221 research outputs found
Resonant Diffusive Radiation in Random Multilayered Systems
We have theoretically shown that the yield of diffuse radiation generated by
relativistic electrons passing random multilayered systems can be increased
when a resonant condition is met. Resonant condition can be satisfied for the
wavelength region representing visible light as well as soft X-rays. The
intensity of diffusive soft X-rays for specific multilayered systems consisting
of two components is compared with the intensity of Cherenkov radiation. For
radiation at photon energy of , the intensity of Resonant Diffusive
Radiation (RDR) generated by electrons passing a multilayer
exceeds the intensity of Cherenkov radiation by a factor of for
electrons with the same energy passing a foil. For a photon energy of
and electrons passing multilayer generate RDR exceeding
Cherenkov radiation generated by electrons passing a foils by a factor
.Comment: Talk presented at the RC2005, Frascati, Ital
High-brightness, narrowband, compact soft x-ray Cherenkov sources in the water window
Narrowband, soft x-ray Cherenkov radiation at energies of 453 and 512 eV has been generated by 10 MeV electrons in, respectively, titanium and vanadium foils. The measured spectral and angular distribution of the radiation, and the measured total yield (10–4 photon per electron) are in agreement with theoretical predictions based on refractive index data. We show that the brightness that can be achieved using a small electron accelerator is sufficient for practical x-ray microscopy in the water-window spectral region
High-brightness, compact soft x-ray source based on Cherenkov radiation
Cherenkov radiation in the soft x-ray region is generated in narrowband regions at inner-shell absorption edges. Mainly low-Z elements are suitable Cherenkov sources, which emit in a photon energy range from 30 eV to 1 keV and require moderate electron energies up to 25 MeV. Generally, in the soft x-ray region materials are highly absorbing and therefore the Cherenkov radiation theory is discussed for absorbing media. A detailed description includes transition radiation that is generated at the interface when the relativistic electron exits the material. We show that the transition radiation yield equation, when it is adopted for an absorbing medium, includes Cherenkov radiation. Based on this approach it is shown that the spectral intensity of Cherenkov radiation in the soft x-ray region is large compared to transition radiation for moderate electron energies. First measurements of soft x-ray Cherenkov radiation in the water-window spectral region, generated in titanium and vanadium foils, are discussed in detail. The measured spectral and angular distribution of the radiation, and the measured total yield (≈ 10 -4 photon per electron) are in agreement with theoretical predictions based on the refractive index data. We show that the brightness that can be achieved using a small electron accelerator is sufficient for practical x-ray microscopy in the water window.</p
A tabletop soft X-ray source based on 5-10 MeV LINACs
We are investigating the feasibility of a novel, tabletop, high-brightness soft X-ray source
Comparison of modelled and monitored deposition fluxes of sulphur and nitrogen to ICP-forest sites in Europe
The EMEP MSC-W Eulerian chemical transport model, and its predictions of deposition of acidifying and eutrophying pollutants over Europe, play a key role in the development of emission control strategies for Europe. It is important that this model is tested against observational data. Here we compare the results of the EMEP model with measured data from 160 sites of the European Union/ICP Forest (Level II) monitoring network, for the years 1997 and 2000. This comparison comprises: (a) Precipitation amount, (b) Total deposition of SO42- to coniferous and deciduous forests, (c) Wet deposition of SO42-, NO3- and NH4+ in open field sites, and (d) Concentrations of SO42-, NO3- and NH4+ in precipitation. Concerning precipitation, the EMEP model and ICP network showed very similar overall levels (within 4% for 1997 and 11% for 2000). The correlation was, however, poor (r2=0.15-0.23). This can be attributed largely to the influence of a few outliers, combined with a small range of rainfall amounts for most points. Correlations between modelled and observed deposition values in this study were rather high (r2 values between 0.4-0.8 for most components and years), with mean values across all sites being within 30%. The EMEP model tends to give somewhat lower values for SO42-, NO3- and NH4+ wet deposition to ICP, but differences in mean values were within 20% in 1997 and 30% in 2000. Modelled and observed concentrations of SO 42-, NO3- and NH4+ in precipitation are very similar on average (differences of 0-14%), with good correlation between modelled and observed data (r 2=0.50-0.78). Differences between the EMEP model and ICP measurements are thought to arise from a mixture of problems with both the observations and model. However, the overall conclusion is that the EMEP model performs rather well in reproducing patterns of S and N deposition to European forests
In Vitro Digestion and Characterization of 2S Albumin and Digestion-Resistant Peptides in Pecan
The 2S albumins are one of the major protein families involved in severe food allergic reactions to nuts, seeds, and legumes, thus potentially making these proteins clinically relevant for allergic sensitization and potential diagnostic markers. In this study, we sought to purify native 2S albumin protein from pecan to further characterize this putative allergen. The purified 2S albumin, Car i 1, from pecan was found to be resistant to digestion by pepsin in simulated gastric fluid (SGF) and comparatively stable to proteolysis by trypsin and pancreatin in simulated intestinal fluid (SIF). Digestion of purified Car i 1 in SGF and SIF resulted in formation of different digestion-resistant peptides that were capable of binding IgE antibodies from allergic individuals. Digestion stability of Car i 1 and formation of digestion-resistant antigenic peptides may explain why it is a potent sensitizing protein in pecan for susceptible individuals. The observation that digestion-resistant peptides are able to bind IgE implies that pecan can trigger systemic allergic reactions even after digestion in the stomach and small intestine
Cytokine Detection and Modulation in Acute Graft vs. Host Disease in Mice
A murine model for acute lethal graft vs. host disease (GVHD) was
used to study the role that a number of cytokines play in the development of lethal GVHD. In this study we focused on the role of IL-1, IL-2, IL-4, IL-6, IFN-γ and TNF-α. Lethally irradiated (C57BL × CBA)F1 mice were reconstituted either with 107 allogeneic BALB/c spleen cells or with a similar number of syngeneic cells, as a control. A significant rise in serum levels of IL-6, TNF-α and IFN-γ levels was found in allogeneically reconstituted mice. This is in contrast to the
syngeneic control group in which no rise was seen. Serum IL-2 and IL-4 levels were below the detection limit. In the supernatant of Con A stimulated spleen cells from allogeneically reconstituted mice
IL-6, IFN-γ and TNF-α concentrations were increased. The
expression of mRNA for cytokines as detected by reverse
transcription PCR was studied in spleen cells. In the allogeneic
reconstituted mice the mRNA expression of IL-1α, IL-2, IL-6,
IFN-γ and TNF-α displayed faster kinetics compared with
that in syngeneic reconstituted mice. The effect of treatment with
recombinant cytokines, antibodies to cytokines and to cytokine
receptors on the development of GVHD was investigated.
Administration of recombinant IL-2 to allogeneically reconstituted
mice strongly increased the morbidity and mortality whereas
injection of IL-1α and TNF-α did not influence survival.
Administration of antibodies against IL-2 or the IL-2 receptor
decreased the morbidity and mortality. Anti-IL-6, anti-IFN-γ,
and anti-TNF-α mAB, on the other hand, did not affect the
morbidity and mortality of GVHD. The results of this study suggest
successive waves of cytokine-secreting cell populations consistent
with the induction of an inflammatory response in the development of
acute GVH disease
Clinical relevance of sensitization to lupine in peanut-sensitized adults
Background: The use of lupine in food has been increasing during the last decade and allergic reactions to lupine have been reported, especially in peanut-allergic patients. The frequency and the degree of cross-reactivity to other legumes are not known. The aim of the study was to investigate the frequency of sensitization to lupine, and in addition to pea and soy, and its clinical relevance, in peanutsensitized patients. Furthermore, to determine the eliciting dose (ED) for lupine using double-blind placebo-controlled food challenges (DBPCFC).
Methods: Thirty-nine unselected peanut-sensitized patients were evaluated by skin prick tests (SPT) and ImmunoCAP to lupine, pea, and soy. Clinical reactivity was measured by DBPCFC for lupine, and by history for pea and soy.
Results: Eighty-two percent of the study population was sensitized to lupine, 55% to pea, and 87% to soy. Clinically relevant sensitization to lupine, pea, or soy occurred in 35%, 29%, and 33% respectively of the study population. None of the patients was aware of the use of lupine in food. The lowest ED for lupine, inducing mild subjective symptoms, was 0.5 mg, and the no observed adverse effect level (NOAEL) was 0.1 mg. No predictive factors for lupine allergy were found.
Conclusion: In peanut-sensitized patients, clinically relevant sensitization to either lupine or to pea or soy occurs frequently. The ED for lupine is low (0.5 mg), which is only five fold higher than for peanut. Patients are not aware of lupine allergy and the presence of lupine in food, indicating that education is important to build awareness
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