adverse health effects. Recently, the ultrafine particle (UfP) fraction (diameter < 100 nm) has received particular attention, as their small size may lead to more toxic properties. In this study we summarize the current knowledge on the dosimetry of inhaled particles (including UfPs) with a focus on recent data on translocation of UfPs into secondary target organs (such as brain and heart) suggesting that the lifetime dose of ambient UfPs in secondary target organs is about 10(11) particles. Furthermore, we highlight the main pathways of particle induced toxicity and the reasons for the potentially higher toxicity of UfPs. Finally, we discuss recent evidence indicating that (BET) surface area is the single most relevant dose metric for the toxicity of UfPs, which has important implications for regulatory measures on the toxicity of ambient and engineered particles.

Published
2009
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43. Dose-controlled exposure of A549 epithelial cells at the air-liquid interface to airborne ultrafine carbonaceous particles.

Author

Bitterle E, Karg E, Schroeppel A, Kreyling WG, Tippe A, Ferron GA, Schmid O, Heyder J, Maier KL, and Hofer T

Subjects
Aerosols toxicity, Air, Cell Line, Tumor, Cell Survival drug effects, Dose-Response Relationship, Drug, Gene Expression Regulation drug effects, Heme Oxygenase-1 drug effects, Heme Oxygenase-1 genetics, Humans, Interleukin-6 genetics, Interleukin-8 genetics, Lung cytology, Particle Size, Epithelial Cells drug effects, Particulate Matter adverse effects
Abstract

The geometry of commercially available perfusion chambers designed for harbouring three membrane-based cell cultures was modified for reliable and dose-controlled air-liquid interface (ALI) exposures. Confluent A549 epithelial cells grown on membranes were integrated in the chamber system and supplied with medium from the chamber bottom. Cell viability was not impaired by the conditions of ALI exposure without particles. Expression of the inflammatory cytokines interleukin 6 and interleukin 8 by A549 cells during ALI exposure to filtered air for 6h and subsequent stimulation with tumor necrosis factor was not altered compared to submersed controls, indicating that the cells maintained their functional integrity. Ultrafine carbonaceous model particles with a count median mobility diameter of about 95+/-5 nm were produced by spark discharge at a stable concentration of about 2 x 10(6) cm(-3) and continuously monitored for accurate determination of the exposure dose. Delivery to the ALI exposure system yielded a homogeneous particle deposition over the membranes with a deposition efficiency of 2%. Mid dose exposure of A549 cells to this aerosol for 6h yielded a total particle deposition of (2.6+/-0.4) x 10(8) cm(-2) corresponding to (87+/-23) ng cm(-2). The 2.7-fold (p < or = 0.05) increased transcription of heme oxygenase-1 indicated a sensitive antioxidant and stress response, while cell viability did not reveal a toxic mechanism.

Published
2006
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44. Negligible clearance of ultrafine particles retained in healthy and affected human lungs.

Author

Wiebert P, Sanchez-Crespo A, Seitz J, Falk R, Philipson K, Kreyling WG, Möller W, Sommerer K, Larsson S, and Svartengren M

Subjects
Administration, Inhalation, Aged, Female, Humans, Lung Diseases etiology, Male, Middle Aged, Respiratory Function Tests instrumentation, Respiratory Function Tests methods, Carbon administration & dosage, Inhalation Exposure, Lung Diseases physiopathology, Particle Size, Technetium administration & dosage
Abstract

Ambient particles are believed to be a specific health hazard, although the underlying mechanisms are not fully understood. There are data in the literature indicating fast and substantial systemic uptake of particles from the lung. The present authors have developed an improved method to produce ultrafine particles with more stable radiolabelling and defined particle size range. Fifteen subjects inhaled technetium 99m (99mTc)-labelled carbonaceous particles of 100 nm in size. Radioactivity over the lung was followed for 70 h. The clearance of these ultrafine particles from the lungs and specifically translocation to the circulation was tested. Lung retention for all subjects at 46 h was mean+/-sd 99+/-4.6%. Cumulative leaching of 99mTc activity from the particles was 2.6+/-0.96% at 70 h. The 24-h activity leaching in urine was 1.0+/-0.55%. No evidence of a quantitatively important translocation of 100-nm particles to the systemic circulation from the lungs was found. More research is needed to establish if the approximately 1% cleared activity originates from leached activity or insoluble translocated particles, and whether a few per cent of translocated particles is sufficient to cause harmful effects.

Published
2006
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45. Sources and elemental composition of ambient PM(2.5) in three European cities.

Author

Vallius M, Janssen NA, Heinrich J, Hoek G, Ruuskanen J, Cyrys J, Van Grieken R, de Hartog JJ, Kreyling WG, and Pekkanen J

Subjects
Finland, Fossil Fuels, Germany, Incineration, Industry, Netherlands, Particle Size, Principal Component Analysis, Vehicle Emissions, Air Pollution analysis, Air Pollution statistics & numerical data, Cities statistics & numerical data, Environmental Monitoring statistics & numerical data
Abstract

Source apportionment of urban fine particle mass (PM(2.5)) was performed from data collected during 1998-1999 in Amsterdam (The Netherlands), Erfurt (Germany) and Helsinki (Finland), using principal component analysis (PCA) and multiple linear regression. Six source categories of PM(2.5) were identified in Amsterdam. They were traffic-related particles (30% of the average PM(2.5)), secondary particles (34%), crustal material (7%), oil combustion (11%), industrial and incineration processes (9%), and sea salt (2%). The unidentified PM(2.5) fraction was 7% on the average. In Erfurt, four source categories were extracted with some difficulties in interpretation of source profiles. They were combustion emissions related to traffic (32%), secondary PM (32%), crustal material (21%) and industrial processes (8%). In Erfurt, 3% of PM(2.5) remained unidentified. Air pollution data and source apportionment results from the two Central European cities were compared to previously published results from Helsinki, where about 80% of average PM(2.5) was attributed to transboundary air pollution and particles from traffic and other regional combustion sources. Our results indicate that secondary particles and local combustion processes (mainly traffic) were the most important source categories in all cities; their impact on the average PM(2.5) was almost equal in Amsterdam and Erfurt whereas, in Helsinki, secondary particles made up for as much as half of the total average PM(2.5).

Published
2005
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46. Elemental composition and sources of fine and ultrafine ambient particles in Erfurt, Germany.

Author

Cyrys J, Stölzel M, Heinrich J, Kreyling WG, Menzel N, Wittmaack K, Tuch T, and Wichmann HE

Subjects
Aerosols, Cities, Environmental Monitoring, Germany, Particle Size, Periodicity, Air Pollutants analysis, Metals, Heavy analysis
Abstract

We present the first results of a source apportionment for the urban aerosol in Erfurt, Germany, for the period 1995-1998. The analysis is based on data of particle number concentrations (0.01-2.5 microm; mean 1.8 x 10(4) cm(-3), continuous), the concentration of the ambient gases SO(2), NO, NO(2) and CO (continuous), particle mass less than 2.5 microm (PM(2.5)) and less than 10 microm (PM(10)) (Harvard Impactor sampling, mean PM(2.5) 26.3 micro/m(3), mean PM(10) 38.2 microg/m(3)) and the size fractionated concentrations of 19 elements (impactor sampling 0.05-1.62 microm, PIXE analysis). We determined: (a) the correlations between (i) the 1- and 24-h average concentrations of the gaseous pollutants and the particle number as well as the particle mass concentration and (ii) between the 24-h elemental concentrations; (b) Crustal Enrichment Factors for the PIXE elements using Si as reference element; and (c) the diurnal pattern of the measured pollutants on weekdays and on weekends. The highly correlated PIXE elements Si, Al, Ti and Ca having low enrichment factors were identified as soil elements. The strong correlation of particle number concentrations with NO, which is considered to be typically emitted by traffic, and the striking similarity of their diurnal variation suggest that a sizable fraction of the particle number concentration is associated with emission from vehicles. Besides NO and particle number concentrations other pollutants such as NO(2), CO as well as the elements Zn and Cu were strongly correlated and appear to reflect motor vehicle traffic. Sulfur could be a tracer for coal combustion, however, it was not correlated with any of the quoted elements. Highly correlated elements V and Ni have similar enrichment factors and are considered as tracers for oil combustion.

Published
2003
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47. RBDATA-EULEP: providing information to improve internal dosimetry.

Author

Bailey MR, Ansoborlo E, Camner P, Chazel V, Fritsch P, Hodgson A, Kreyling WG, Le Gall B, Newton D, Paquet F, Stradling N, and Taylor DM

Subjects
Body Burden, Europe, Humans, Information Storage and Retrieval methods, Information Storage and Retrieval standards, International Cooperation, Metabolic Clearance Rate, Quality Control, Radiation Dosage, Radiation Protection methods, Radioisotopes analysis, Societies, Scientific, Database Management Systems, Databases, Factual standards, Models, Biological, Radiation Protection standards, Radioisotopes pharmacokinetics, Radiometry methods, Radiometry standards
Abstract

The overall aim of the concerted action RBDATA-EULEP is to provide information to improve the assessments of intakes of radionuclides and of the resulting doses. This involves a review of the behaviour of radionuclides following intake, and the transfer of expertise on methodology by organising small training workshops. The main activity is the development of an electronic database, effectively an annotated bibliography, but the electronic format used facilitates extension, updating and information retrieval. It consists of linked tables of references and experiments, with details and comments on the materials, procedures and results. By June 2002 it contained information on 524 inhalation, 282 ingestion and 164 injection experiments from 391 references. It will be extended, and Internet access provided. Prospective users include groups developing standards for internal dosimetry, scientists conducting research on radionuclide biokinetics and health physicists assessing the consequences of accidental intakes.

Published
2003
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48. Comparison of predicted with observed biokinetics of inhaled plutonium nitrate and gadolinium oxide in humans.

Author

Hodgson A, Shutt AL, Etherington G, Hodgson SA, Rance E, Stradling GN, Youngman MJ, Ziesenis A, and Kreyling WG

Subjects
Absorption, Administration, Inhalation, Aerosols, Animals, Computer Simulation, Dogs, Female, Gadolinium administration & dosage, Humans, Nitrates administration & dosage, Organ Specificity, Plutonium administration & dosage, Radiation Dosage, Rats, Gadolinium pharmacokinetics, Lung metabolism, Models, Biological, Nitrates pharmacokinetics, Plutonium pharmacokinetics, Radiometry methods, Species Specificity
Abstract

The absorption kinetics to blood of plutonium and gadolinium after inhalation as nitrate and oxide in humans and animals has been studied. For each material, values describing the time dependence of absorption were derived from the studies in animals and used with the ICRP human respiratory tract model to predict lung retention and cumulative amounts to blood for the volunteers inhaling the same materials. Comparison with the observed behaviour in the volunteers suggests that absorption of plutonium and gadolinium is reasonably species independent, and that data obtained from animal studies can be used to assess their biokinetic behaviour in humans.

Published
2003
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49. Increased asthma medication use in association with ambient fine and ultrafine particles.

Author

von Klot S, Wölke G, Tuch T, Heinrich J, Dockery DW, Schwartz J, Kreyling WG, Wichmann HE, and Peters A

Subjects
Adrenergic beta-Agonists therapeutic use, Adult, Aged, Air Pollution analysis, Asthma physiopathology, Female, Glucocorticoids therapeutic use, Humans, Male, Meteorological Concepts, Middle Aged, Particle Size, Respiratory Sounds etiology, Sulfur Dioxide analysis, Temperature, Air Pollution adverse effects, Asthma drug therapy
Abstract

The association between particulate air pollution and asthma medication use and symptoms was assessed in a panel study of 53 adult asthmatics in Erfurt, Germany in winter 1996/1997. Number concentrations of ultrafine particles, 0.01-0.1 microm in diameter (NC(0.01-0.1), mean 17,300 x cm(-3), and mass concentrations of fine particles 0.01-2.5 microm in diameter (MC(0.01-2.5)), mean 30.3 microg x m(-3), were measured concurrently. They were not highly correlated (r=0.45). The associations between ambient particle concentrations and the prevalence of inhaled beta2-agonist, corticosteroid use and asthma symptoms, were analysed separately with logistic regression models, adjusting for trend, temperature, weekend, holidays, and first order autocorrelation of the error. Cumulative exposures over 14 days of ultrafine and fine particles were associated with corticosteroid use. Beta2-agonist use was associated with 5-day mean NC(0.01-0.1) and MC(0.01-2.5). The prevalence of asthma symptoms was associated with ambient particle concentrations. The results suggest that reported asthma medication use and symptoms increase in association with particulate air pollution and gaseous pollutants such as nitrogen dioxide.

Published
2002
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50. Daily mortality and fine and ultrafine particles in Erfurt, Germany part I: role of particle number and particle mass.

Author

Wichmann HE, Spix C, Tuch T, Wölke G, Peters A, Heinrich J, Kreyling WG, and Heyder J

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Air Pollution analysis, Cardiovascular Diseases mortality, Cause of Death, Child, Child, Preschool, Environmental Exposure analysis, Germany epidemiology, Humans, Infant, Infant, Newborn, Middle Aged, Models, Statistical, Particle Size, Regression Analysis, Respiratory Tract Diseases mortality, Risk, Air Pollution adverse effects, Environmental Exposure adverse effects, Mortality
Abstract

Increases in morbidity and mortality have been observed consistently and coherently in association with ambient air pollution. A number of studies on short-term effects have identified ambient particles as a major pollutant in urban air. This study, conducted in Erfurt, Germany, investigated the association of mortality not only with ambient particles but also with gaseous pollutants and indicators of sources. Part I of this study concentrates on particles. Data were collected prospectively over a 3.5-year period from September 1995 to December 1998. Death certificates were obtained from the local authorities and aggregated to daily time series of total counts and counts for subgroups. In addition to standard data for particle mass with diameters < or = 2.5 microm (PM2.5)* or < or = 10 microm (PM10) from impactors, a mobile aerosol spectrometer (MAS) was used to obtain size-specific number and mass concentration data in six size classes between 0.01 microm and 2.5 microm. Particles smaller than 0.1 microm were labeled ultrafine particles (three size classes), and particles between 0.1 and 2.5 microm were termed fine particles (three size classes). Concentrations of the gases sulfur dioxide (SO2), nitrogen dioxide (NO2), and carbon monoxide (CO) were also measured. The daily average total number concentration was 18,000 particles/cm3 with 88% of particles below 0.1 pm and 58% below 0.03 microm in diameter. The average mass concentration (PM2.5) was 26 microg/m3; of this, 75% of particles were between 0.1 and 0.5 microm in diameter. Other average concentrations were 38 microg/m3 for PM10, 17 microg/m3 for SO2, 36 microg/m3 for NO2, and 600 microg/m3 for CO. Ambient air pollution demonstrated a strong seasonality with maximum concentrations in winter. Across the study period, fine particle mass decreased, whereas ultrafine particle number was unchanged. The proportion of ultrafine particles below 0.03 microm diameter increased compared with the proportion of other particles. During the study, concentrations of SO2 and CO also decreased, whereas the concentration of NO2 remained unchanged. The data were analyzed using Poisson regression techniques with generalized additive modeling (GAM) to allow nonparametric adjustment for the confounders. Both the best single-day lag and the overall association of multiple days fitted by a polynomial distributed lag model were used to assess the lag structure between air pollution and death. Mortality increased in association with level of ambient air pollution after adjustment for season, influenza epidemics, day of week, and weather. In the sensitivity analyses, the results proved stable against changes of the confounder model. We saw comparable associations for ultrafine and fine particles in a distributed lag model where the contribution of the previous 4 to 5 days was considered. Furthermore, the data suggest a somewhat more delayed association of ultrafine particles than of fine particles if single-day lags are considered. The associations tended to be stronger in winter than in summer and at ages below 70 years compared to ages above 70 years. Analysis of the prevalent diseases mentioned on death certificates revealed that the overall association for respiratory diseases was slightly stronger than for cardiovascular diseases. In two-pollutant models, associations of ultrafine and fine particles seemed to be largely independent of each other, and the risk was enhanced if both were considered at the same time. Furthermore, when the associations were summed for the six size classes between 0.01 and 2.5 microm, the overall association was clearly stronger than the associations of the individual size classes alone. Associations were observed for SO2, NO2, and CO with mortality despite low concentrations of these gases. These associations disappeared in two-pollutant models for NO2 and CO, but they remained stable for SO2. The persistence of the SO2 effect was interpreted as artifact, however, because the SO2 concentration was much below levels at which effects are usually expected. Furthermore, the results for SO2 were inconsistent with those from earlier studies conducted in Erfurt. We conclude that both fine particles (represented by particle mass) and ultrafine particles (represented by particle number) showed independent effects on mortality at ambient concentrations. Comparable associations for gaseous pollutants were interpreted as artifacts of collinearity with particles from the same sources.

Published
2000

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