54 resultados para Pyrogenic Exotoxins


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Se llevó a cabo la evaluación ambiental y el estudio del estado actual de la cuenca de la Laguna de El Hito referido a 18 hidrocarburos policíclicos aromáticos (PAHs) de 2 a 6 anillos bencénicos. Se determinó su origen a partir de diversos índices (%naftaleno, Fen/Ant y Flu/Pir), interpretándose tanto fuentes no antropogénicas (petrogénica) como antropogénicas (pirogénica). Se obtuvieron los mapas de distribución de las concentraciones de PAHs y de sus índices para localizar los puntos de concentraciones más elevadas. Ningún PAH superó las concentraciones marcadas por los Niveles Genéricos de Referencia (NGR) para la salud humana en los distintos usos del suelo del R.D.09/2005. Los PAHs con las mayores concentraciones fueron el naftaleno y el fenantreno.Environmental evaluation and analysis of the current state of El Hito Lake Basin referred to 18 polycyclic aromatic hydrocarbons (PAHs) with 2 to 6 benzene rings was carried out. Different indexes were used to determine the source of PAHs (% naftalene, Phe/Ant and Flu/Pyr). Both non anthropogenic (petrogenic) and anthropogenic (pyrogenic) sources were interpreted. Distribution maps for PAHs and indexes were plotted to locate the position of the higher concentrations and, therefore, their possible sources. None of these compounds showed concentrations above the Soil Screening Levels (SSL) for human health in the different uses of soil as is established in R.D.09/2005. The ones that reached the highest concentrations were naphthalene and phenanthrene.

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A prática da reutilização de produtos médico-hospitalares de uso único vem sendo aplicada desde meados da década de setenta. A principal razão que tem contribuído para disseminação desta conduta pelas instituições hospitalares radicadas tanto nos países em desenvolvimento como naqueles considerados ricos, tem sido a aparente economia de custos. Apesar dos riscos relacionados com a prática da reutilização, como reações pirogênicas, danos ocasionados por bactérias consideradas patogênicas em pacientes imunologicamente comprometidos, danos na integridade fisica dos produtos, assim como aumento do período de permanência dos pacientes no hospital, têm despertado o interesse em avaliar aspectos fisicos e biológicos dos produtos médico-hospitalares reutilizados. Baseando-se nestas considerações foram aplicados desafios com esporos de Bacillus Subtilis varo niger ATCC 9372 e endotoxina bacteriana E. coli 055:B5. Os produtos desafiados foram cateteres intravenosos, torneira três vias e tubos de traqueostomia. A possível presença microbiana foi investigada após contaminação intencional dos esporos de B. Subtillis (107 ufc/unid.) com submissão das unidades contaminadas à limpeza e posterior esterilização, utilizando óxido de etileno/CFC na proporção 12:88. Os ciclos de reprocessamentos simulados de produtos médico-hospitalares consistiram de contaminação de cada unidade teste com carga microbiana, lavagem com detergente enzimático, secagem e esterilização. Ao término de cada ciclo de reprocessamento foram separadas unidades representativas para avaliação por contagem microbiana (pour plate), testes de esterilidade por inoculação direta e indireta, citotoxidade por cultura de células e microscopia eletrônica de varredura. A eficiência da esterilidade foi avaliada tanto por contagem microbiana como pelos testes de esterilidade, que resultaram em níveis microbianos de 103 ufc/unid. e detecção de contaminação até o 6° ciclo de reprocessamento nos cateteres intravenosos, tubos de traqueostomia e torneiras três vias. A segurança dos reprocessamentos dos produtos médico-hospitalares foi avaliada pela cultura de células de fibroblastos de camundongo (NCTC clone 929), as quais não apresentaram toxicidade. Entretanto, os resultados obtidos durante microscopia eletrônica de varredura comprovaram presença de carga microbiana após 10° ciclo de reprocessamento, assim como danos na superficie polimérica. Durante desafio com endotoxina bacteriana, que consistiu em contaminar as unidades com 200 UE, secagem e exposição ao ciclo de esterilização com óxido de etileno/CFC (12:88), verificou-se que após ciclos de reprocessamentos simulados, totalizando dez ciclos, foi possível detectar valores de recuperação de endotoxina em torno de 100%. Os cateteres-guia que foram adquiridos em instituição hospitalar após quatro reutilizações, apresentaram níveis de contaminação de 105 ufc/unid., assim como presença de bactérias consideradas patogênicas em pacientes comprometidos imunologicamente, já a detecção de endotoxina bacteriana nestes cateteres não foi considerada significativa. Logo, as avaliações aplicadas nas unidades submetidas aos ciclos de reprocessamentos simulados, assim como nos cateteres-guia reprocessados e reutilizados quatro vezes, refletiram a realidade de algumas instituições no âmbito nacional e internacional que praticam a reutilização de produtos médico-hospitalares de uso-único. Os resultados obtidos vêm enfatizar objeções quanto à prática da reutilização, considerando que a ausência de segurança pode ocasionar em danos ao paciente.

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Heat stroke is a life-threatening condition that can be fatal if not appropriately managed. Although heat stroke has been recognised as a medical condition for centuries, a universally accepted definition of heat stroke is lacking and the pathology of heat stroke is not fully understood. Information derived from autopsy reports and the clinical presentation of patients with heat stroke indicates that hyperthermia, septicaemia, central nervous system impairment and cardiovascular failure play important roles in the pathology of heat stroke. The current models of heat stroke advocate that heat stroke is triggered by hyperthermia but is driven by endotoxaemia. Endotoxaemia triggers the systemic inflammatory response, which can lead to systemic coagulation and haemorrhage, necrosis, cell death and multi-organ failure. However, the current heat stroke models cannot fully explain the discrepancies in high core temperature (Tc) as a trigger of heat stroke within and between individuals. Research on the concept of critical Tc: as a limitation to endurance exercise implies that a high Tc may function as a signal to trigger the protective mechanisms against heat stroke. Athletes undergoing a period of intense training are subjected to a variety of immune and gastrointestinal (GI) disturbances. The immune disturbances include the suppression of immune cells and their functions, suppression of cell-mediated immunity, translocation of lipopolysaccharide (LPS), suppression of anti-LPS antibodies, increased macrophage activity due to muscle tissue damage, and increased concentration of circulating inflammatory and pyrogenic cytokines. Common symptoms of exercise-induced GI disturbances include diarrhoea, vomiting, gastrointestinal bleeding, and cramps, which may increase gut-related LPS translocation. This article discusses the current evidence that supports the argument that these exercise-induced immune and GI disturbances may contribute to the development of endotoxaemia and heat stroke. When endotoxaemia can be tolerated or prevented, continuing exercise and heat exposure will elevate Tc to a higher level (> 42 degrees C), where heat stroke may occur through the direct thermal effects of heat on organ tissues and cells. We also discuss the evidence suggesting that heat stroke may occur through endotoxaemia (heat sepsis), the primary pathway of heat stroke, or hyperthermia, the secondary pathway of heat stroke. The existence of these two pathways of heat stroke and the contribution of exercise-induced immune and GI disturbances in the primary pathway of heat stroke are illustrated in the dual pathway model of heat stroke. This model of heat stroke suggests that prolonged intense exercise suppresses anti-LPS mechanisms, and promotes inflammatory and pyrogenic activities in the pathway of heat stroke.

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Biomass burning results in the formation and accumulation of pyrogenic products such as black carbon (BC) and black nitrogen (BN) in soils. The ubiquitous presence of pyrogenic products in natural dissolved organic matter (DOM) and potential implications in global carbon cycling have recently been reported. However, little is known about the environmental dynamics or the importance in the global N cycle of dissolved BN (DBN; or heteroaromatic N). Here we report the coupling between DBN and dissolved BC (DBC) in ultrafiltered DOM from six headwater streams across a climatic region of North America, suggesting similar combustion sources, and that DOC may play an important role in the translocation of soil BN to the dissolved phase. The export of potentially recalcitrant riverine DBN to the ocean may affect the biogeochemical cycling of N and possibly the microbial community structure in aquatic environments.

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Fire, which affects community structure and composition at all trophic levels, is an integral component of the Everglades ecosystem (Wade et al. 1980; Lockwood et al. 2003). Without fire, the Everglades as we know it today would be a much different place. This is particularly true for the short-hydroperiod marl prairies that predominate on the eastern and western flanks of Shark River Slough, Everglades National Park (Figure 1). In general, fire in a tropical or sub-tropical grassland community favors the dominance of C4 grasses over C3 species (Roscoe et al. 2000; Briggs et al. 2005). Within this pyrogenic graminoid community also, periodic natural fires, together with suitable hydrologic regime, maintain and advance the dominance of C4 vs C3 graminoids (Sah et al. 2008), and suppress the encroachment of woody stems (Hanan et al. 2009; Hanan et al. unpublished manuscript) originating from the tree islands that, in places, dominate the landscape within this community. However, fires, under drought conditions and elevated fuel loads, can spread quickly throughout the landscape, oxidizing organic soils, both in the prairie and in the tree islands, and, in the process, lead to shifts in vegetation composition. This is particularly true when a fire immediately precedes a flood event (Herndon et al. 1991; Lodge 2005; Sah et al. 2010), or if so much soil is consumed during the fire that the hydrologic regime is permanently altered as a result of a decrease in elevation (Zaffke 1983).

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Motile Aeromonas are the most common bacteria of freshwater in the world that cause disease in fish and other cold-blooded and warm-blooded hosts. Among this group of bacteria, Aeromonas hydrophila is important in causing complications such as fin rot, skin ulcers and lethal hemorrhagic septicemia in fish. Several virulence factors involved in the pathogenesis of Aeromonas hydrophila, including extracellular enzymes (protease, lipase, elastase, gelatinase and nuclease) and toxins. From the exotoxins, hemolysin, aerolysin and cytolytic enterotoxin play an important role in pathogenesis. Detection of virulence markers by PCR as a key component of determining the pathogenesis of the bacteria and using indigenous vaccines for better immunization against this disease is important. In this study, a total of 200 fanned carps (126 common carp. 39 silver carp and 35 of grass carp) with symptoms suspected aeromonas septicemia were isolated from Khouzestan province farms. 125 bacteria belong to Aeromonas genus detected by biochemical and PCR methods. 31 of all isolates recognized as Aeromonas hydrophila with biochemical methods, I6srRNA detection and Lipase genes. Results showed that the role of Aeromonas sp. and Aeromonas hydrophila in fish with disease symptoms were 62.5% and 15.5% respectively. By using specific primers, three virulence genes including hemolysin, aerolysine and cytolytic enterotoxin were detected in these confirmed isolates, that 18 isolates (58/06%) hemolysin positive (hlyA +), 16 isolates (51/61%) aerolysine positive (aerA+) and 23 isolates (74/19%) for cytolytic enterotoxin gene (act+) were positive. The result of present study showed that most of the confirmed isolates genotype was hlyA+ act- with frequency equal to 51/61%. For investigating the protection effect of acut strain of bacteria, UV inactivated bacterin was used.

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La piscirickettsiosis es una enfermedad contagiosa sistémica de los peces teleósteos cuyo agente causal es Piscirickettsia salmonis, una bacteria gram negativa intracelular facultativa. Esta enfermedad se ha descrito esporádicamente en distintas áreas geográficas y especies de peces en el mundo, pero es endémica y particularmente severa en salmónidos criados en agua de mar en Chile. En esta tesis se investigaron algunos aspectos de la patogénesis de esta enfermedad, estudiándose la infectividad de P. salmonis, tanto in vitro como in vivo, y buscándose además evidencias de la capacidad de secretar exotoxinas por parte de esta bacteria. Los ensayos de infectividad en células CHSE-214, procedentes de embrión de salmón chinook (Oncorhynchus tshawytscha), mostraron que existe una rápida adherencia de la bacteria a la superficie de la membrana plasmática (≤ 5 min posinoculación) seguida de su incorporación al citoplasma de estas células, proceso que ocurre entre las 3 y las 6 h posinoculación. Por su parte, el estudio de infectividad in vivo, que se realizó en trucha arcoiris (O. mykiss), reveló que este proceso comprende tres etapas principales: (i) una fase de rápida adhesión a células epiteliales principalmente de piel y branquias, pero también del canal alimentario; (ii) una invasión progresiva desde los sitios de entrada hacia tejidos más profundos hasta alcanzar el torrente sanguíneo y; (iii) una rápida diseminación vía hematógena para alcanzar virtualmente todos los tejidos corporales. Finalmente, se demostró que P. salmonis puede secretar exotoxinas termolábiles que tienen un efecto citotóxico selectivo según la célula blanco expuesta y que, probablemente, son parte de los factores de virulencia involucrados en la patogénesis de la piscirickettsiosis.

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In recent years the interest in pyrogenic carbon for agricultural use (biochar, i.e. carbonized biomass for agricultural use) has sharply increased. However biochar contain dangerous compounds such as Polycyclic Aromatic Hydrocarbons (PAHs), many of them potentially carcinogenic and mutagenic. They are organic compounds formed from incomplete combustion of organic materials and are persistent pollutants. Therefore, PAHs concentrations and their dynamic must be evaluated in soils amended with biochar. For this, soil samples were collected in three experimental areas in different years (1, 3, 5 or 6) after the application of 0 (control) or 16 Mg ha-1 of biochar. This is the first report of PAHs persistence up to six years in soil treated with biochar. The biochar application increased total PAHs concentrations up to five years after the application, however the levels have always been an order of magnitude lower the limits of prevention established by International Environmental Agencies for soils. Thus, under the evaluated conditions ,the use of biochar was safe concerning PAHs contamination, besides, after six years of the application, the levels found were similar to the control treatment, making it possible to define a safe frequency of application based on the persistence of PAHs in soil.

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The increasing attention to environmental issues of recent times encourages us to find new methods for the production of energy from renewable sources, and to improve existing ones, increasing their energy yield. Most of the waste and agricultural residues, with a high content of lignin and non-hydrolysable polymers, cannot be effectively transformed into biofuels with existing technology. The purpose of the study was to develop a new thermochemical/ biological process (named Py-AD) for the valorization of scarcely biodegradable substances. A complete continuous prototype was design built and run for 1 year. This consists into a slow pyrolysis system coupled with two sequential digesters and showed to produce a clean pyrobiogas (a biogas with significant amount of C2-C3 hydrocarbons and residual CO/H2), biochar and bio-oil. Py-AD yielded 31.7% w/w biochar 32.5% w/w oil and 24.8% w/w pyrobiogas. The oil condensate obtained was fractionated in its aqueous and organic fraction (87% and 13% respectively). Subsequently, the anaerobic digestion of aqueous fraction was tested in a UASB reactor, for 180 days, in increasing organic loading rate (OLR). The maximum convertible concentration without undergoing instability phenomena and with complete degradation of pyrogenic chemicals was 1.25 gCOD L digester-1 d-1. The final yield of biomethane was equal to 40% of the theoretical yield and with a noticeable additional production equal to 20% of volatile fatty acids. The final results confirm that anaerobic digestion can be used as a useful tool for cleaning of slow pyrolysis products (both gas and condensable fraction) and the obtaining of relatively clean pyrobiogas that could be directly used in internal combustion engine.