Airway Inflammation and Allergen Specific IgE Production May Persist Longer Than Airway Hyperresponsiveness in Mice

During the preclinical study of new therapeutic modality, we evaluate whether the treatment can reverse the established asthma phenotypes in animal model. However, few have reported on the long term persistence of asthma phenotypes upon re-challenge with allergen (secondary challenge) in animal model. We evaluated the persistence of asthma phenotypes by secondary challenge at different times in previously challenged murine asthma model. BALB/c mice sensitized by intraperitoneal injections of 20 µgram of ovalbumin and 1 mg of alum on days 1 and 14 were challenged initially by the inhalation of 1% ovalbumin for 30 min on days 21, 22, and 23. Each group of mice was rechallenged at 5, 7, 9, or 12 weeks after the initial challenge. Airway hyperresponsiveness, BAL fluid, airway histology and serum ovalbumin-specific IgE level were evaluated. Airway eosinophilia, airway inflammation and serum ovalbumin-specific IgE production persisted upon secondary allergen challenges at least 12 weeks after the initial challenge. However, airway hyperresponsiveness persisted only until mice were rechallenged 7 weeks after the initial challenge. Airway inflammation and allergen specific IgE production may persist longer than airway hyperresponsiveness in a mouse asthma model of secondary allergen challenge

Nanoscience, nanotechnology and spectrometry

Nanoscience has outgrown its infancy, and nanotechnology has found important applications in our daily life — with many more to come. Although the central concepts of the nano world, namely the changes of particular physical properties on the length scale of individual atoms and molecules, have been known and developed for quite some time already, experimental advances since the 1980s and recognition of the potential of nano- materials led to a genuine breakthrough of the inherently multidisciplinary nanoscience field. Analytical nanoscience and nanotechnology and especially the use of micro and nano electro mechanical systems, of the quantum dots and of mass spectrometry, currently provide one of the most promising avenues for developments in analytical science, derived from their two main fields of action, namely (a) the analysis of nano-structured materials and (b) their use as new tools for analysis. An overview is given of recent developments and trends in the field, highlighting the importance and point out future directions, while also touching drawbacks, such as emerging concerns about health and environmental issues

Post-blast explosive residue : a review of formation and dispersion theories and experimental research

The presence of undetonated explosive residues following high order detonations is not uncommon, however the mechanism of their formation, or survival, is unknown. The existence of these residues impacts on various scenarios, for example their detection at a bomb scene allows for the identification of the explosive charge used, whilst their persistence during industrial explosions can affect the safety and environmental remediation efforts at these sites. This review article outlines the theoretical constructs regarding the formation of explosive residues during detonation and their subsequent dispersal and deposition in the surrounding media. This includes the chemical and physical aspects of detonation and how they could allow for undetonated particles to remain. The experimental and computational research conducted to date is discussed and compared to the theory in order to provide a holistic review of the phenomeno

Fishing vessel safety: blueprint for a national program

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