Role of histamine and platelet-activating factor in allergic rhinitis

This review is focused on the effects of histamine and platelet-activating factor (PAF) in allergic rhinitis and the plausible implications for therapy. Rhinitis is defined as a heterogeneous disorder resulting from an IgE-mediated reaction associated with nasal inflammation of variable intensity. Two phases of response are triggered by an IgE/allergen cross-linking event: the first is the release of preformed mediators such as histamine or interleukins from mast cells and basophils; the second begins when cells start producing lipid-derived mediators. One of these mediators is PAF. Apart from leukotrienes, PAF is perhaps the most potent inflammatory mediator in allergic rhinitis for inducing vascular leakage, a response that may contribute to the appearance of rhinorrhea and nasal congestion.     

GM, KM immunoglobulin allotypes and other serum genetic markers (HP, GC, PI, and TF) among South American populations living at different altitudes (Jujuy Province, Argentina): admixture estimates

A total of 154 individuals belonging to three populations located at different altitude levels in northwest Argentina (San Salvador de Jujuy, 1,200 m; Tilcara, 2,500 m; Abra Pampa, 3,500 m) were studied for the GM, KM, HP, GC, PI and TF genetic systems. Individuals were selected on the basis of ethnocultural affiliation. Gene frequency values were found to be comparable to those reported for other South American populations. The populations studied showed a close genetic identity and an absence of interpopulation heterogeneity. Distribution of the GM phenotypes and haplotypes corresponds to historical data on human settlements in Jujuy Province. The presence of some alleles and the anthropological significance of the allele distribution are discussed, as are the effects of the admixture with Africans and Spaniards. The genetic pattern appears to be the result of a varying admixture due to the genetic isolation in populations located at various altitude levels.     

Integral valorization of Leucaena diversifolia by hydrothermal and pulp processing

Wood from the leguminous tree, Leucaena diversifolia, was subjected to hydrothermal treatment (autohydrolysis) at 160-180 °C for 0-30 min followed by ethanol-soda-anthraquinone delignification. The liquid phase contained 18.65 g of sugars per liter, and the solid phase had a gross heating value of 19.083 MJ/kg, but could also be used as a source of cellulose pulp for the production of paper with tear, burst, and tensile indexes of 2.4 N m²/kg, 2.6 MPa m²/kg and 40.7 kN m/kg, respectively. L. diversifolia lends itself readily to valorization for energy production, and also to integral, fractional exploitation by autohydrolysis and ethanol-soda-anthraquinone delignification, which can additionally bring environmental benefits to cropping zones.     

Effect of anticoagulants on farmed giant kokopu,Galaxias argenteus (Gmelin 1789) haematological parameters and erythrocyte fragility

We sought to determine a compatible anticoagulant for routine haematological and physiological assessments with giant kokopu (Galaxias argenteus), an endemic New Zealand fish. We observed that blood treated with lithium heparin (LH) rapidly coagulated and haemolysed, making it unsuitable for G. argenteus. Dipotassium ethylenediaminetetraacetic acid (K₂EDTA) and trisodium citrate (citrate) effectively prevented blood coagulation. K₂EDTA-treated erythrocytes exhibited the least mean haemolysis and mean corpuscular fragility. Further studies into prolonged storage effects of citrate and K₂EDTA are recommended to find a compatible anticoagulant for use with G. argenteus blood.     

Variation in wood anatomical structure of Douglas-fir defoliated by the western spruce budworm: a case study in the coastal-transitional zone of British Columbia,Canada

Key message

An outbreak of the western spruce budworm temporarily modifies cellular wood anatomy of stem wood in natural and mature Douglas-fir stands impacting wood quality properties.

Abstract

Western spruce budworm (Choristoneura occidentalis Freeman) is a widespread and destructive defoliator of commercially important coniferous forests in western North America. In British Columbia, Canada, Douglas-fir [Pseudotsuga menziesii (Mirb.) Franco] is the most important and widely distributed host. Permanent sample plots were established at a number of locations in southern interior at the beginning of a severe western spruce budworm outbreak in the 1970s. Two of the sites were sampled in 2012 to determine whether modifications had occurred in the anatomical characteristics of stem wood formed during outbreak years. We determined that rings formed during the western spruce budworm 1976–1980 outbreak had a significantly lower proportion of latewood, reduced mean cell wall thickness and smaller radial cell diameters. While the cellular characteristics of the earlywood remained fairly constant, significant reductions in lumen area occurred in 1978 and 1979 at each site. Our study shows that western spruce budworm outbreaks not only reduce annual radial growth, but also temporarily modify cellular characteristics in latewood cells, which has implications for wood density and quality in Douglas-fir.