Effect of gamma-irradiation on total organic carbon and trihalomethane formation potential

This research was conducted to study the use of radiation in water treatment as an alternative to chlorination which has caused health concerns due to the formation of harmful disinfection by-products. Groundwater solutions from the Biscayne aquifer were radiated with Cobalt-60 gamma radiation and studied for changes in dissolved organic carbon (DOC), UV absorbance at 254 nm (UV254), fluorescence and trihalomethane formation potential (THMFP). Molecular fractionations were conducted by ultrafiltration. Effect of the combination of radiation/peroxide was studied for DOC and UV254. Radiation showed significant removal in DOC and THMFP. Similar results were seen in the fluorescence and UV absorbance experiments. Radiation/peroxide did not improve the DOC removal. Radiation of the groundwater samples broke the larger molecular weight fractions in to smaller fractions.

Risk of African swine fever introduction into the European Union through transport-associated routes: returning trucks and waste from international ships and planes

BACKGROUND The uncontrolled presence of African swine fever (ASF) in Russian Federation (RF) poses a serious risk to the whole European Union (EU) pig industry. Although trade of pigs and their products is banned since the official notification in June 2007, the potential introduction of ASF virus (ASFV) may occur by other routes, which are very frequent in ASF, and more difficult to control, such as contaminated waste or infected vehicles. This study was intended to estimate the risk of ASFV introduction into the EU through three types of transport routes: returning trucks, waste from international ships and waste from international planes, which will be referred here as transport-associated routes (TAR). Since no detailed and official information was available for these routes, a semi-quantitative model based on the weighted combination of risk factors was developed to estimate the risk of ASFV introduction by TAR. Relative weights for combination of different risk factors as well as validation of the model results were obtained by an expert opinion elicitation. RESULTS Model results indicate that the relative risk for ASFV introduction through TAR in most of the EU countries (16) is low, although some countries, specifically Poland and Lithuania, concentrate high levels of risk, the returning trucks route being the analyzed TAR that currently poses the highest risk for ASFV introduction into the EU. The spatial distribution of the risk of ASFV introduction varies importantly between the analyzed introduction routes. Results also highlight the need to increase the awareness and precautions for ASF prevention, particularly ensuring truck disinfection, to minimize the potential risk of entrance into the EU. CONCLUSIONS This study presents the first assessment of ASF introduction into the EU through TAR. The innovative model developed here could be used in data scarce situations for estimating the relative risk associated to each EU country. This simple methodology provides a rapid and easy to interpret results on risk that may be used for a target and cost-effective allocation of resources to prevent disease introduction.

New weapons to fight old enemies: novel strategies for the (bio)control of bacterial biofilms in the food industry

Biofilms are microbial communities characterized by their adhesion to solid surfaces and the production of a matrix of exopolymeric substances, consisting of polysaccharides, proteins, DNA and lipids, which surround the microorganisms lending structural integrity and a unique biochemical profile to the biofilm. Biofilm formation enhances the ability of the producer/s to persist in a given environment. Pathogenic and spoilage bacterial species capable of forming biofilms are a significant problem for the healthcare and food industries, as their biofilm-forming ability protects them from common cleaning processes and allows them to remain in the environment post-sanitation. In the food industry, persistent bacteria colonize the inside of mixing tanks, vats and tubing, compromising food safety and quality. Strategies to overcome bacterial persistence through inhibition of biofilm formation or removal of mature biofilms are therefore necessary. Current biofilm control strategies employed in the food industry (cleaning and disinfection, material selection and surface preconditioning, plasma treatment, ultrasonication, etc.), although effective to a certain point, fall short of biofilm control. Efforts have been explored, mainly with a view to their application in pharmaceutical and healthcare settings, which focus on targeting molecular determinants regulating biofilm formation. Their application to the food industry would greatly aid efforts to eradicate undesirable bacteria from food processing environments and, ultimately, from food products. These approaches, in contrast to bactericidal approaches, exert less selective pressure which in turn would reduce the likelihood of resistance development. A particularly interesting strategy targets quorum sensing systems, which regulate gene expression in response to fluctuations in cell-population density governing essential cellular processes including biofilm formation. This review article discusses the problems associated with bacterial biofilms in the food industry and summarizes the recent strategies explored to inhibit biofilm formation, with special focus on those targeting quorum sensing.

Design principles for maximizing photovoltage in metal-oxide-protected water-splitting photoanodes

Metal oxide protection layers for photoanodes may enable the development of large-scale solar fuel and solar chemical synthesis, but the poor photovoltages often reported so far will severely limit their performance. Here we report a novel observation of photovoltage loss associated with a charge extraction barrier imposed by the protection layer, and, by eliminating it, achieve photovoltages as high as 630mV, the maximum reported so far for water-splitting silicon photoanodes. The loss mechanism is systematically probed in metal-insulator-semiconductor Schottky junction cells compared to buried junction p(+) n cells, revealing the need to maintain a characteristic hole density at the semiconductor/insulator interface. A leaky-capacitor model related to the dielectric properties of the protective oxide explains this loss, achieving excellent agreement with the data. From these findings, we formulate design principles for simultaneous optimization of built-in field, interface quality, and hole extraction to maximize the photovoltage of oxide-protected water-splitting anodes.

Engineering interfacial silicon dioxide for improved metal-insulator-semiconductor silicon photoanode water splitting performance

Silicon photoanodes protected by atomic layer deposited (ALD) TiO2 show promise as components of water splitting devices that may enable the large-scale production of solar fuels and chemicals. Minimizing the resistance of the oxide corrosion protection layer is essential for fabricating efficient devices with good fill factor. Recent literature reports have shown that the interfacial SiO2 layer, interposed between the protective ALD-TiO2 and the Si anode, acts as a tunnel oxide that limits hole conduction from the photoabsorbing substrate to the surface oxygen evolution catalyst. Herein, we report a significant reduction of bilayer resistance, achieved by forming stable, ultrathin (<1.3 nm) SiO2 layers, allowing fabrication of water splitting photoanodes with hole conductances near the maximum achievable with the given catalyst and Si substrate. Three methods for controlling the SiO2 interlayer thickness on the Si(100) surface for ALD-TiO2 protected anodes were employed: (1) TiO2 deposition directly on an HF-etched Si(100) surface, (2) TiO2 deposition after SiO2 atomic layer deposition on an HF-etched Si(100) surface, and (3) oxygen scavenging, post-TiO2 deposition to decompose the SiO2 layer using a Ti overlayer. Each of these methods provides a progressively superior means of reliably thinning the interfacial SiO2 layer, enabling the fabrication of efficient and stable water oxidation silicon anodes.

Reciclagem seletiva de canais radiculares

Introdução: O presente trabalho introduz um novo tema na área da Endodontia: Reciclagem Seletiva de Canais Radiculares. Tem os mesmos princípios de desinfecção, conformação e obturação que o retratamento endodôntico não cirúrgico convencional, no entanto é menos invasivo. Está indicado em casos de insucesso prévio no tratamento endodôntico e na presença de próteses. Objetivos: Esta dissertação tem como objectivo principal apresentar um possível novo tratamento na área da Endodontia. Procedeu-se a uma revisão bibliográfica, analisando a literatura que versa o tema, de modo a introduzi-lo dentro da área do retratamento endodôntico não cirúrgico nos seus diferentes procedimentos: Desobturação e materiais utilizados, instrumental utilizado, irrigantes e a sua utilidade e aplicabilidade na prática clínica. Materiais e Métodos: Para a elaboração da presente dissertação, foi realizada uma pesquisa bibliográfica, no presente ano, recorrendo-se aos motores de pesquisa on-line: b-On, Pubmed, Scielo e Google Académico, realizando a pesquisa através das palavras-chave: “endodontic retreatment”, ”root canal system”, “endodontic irrigation”, “endodontic solvent”, “pro-taper”, “reciproc”, “clorohexidine”, “sodium hipoclorite”, “obturation” que foram então combinadas entre si de múltiplas e sucessivas formas. Foram utilizados 50 artigos dos 87 seleccionados, um livro e uma revista. Discussão: Na literatura científica, são comparados vários materiais para a realização do retratamento endodôntico não cirúrgico, como solvente o que melhores resultados apresenta na dissolução da Gutta-Percha é o Xilitol seguido do clorofórmio. Como solução irrigante a Clorohexidina tem um grande potencial nos casos de retratamento por ser mais eficaz em bactérias Gram+ e pela sua substantividade que permite que a sua actividade bacteriana seja contínua. O sistema Reciproc® pela sua forma em S no corte transversal e possuir dois bordos cortantes, aliados à sua composição pela nova liga M-Wire, mais resistente à torção e fadiga cíclica parece ser a melhor opção tanto para desobturação do SCR como re-instrumentação. Com a imagiologia tridimensional, a Reciclagem Selectiva de Canais Radiculares pode ser explorada e tornar-se uma técnica mais conservadora em casos de retratamento ao conseguir-se determinar qual a raiz com lesão apical. Conclusão: Perante este novo método mais conservador de realizar o retratamento endodôntico não cirúrgico, o exame radiológico por CBCT é o grande responsável pela sua realização. Com ele podemos ter acesso à tridimensionalidade de todas as estruturas orais e consequentemente atingir um diagnóstico correcto, com mais informação disponível. Este novo método, aliado aos melhores materiais utilizados no RTENC convencional poderão permitir ao clínico a realização de um retratamento não cirúrgico seguro, mais conservador para a estrutura dentária e para potenciais próteses que possam estar presentes. São necessários mais estudos com um follow-up mais prolongado para determinar a real efetividade deste tratamento.