Do gender and puberty influence allergic diseases?

Differences between biological sex, gender identity, and their impact on health may have significant implications for the prevention, screening, diagnosis, and treatment of several diseases, including allergies. Asthma, allergic rhinitis (AR), atopic dermatitis (AD), and allergic conjunctivitis (AC) have different prevalences and different risk factors in infancy. Although boys present allergies more often in childhood, it quickly changes during girls' sexual development, leading to lifelong female predominance of allergic diseases. This can be explained by the influence of sexual hormones, different lifestyles adopted by men and women, microbiota diversity, diet distinctions, professional options, and adherence to treatment, among others. Gender-related aspects should become essential parameters in allergology to diagnostic and therapeutic stratification, associated with molecular, genetic, and epigenetic patterns. Longitudinal studies would be interesting to evaluate possible mechanisms underlying these differences in prevalence. Sex- and gender-specific observations beyond 14 years of age are scarce and further allergic multimorbidity studies in different populations, especially in adults, are necessary.

Climate change, allergy and asthma, and the role of tropical forests.

BACKGROUND: Tropical forests cover less than 10 per cent of all land area (1.8 × 107 km2) and over half of the tropical-forest area (1.1 × 107 Km2) is represented by humid tropical forests (also called tropical rainforests). The Amazon basin contains the largest rainforest on Earth, almost 5.8 million km2, and occupies about 40% of South America; more than 60% of the basin is located in Brazil and the rest in Bolivia, Colombia, Ecuador, French Guiana, Guyana, Peru, Suriname and Venezuela. Over the past decade the positive role of tropical rainforests in capturing large amounts of atmospheric carbon dioxide (CO2) has been demonstrated. In response to the increase in atmospheric CO2 concentration, tropical forests act as a global carbon sink. MAIN BODY: Accumulation of carbon in the tropical terrestrial biosphere strongly contributes to slowing the rate of increase of CO2 into the atmosphere, thus resulting in the reduction of greenhouse gas effect. Tropical rainforests have been estimated to account for 32-36% of terrestrial Net Primary Productivity (NPP) that is the difference between total forest photosynthesis and plant respiration. Tropical rainforests have been acting as a strong carbon sink in this way for decades. However, over the past years, increased concentrations of greenhouse gases, and especially CO2, in the atmosphere have significantly affected the net carbon balance of tropical rainforests, and have warmed the planet substantially driving climate changes through more severe and prolonged heat waves, variability in temperature, increased air pollution, forest fires, droughts, and floods. The role of tropical forests in mitigating climate change is therefore critical. Over the past 30 years almost 600,000 km2 have been deforested in Brazil alone due to the rapid development of Amazonia, this is the reason why currently the region is one of the 'hotspots' of global environmental change on the planet. CONCLUSION: Deforestation represents the second largest anthropogenic source of CO2 to the atmosphere, after fossil fuel combustion. There are many causes of deforestation, including socioeconomic and natural factors, such as clear-cutting for agriculture, ranching and development, unsustainable logging for timber, as well as droughts, fires and degradation due to climate change. About natural causes of forest degradation, in the context of the Amazon, the major agent of change in the forest ecosystem would most likely be decreased dry-season precipitation. Of the 23 global climate models employed by the Intergovernmental Panel on Climate Change (IPCC) in their 2007 report, 50-70% predict a substantial (above 20%) reduction of dry-season rainfall in eastern Amazonia under mid-range greenhouse gas emissions scenarios, 40% in central Amazonia and 20% in the west. While annual carbon emissions from fossil-fuel combustion have been continually increasing since 1960s, historical trends of deforestation and associated carbon emissions have remained poorly understood.

Guia prático sobre controle ambiental para pacientes com rinite alérgica / Practical guide to environmental control for patients with allergic rhinitis

A asma e a rinite alérgica são doenças frequentes e acometem parcela significativa da população, sobretudo crianças. Frequentemente a asma e a rinite coexistem e tem sido documentado que a presença de rinite potencialmente aumenta a gravidade da asma e impacta negativamente na qualidade de vida. Entre os agentes desencadeantes/agravantes dessas doenças são apontados: aeroalérgenos (ácaros do pó domiciliar, fungos, alérgenos de baratas, epitélio de animais, polens e ocupacionais), poluentes intradomiciliares e extradomiciliares (fumaça de tabaco, material particulado liberado pela cocção/aquecimento ­ gás de cozinha, fogão a lenha) e irritantes (odores fortes, arcondicionado). O objetivo desse estudo foi identificar as medidas recomendadas para reduzir a exposição de pacientes sensíveis a esses agentes. Realizou-se busca em base de dados MEDLINE, SciELO e LILACS empregando-se os descritores: environmental control, mite, cockroach, fungi, furry pets, pollen, irritants, smoking, indoor pollution, cooking. Foram revisados os principais estudos e elaborou-se um documento em que são discutidas as relações entre exposição e aparecimento de sintomas, assim como as medidas apontadas como tendo potencial para evitar a exacerbação/ agravamento das doenças alérgicas respiratórias.

Asthma and allergic rhinitis are highly prevalent diseases and they affect a significant share of the population, especially children. Very often, asthma and rhinitis coexist, and the presence of rhinitis has been shown to potentially increase the severity of asthma, with a negative impact on quality of life. Among the triggering or aggravating agents of these conditions it is possible to list: aeroallergens (house dust mites, fungi, cockroach allergens, animal epithelium, pollens and occupational allergens), indoor and outdoor pollutants (tobacco smoke, particulate matter released by cooking/heating ­ cooking gas, wood stoves), and irritants (strong odors, air conditioning). The aim of this study was to identify measures recommended to reduce the exposure of patients sensitive to these agents. A search was conducted on the MEDLINE, SciELO, and LILACS databases, using the following keywords: environmental control, mite, cockroach, fungi, furry pets, pollen, irritants, smoking, indoor pollution, cooking. The main studies were reviewed, and a report was prepared in which the relationships between exposure and the onset of symptoms are discussed, and measures with a potential to prevent exacerbation/ aggravation of allergic respiratory diseases are presented.