Global ETD Search

41	Sonochemical Remediation Of Freshwater Sediments Contaminated With Polycyclic Aromatic Hydrocarbons Pee, Gim-Yang 19 March 2008 (has links) No description available. Chemical Engineering Environmental Engineering Ultrasound sonolysis sonication polycyclic aromatic hydrocarbon PAH carbon amendment bioaccessibility bioavailability
42	Phytoremediation of soil contaminated with petroleum hydrocarbons and trace elements Marchand, Charlotte January 2017 (has links) The rapid urbanization and industrialization has led to an increase of disposal petroleum hydrocarbons (PHC) and trace elements (TE) into the environment. These pollutants are considered as the most toxic contaminants in the world due to their persistence in the environment, and the long range of toxicological effects for living beings. Recent concerns regarding the environmental contamination have initiated the development of several remediation technologies, including physical, chemical, and biological approaches. In this thesis, gentle soil remediation options (GRO) were investigated at different scales for the reclamation of PHC and TE co-contaminated soil. In the first part of this thesis, laboratory experiments were performed to characterize PHC and TE contaminated soil as well as the indigenous microorganisms (bacteria and fungi) present inside these contaminated soil. It was found that the studied aged contaminated soil had a negative effect on earthworm’s development and L. sativum biomass. Moreover, a high respiration of microorganisms attributed to the transformation/ mineralization of organic matter or/and organic pollutants was observed. This presence of viable microorganisms suggested an adaptation of microorganisms to the contaminant. Further results showed that the long-term exposure of soil microorganisms to high PHC concentration and the type of isolation culture media did not influence the ability of isolates to effectively degrade PHC. However, phylogenic affiliation had a strong on PHC biodegradation. In the second part of this thesis, preliminary studies in greenhouse were assessed to investigate the ability of M. sativa assisted by compost in the greenhouse aided-phytoremediation of PHC and TE. It was found that compost incorporation into the soil promoted PHC degradation, M. sativa growth and survival, and phytoextraction of TE. Residual risk assessment after the phytoremediation trial also showed a positive effect of compost amendment on plant growth and earthworm development. Pilot scale ecopile experiment carried out in the third part of this thesis allow a reduction of up to 80% of PHC and 20% of metals after 17 months. This research demonstrated that M. sativa and H. annus were suitable for phytodegradation of PHC and phytoextraction of TE. Results from this thesis are helpful for further full-scale phytoremediation studies. Petroleum Hydrocarbon Trace Elements Gentle Soil Remediation Options Polycyclic Aromatic Hydrocarbon Respirometry Ecopile Bacteria Fungi Environmental Sciences Miljövetenskap
43	Efeitos tóxicos sobre a imunidade inata do peixe Centropomus parallelus (Poey, 1860) causados por um hidrocarboneto policíclico aromático (naftaleno): avaliação por citometria de fluxo / Toxicological effects of a polycyclic aromatic hydrocarbon (naphthalene) on innate immunity of the fish Centropomus parallelus (Poey, 1860): evaluation by flow cytometry. Affonso, Sandra Freiberger 13 March 2006 (has links) A citometria de fluxo é um método preciso, rápido e eficaz na avaliação de múltiplos parâmetros celulares, tanto estruturais como funcionais, propiciando a separação e o estudo de diferentes populações e sub-populações de células. No presente estudo, foram empregados métodos citométricos para caracterização dos diferentes tipos celulares sangüíneos de Centropomus parallelus, assim como para verificação da viabilidade celular, avaliação da atividade fagocítica e ativação do burst respiratório. Foram identificadas três sub-populações representativas de leucócitos: linfócitos, monócitos e trombócitos. Estas células foram estimuladas, in vitro, com Staphylococcus aureus, marcado com iodeto de propídeo (SAPI), lipopolissacarídeo de Escherichia coli (LPS) e zymosan, partículas de Saccharomyces cerevisiae. As respostas frente aos estímulos foram distintas de acordo com o tipo celular e o estímulo apresentado. Os monócitos apresentaram maiores percentuais de fagocitose frente ao estímulo provocado pela SAPI e pelo Zymosan; já a população que continha trombócitos entre outros tipos celulares (por exemplo: linfócitos), apresentou \"fagocitose\" significativa apenas para SAPI. O burst oxidativo detectado pela fluorescência emitida pelo diacetato 2´7´diclorofluoresceína (DCFH) foi significativo apenas quando estimulado com PMA (miristato-acetato de forbol), não apresentando resposta estatisticamente significante para os estímulos SAPI e LPS. Após a exposição ao naftaleno nas concentrações 10-3, 10-6, 10-9 M durante quatro horas, in vitro, houve um aumento na fagocitose realizado pelos monócitos e trombócitos, porém uma diminuição no burst oxidativo apresentado nas concentrações 10-6 e 10-9 M de naftaleno. Este resultado reflete, in vitro, uma resposta ao contaminante com significado imunológico desfavorável para o peixe, já que as células estão aumentando a atividade fagocítica sem conseguirem, teoricamente, destruir o agente invasor. A partir desses resultados preliminares, podemos avaliar melhor, algumas características da resposta imune inata desta espécie de peixe, presente na costa litorânea brasileira. Estes parâmetros imunofisiológicos podem servir como base para futuros estudos ecotoxicológicos tanto em laboratório mas também a campo. Estudos que utilizam a imunidade inata como indicador biológico de alterações ambientais causadas por poluentes diversos, podem evidenciar o grau de impacto toxicológico sobre esta espécie e agregar valor a sua importância econômica e ecológica. / Flow cytometry is a precise, fast, and effective method for the evaluation of several cellular parameters, both structural and functional, allowing the sorting and analysis of particular populations and sub-populations of cells. In this study, we employed cytometric methods on the caractherization of different blood cell types from Centropomus parallelus, and also verified cell viability, phagocytic activity and oxidative burst in these cells. Three sub-populations were identified: lymphocytes, monocytes, and trombocytes. These cells were stimulated in vitro with propidium iodide-conjugated Staphylococcus aureus (SAPI), Escherichia coli lipopolysaccharide (LPS), or zymosan (Saccharomyces cerevisae particles). Responses to each individual stimulus differed according to cell type. Monocytes displayed the higher percentages of phagocytosis in presence of SAPI or zymosan; on the other hand, the population that included trombocytes, among other cell types (such as lymphocytes) only performed phagocytosis in a relevant level in the presence of SAPI. The oxidative burst, detected by fluorescence emitted by 2´7´dichlorofluorescein diacetate (DCFH) was significant only after stimulation with PMA (phorbol myristate-acetate), but not when the stimulus was SAPI or LPS. Based on these preliminary results, the innate immune response in these animals (ubiquitous coastal waters of the Brazilian shore) can be further evaluated. Immunophysiological parameters in these species can build a solid ground for future ecotoxicological studies. Approaching innate immunity as a biological indicator of environmental changes induced by pollutants may support the degree of toxicological impact over these animals, and aggregate value to its current ecological and economical importance. burst oxidative burst oxidativo citometria de fluxo fagocitose fishes flow cytometry peixes phagocytosis polycyclic aromatic hydrocarbon
44	Investigação de dioxinas, furanos, hidrocarbonetos policíclicos aromáticos no material particulado e gases emitidos por motores diesel / Investigation of dioxins, furans and polycyclic aromatic hydrocarbons in particulate material and gases emitted by diesel engines. Nobrega, Raimundo Paiva da 16 April 2007 (has links) Investigar, em motores veiculares pesados, alimentados com combustível diesel, a emissão de dioxinas e furanos clorados (PCDD/Fs) e hidrocarbonetos policíclicos aromáticos (PAHs), através da análise de material particulado e gases do sistema de exaustão. Investigar a mutagenicidade do material particulado e gases coletados. Material e Métodos: Os testes de emissão foram feitos em banco de provas dinamométrico de bancada de acordo com Ciclo 13 Pontos de testes, utilizando-se motores Diesel nacionais de aplicação veícular. Um mini-túnel de diluição foi usado para obtenção de amostras de material particulado. As análises de PCDD/Fs e PAHs foram realizadas em laboratório nacional. Para a análise de PCDD/Fs utilizou-se o método USEPA 8290 (1994) e para a análise de PAHs foi utilizado o método USEPA TO 13A (1999). A análise de mutagenicidade foi realizada de acordo com o Teste de Ames (TA98). Resultados: As medições de PCDD/Fs indicaram em geral valores abaixo do limite de detecção do método analítico. Em uma das amostras foi verificado que o OCDD ficou acima do limite de detecção, enquanto em outra isto ocorreu para o OCDF e para o 1,2,3,7,8-PeCDF. Em relação aos PAHs analisados verificou-se a presença dos seguintes compostos: Naftaleno, Acenaftileno, Acenafteno, Fluoreno, Fenantreno, Antraceno, Fluoranteno, Pireno, Benzo[a]antraceno, Criseno, Benzo[b]fluoranteno, Benzo[k]fluoranteno. A média encontrada para 5 amostras analisadas foi de 3.580,5 µg/g de material particulado. Os PAHs encontrados neste trabalho indicam alguma similaridade com a literatura disponível, para valores em % e µg/g de material particulado total coletado. O teste de Ames indicou que o material particulado coletado de motores diesel tem alta atividade mutagênica. Conclusões: A emissão de PCDD/Fs, para o nível de tecnologia dos motores Diesel testados mostrou-se pouco significativa, considerando-se combustível conforme especificado e método e limite de detecção utillizados. Em relação aos PAHs, os resultados indicaram que motores diesel têm uma contribuição importante na formação destes compostos. A alta atividade mutagênica observada mostra que as emissões de veículos Diesel são potencialmente tóxicas. Recomenda-se a continuidade de estudos para definição da regulamentação desses poluentes. / To investigate emission of chlorinated dioxins and furans (PCDD/Fs) and polycyclic aromatic hydrocarbons (PAHs) in heavy duty diesel engines, through the analysis of particulate material and gases in the exhaust.To verify mutagenicity of collected particulate material and gasesous sample extracts. Material and Methods: The engine emissions tests were done in dynamometer test bench according to 13-Mode Cycle, using brazilian engines, vehicle application. A mini dilution tunnel was used to obtain particulate matter and gaseous sample. PCDD/Fs and PAHs analyses were carried out in a certified national laboratory. Dioxins and furans were analyzed according with Method 8290 (USEPA, 1994) and PAHs by Method TO13A (USEPA, 1999). The mutagenicity analyses were done in accordance with Ames test (TA98) Results: The measurements of dioxins and furans in diesel engines operating in controlled conditions in dynamomter bench test, had indicated emissions values in general below the detention limit of the analytical method. In one of the samples it was verified that the OCDD was above the detention limit, while in another one this occurred for OCDF and 1,2,3,7,8-PeCDF. In relation to 16 PAHs it was verified the presence of the following compounds: Naphthalene, Acenaphthylene, Acenaphthene, Fluorene, Phenanthrene, Antracene, Fluorantene, Pyrene, Benzo[a]antracene, Chrysene, Benzo[b]fluoranthene and Benzo[k]fluorantene. The average value of the sum of PAHs found in five samples was 3,580.5 µg.g-1. The PAHs found in this study indicates some similarity with available literature for values in % and µg/g of particulate matter.The Ames test showed that the collected particulate material from diesel engines presents high mutagenic activity. Conclusion: The emission of PCDD/Fs, for the level of technology of the tested Diesel engines revealed little significant, considering the specified fuel, method of analysis and limit of detention used. In relation to the 16 PAHs, the tests results had indicated that diesel engines has an important contribution in the formation of these compounds. The high mutagenic activity observed shows that the emissions of Diesel vehicles are potentially toxic. The continuity of studies for definition of the regulation of these pollutants is recommended. Air Atividade mutagênica Diesel engines Dioxinas Dioxins Emissions Furanos Furans Motores diesel E Mutagenic activity Polycyclic aromatic hydrocarbon
45	Spatio-temporal distribution of polycyclic aromatic hydrocarbons (PAHs) in soils in the vicinity of a petrochemical plant in Cape Town Andong Omores, Raissa January 2016 (has links) Thesis (MTech (Chemistry))--Cape Peninsula University of Technology, 2016. / Polycyclic aromatic hydrocarbons (PAHs) are an alarming group of organic substances for humans and environmental organisms due to their ubiquitous presence, toxicity, and carcinogenicity. They are semi-volatile substances which result from the fusion of carbon and hydrogen atoms and constitute a large group of compounds containing two to several aromatic rings in their molecule. Natural processes and several anthropogenic activities involving complete or incomplete combustion of organic substances such as coal, fossil fuel, tobacco and other thermal processes, generally result in the release of the PAHs into the environment. However, the fate of the PAHs is of great environmental concern due to their tendency to accumulate and their persistence in different environmental matrices and their toxicity. Animal studies have revealed that an excessive exposure to PAHs can be harmful. Evidence of their carcinogenic, mutagenic, and immune-suppressive effects has been reported in the literature. In the soil environment, they have the tendency to be absorbed by plants grown on soil being contaminated by the PAHs. It is, therefore, important to evaluate their occurrence levels in different environmental matrices such as soil concentrations. Soil degradation Soils -- Heavy metal content Heavy metals -- Environmental aspects
46	Efeitos tóxicos sobre a imunidade inata do peixe Centropomus parallelus (Poey, 1860) causados por um hidrocarboneto policíclico aromático (naftaleno): avaliação por citometria de fluxo / Toxicological effects of a polycyclic aromatic hydrocarbon (naphthalene) on innate immunity of the fish Centropomus parallelus (Poey, 1860): evaluation by flow cytometry. Sandra Freiberger Affonso 13 March 2006 (has links) A citometria de fluxo é um método preciso, rápido e eficaz na avaliação de múltiplos parâmetros celulares, tanto estruturais como funcionais, propiciando a separação e o estudo de diferentes populações e sub-populações de células. No presente estudo, foram empregados métodos citométricos para caracterização dos diferentes tipos celulares sangüíneos de Centropomus parallelus, assim como para verificação da viabilidade celular, avaliação da atividade fagocítica e ativação do burst respiratório. Foram identificadas três sub-populações representativas de leucócitos: linfócitos, monócitos e trombócitos. Estas células foram estimuladas, in vitro, com Staphylococcus aureus, marcado com iodeto de propídeo (SAPI), lipopolissacarídeo de Escherichia coli (LPS) e zymosan, partículas de Saccharomyces cerevisiae. As respostas frente aos estímulos foram distintas de acordo com o tipo celular e o estímulo apresentado. Os monócitos apresentaram maiores percentuais de fagocitose frente ao estímulo provocado pela SAPI e pelo Zymosan; já a população que continha trombócitos entre outros tipos celulares (por exemplo: linfócitos), apresentou \"fagocitose\" significativa apenas para SAPI. O burst oxidativo detectado pela fluorescência emitida pelo diacetato 2´7´diclorofluoresceína (DCFH) foi significativo apenas quando estimulado com PMA (miristato-acetato de forbol), não apresentando resposta estatisticamente significante para os estímulos SAPI e LPS. Após a exposição ao naftaleno nas concentrações 10-3, 10-6, 10-9 M durante quatro horas, in vitro, houve um aumento na fagocitose realizado pelos monócitos e trombócitos, porém uma diminuição no burst oxidativo apresentado nas concentrações 10-6 e 10-9 M de naftaleno. Este resultado reflete, in vitro, uma resposta ao contaminante com significado imunológico desfavorável para o peixe, já que as células estão aumentando a atividade fagocítica sem conseguirem, teoricamente, destruir o agente invasor. A partir desses resultados preliminares, podemos avaliar melhor, algumas características da resposta imune inata desta espécie de peixe, presente na costa litorânea brasileira. Estes parâmetros imunofisiológicos podem servir como base para futuros estudos ecotoxicológicos tanto em laboratório mas também a campo. Estudos que utilizam a imunidade inata como indicador biológico de alterações ambientais causadas por poluentes diversos, podem evidenciar o grau de impacto toxicológico sobre esta espécie e agregar valor a sua importância econômica e ecológica. / Flow cytometry is a precise, fast, and effective method for the evaluation of several cellular parameters, both structural and functional, allowing the sorting and analysis of particular populations and sub-populations of cells. In this study, we employed cytometric methods on the caractherization of different blood cell types from Centropomus parallelus, and also verified cell viability, phagocytic activity and oxidative burst in these cells. Three sub-populations were identified: lymphocytes, monocytes, and trombocytes. These cells were stimulated in vitro with propidium iodide-conjugated Staphylococcus aureus (SAPI), Escherichia coli lipopolysaccharide (LPS), or zymosan (Saccharomyces cerevisae particles). Responses to each individual stimulus differed according to cell type. Monocytes displayed the higher percentages of phagocytosis in presence of SAPI or zymosan; on the other hand, the population that included trombocytes, among other cell types (such as lymphocytes) only performed phagocytosis in a relevant level in the presence of SAPI. The oxidative burst, detected by fluorescence emitted by 2´7´dichlorofluorescein diacetate (DCFH) was significant only after stimulation with PMA (phorbol myristate-acetate), but not when the stimulus was SAPI or LPS. Based on these preliminary results, the innate immune response in these animals (ubiquitous coastal waters of the Brazilian shore) can be further evaluated. Immunophysiological parameters in these species can build a solid ground for future ecotoxicological studies. Approaching innate immunity as a biological indicator of environmental changes induced by pollutants may support the degree of toxicological impact over these animals, and aggregate value to its current ecological and economical importance. burst oxidativo citometria de fluxo fagocitose peixes burst oxidative fishes flow cytometry phagocytosis polycyclic aromatic hydrocarbon
47	Effects of Polycyclic Aromatic Hydrocarbons, Metals and Polycyclic Aromatic Hydrocarbon/Metal Mixtures on Rat Corpus Luteal Cells and Placental Cell Line, JEG-3 Nykamp, Julie Ann January 2007 (has links) Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous environmental contaminants that can be modified to oxygenated PAH (oxyPAHs) derivatives. It is well known that oxyPAHs tend to be much more reactive than their parent compounds. Toxicity can be attributed to direct interaction with target molecules or generation of reactive oxygen species (ROS). Metals are another class of contaminant found ubiquitously throughout the environment. Some metals are toxic at levels below the 1:1 ratio predicted by the biotic ligand model and are thought to manifest toxicity through ROS generation. Often metals and PAHs occur as co-contaminants in industrialized environments, yet little is known about their potential co-toxicity or mechanisms of action in mammalian reproductive function. Previously, we described that a PAH, 9, 10-phenanthrenequinone (PHEQ), inhibited LH-stimulated progesterone secretion in dispersed rat corpus luteal (CL) cells (Nykamp et al., 2001). Viability was decreased in CL cells exposed to PHEQ and 1,2-dihydroxy-anthraquinone (1,2-dhATQ), but not their parent compounds phenanthrene (PHE) or anthracene (ANT). Similarly, LH-stimulated progesterone production in CL cells was inhibited by PHEQ and 1,2-dhATQ, but not PHE. Further investigation revealed that PHEQ, but not PHE, ANT nor 1,2-dhATQ generated ROS in CL cells. Viability experiments were repeated using the choriocarcinoma cell line JEG-3 with similar results. Various metals were assessed for their toxicity to both CL and JEG-3 cells. The endpoints used to measure viability were metabolic activity and membrane integrity. In general, metabolic activity was a more sensitive indicator of toxicity than membrane integrity. The order of toxicity for metals in CL cells was Hg2+ > Cd2+ > Zn2+ > Ni2+ > Cu2+ for metabolic activity and Hg2+ ≈ Zn2+ > Cd2+ > Cu2+ > Ni2+ for membrane integrity. Only Hg2+ and Cu2+ were tested in JEG-3 cells. While Cu2+ was non-toxic, EC50s for Hg2+ metabolic activity and membrane integrity were 20 mM and 23 mM, respectively. Experiments were designed to study the mixtures of metals and PAHs on viability, ROS production, and LH-stimulated progesterone production in CL cells. Mixtures of each metal with either PHEQ or 1,2-dhATQ were incubated with CL cells and their effect on metabolic activity and membrane integrity assessed. Generally, most metal/oxyPAH mixtures displayed only additive toxicity. However, mixtures of Cu2+ and PHEQ showed synergistic toxicity to both metabolic activity and membrane integrity. Mixture studies in JEG-3 cells used only combinations of Cu2+ or Hg2+ with PHEQ or 1,2-dhATQ. Similar results to metabolic activity and membrane integrity in CL cells were observed. Mixtures of Cu2+ and PHEQ or 1,2-dhATQ were tested in CL cells for their effect on LH-stimulated progesterone secretion and ROS production. Additive effects were observed in both LH-stimulated progesterone secretion and ROS production for Cu2+/1,2-dhATQ mixtures while synergistic effects for both parameters were seen with Cu2+/PHEQ. Efforts to determine the site of action for mixtures of Cu2+/PHEQ involved adding the cholesterol analogue, 22-OH cholesterol (22-OHC) to CL cells in the absence of LH. Cytochrome P450 side-chain cleavage (CYP450scc) enzyme operates constitutively and the addition of 22-OHC to CL cells resulting in a 5-fold increase in progesterone production without added LH. Kinetic assays with 22-OHC show that while progesterone secretion was inhibited with PHEQ addition alone, a further significant reduction with both Cu2+ and PHEQ was not observed. The use of forskolin, an activator of adenylate cyclase, did not show any significant enhancement of progesterone secretion with the addition of Cu2+/PHEQ compared to PHEQ alone. The potential targets of Cu2+/PHEQ mixture include any step in the steroidogenic cascade from activation of protein kinase A onward with the proteins of the mitochondria, cytochrome P450 side chain cleavage enzyme and steroidogenic acute regulatory protein, being the most likely. Differential display polymerase chain reaction (ddPCR) was a molecular approach taken to determine the effect of PHEQ on JEG-3 gene expression. The genes whose expression appeared to be up-regulated with PHEQ exposure were serine protease inhibitor, Alu repeat sequence, heterogeneous ribonuclear ribonucleoprotein C (hnRNP C), eukaryotic translation initiation factor 3 (eIF3), nucleoporin-like protein, eukaryotic translation elongation factor 1a1 (eEF1 a 1), autophagy-linked FYVE domain (Alfy), spectrin, and proteasome. Apparent down-regulated genes in JEG-3 cells after PHEQ exposure included poly(ADP-ribose) polymerase 10 (PARP10), polyglutamine binding protein-1 (PQBP-1), heterogeneous ribonuclear ribonucleoprotein C (hnRNP C), eukaryotic translation initiation factor 5A (eIF5A), and keratin. In both cell types, oxyPAHs were more toxic than their parent compounds. Metals showed greater toxicity to metabolic activity than to membrane integrity. Of the combinations tested, only PHEQ and Cu2+ exhibited synergistic toxicity. ROS generation was the likely mechanism behind PHEQ/Cu2+ toxicity. Both cell types used represent critical roles in human reproductive health. The proper production of progesterone, a critical hormone for the maintenance of pregnancy in mammals, represents a unique endpoint for the assessment of toxicity. These results illustrate the need to study modified oxyPAHs, metals and metal/oxyPAH mixtures for their potential impact on human reproductive health. polycyclic aromatic hydrocarbon metal endocrine disruption mammalian reproduction environmental toxicology reactive oxygen species differential display PCR gene expression Biology
48	Effects of Polycyclic Aromatic Hydrocarbons, Metals and Polycyclic Aromatic Hydrocarbon/Metal Mixtures on Rat Corpus Luteal Cells and Placental Cell Line, JEG-3 Nykamp, Julie Ann January 2007 (has links) Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous environmental contaminants that can be modified to oxygenated PAH (oxyPAHs) derivatives. It is well known that oxyPAHs tend to be much more reactive than their parent compounds. Toxicity can be attributed to direct interaction with target molecules or generation of reactive oxygen species (ROS). Metals are another class of contaminant found ubiquitously throughout the environment. Some metals are toxic at levels below the 1:1 ratio predicted by the biotic ligand model and are thought to manifest toxicity through ROS generation. Often metals and PAHs occur as co-contaminants in industrialized environments, yet little is known about their potential co-toxicity or mechanisms of action in mammalian reproductive function. Previously, we described that a PAH, 9, 10-phenanthrenequinone (PHEQ), inhibited LH-stimulated progesterone secretion in dispersed rat corpus luteal (CL) cells (Nykamp et al., 2001). Viability was decreased in CL cells exposed to PHEQ and 1,2-dihydroxy-anthraquinone (1,2-dhATQ), but not their parent compounds phenanthrene (PHE) or anthracene (ANT). Similarly, LH-stimulated progesterone production in CL cells was inhibited by PHEQ and 1,2-dhATQ, but not PHE. Further investigation revealed that PHEQ, but not PHE, ANT nor 1,2-dhATQ generated ROS in CL cells. Viability experiments were repeated using the choriocarcinoma cell line JEG-3 with similar results. Various metals were assessed for their toxicity to both CL and JEG-3 cells. The endpoints used to measure viability were metabolic activity and membrane integrity. In general, metabolic activity was a more sensitive indicator of toxicity than membrane integrity. The order of toxicity for metals in CL cells was Hg2+ > Cd2+ > Zn2+ > Ni2+ > Cu2+ for metabolic activity and Hg2+ ≈ Zn2+ > Cd2+ > Cu2+ > Ni2+ for membrane integrity. Only Hg2+ and Cu2+ were tested in JEG-3 cells. While Cu2+ was non-toxic, EC50s for Hg2+ metabolic activity and membrane integrity were 20 mM and 23 mM, respectively. Experiments were designed to study the mixtures of metals and PAHs on viability, ROS production, and LH-stimulated progesterone production in CL cells. Mixtures of each metal with either PHEQ or 1,2-dhATQ were incubated with CL cells and their effect on metabolic activity and membrane integrity assessed. Generally, most metal/oxyPAH mixtures displayed only additive toxicity. However, mixtures of Cu2+ and PHEQ showed synergistic toxicity to both metabolic activity and membrane integrity. Mixture studies in JEG-3 cells used only combinations of Cu2+ or Hg2+ with PHEQ or 1,2-dhATQ. Similar results to metabolic activity and membrane integrity in CL cells were observed. Mixtures of Cu2+ and PHEQ or 1,2-dhATQ were tested in CL cells for their effect on LH-stimulated progesterone secretion and ROS production. Additive effects were observed in both LH-stimulated progesterone secretion and ROS production for Cu2+/1,2-dhATQ mixtures while synergistic effects for both parameters were seen with Cu2+/PHEQ. Efforts to determine the site of action for mixtures of Cu2+/PHEQ involved adding the cholesterol analogue, 22-OH cholesterol (22-OHC) to CL cells in the absence of LH. Cytochrome P450 side-chain cleavage (CYP450scc) enzyme operates constitutively and the addition of 22-OHC to CL cells resulting in a 5-fold increase in progesterone production without added LH. Kinetic assays with 22-OHC show that while progesterone secretion was inhibited with PHEQ addition alone, a further significant reduction with both Cu2+ and PHEQ was not observed. The use of forskolin, an activator of adenylate cyclase, did not show any significant enhancement of progesterone secretion with the addition of Cu2+/PHEQ compared to PHEQ alone. The potential targets of Cu2+/PHEQ mixture include any step in the steroidogenic cascade from activation of protein kinase A onward with the proteins of the mitochondria, cytochrome P450 side chain cleavage enzyme and steroidogenic acute regulatory protein, being the most likely. Differential display polymerase chain reaction (ddPCR) was a molecular approach taken to determine the effect of PHEQ on JEG-3 gene expression. The genes whose expression appeared to be up-regulated with PHEQ exposure were serine protease inhibitor, Alu repeat sequence, heterogeneous ribonuclear ribonucleoprotein C (hnRNP C), eukaryotic translation initiation factor 3 (eIF3), nucleoporin-like protein, eukaryotic translation elongation factor 1a1 (eEF1 a 1), autophagy-linked FYVE domain (Alfy), spectrin, and proteasome. Apparent down-regulated genes in JEG-3 cells after PHEQ exposure included poly(ADP-ribose) polymerase 10 (PARP10), polyglutamine binding protein-1 (PQBP-1), heterogeneous ribonuclear ribonucleoprotein C (hnRNP C), eukaryotic translation initiation factor 5A (eIF5A), and keratin. In both cell types, oxyPAHs were more toxic than their parent compounds. Metals showed greater toxicity to metabolic activity than to membrane integrity. Of the combinations tested, only PHEQ and Cu2+ exhibited synergistic toxicity. ROS generation was the likely mechanism behind PHEQ/Cu2+ toxicity. Both cell types used represent critical roles in human reproductive health. The proper production of progesterone, a critical hormone for the maintenance of pregnancy in mammals, represents a unique endpoint for the assessment of toxicity. These results illustrate the need to study modified oxyPAHs, metals and metal/oxyPAH mixtures for their potential impact on human reproductive health. polycyclic aromatic hydrocarbon metal endocrine disruption mammalian reproduction environmental toxicology reactive oxygen species differential display PCR gene expression Biology
49	Development Of Organic-inorganic Composite Membranes For Fuel Cell Applications Erdener, Hulya 01 July 2007 (has links) (PDF) Hydrogen is considered to be the most promising energy carrier of the 21st century due to its high energy density and sustainability. The chemical energy of hydrogen can be directly converted into electricity by means of electrochemical devices called fuel cells. Proton exchange membrane fuel cells (PEMFC) are the most preferred type of fuel cells due to their low operating temperatures enabling fast and easy start-ups and quick responses to load changes. One of the most important components of a PEMFC is the proton conducting membrane. The current membrane technology is based on perfluorosulfonic acid membranes and the most common one being Nafion. Although these membranes have good thermal and chemical stability, mechanical strength and high proton conductivities, they tend to dehydrate very fast at high temperatures and low relative humidity leading to poor fuel cell performances. Moreover, the high manufacturing cost of these membranes limits the mass-production of PEMFC&amp / #8217 / s in near future. The aim of this study is to develop alternative PEMFC membranes that have sufficient thermal and chemical stability, mechanical strength and comparable proton conductivity and fuel cell performances with Nafion membranes at relatively low cost. In this context, organic-inorganic composite membranes and blends were developed. A relatively cheap and commercially available polymer, polyether ether ketone, (PEEK), was chosen as the membrane matrix for its high thermal and mechanical stability and improvable proton conductivity via post-sulfonation. The proton conductivity of SPEEK membrane (at DS 68%) was 0.06 S/cm at 60&deg / C, and this conductivity was further increased to 0.13 S/cm with the introduction of zeolite beta crystals as inorganic fillers. The conductivity of a SPEEK blend (25wt% SPES-75wt% SPEEK) membrane was 0.08 S/cm at 90&deg / C. In PEMFC performance tests, 397 mA/cm2 was obtained for SPEEK membrane (DS 56%) at 0.6V for a H2/O2 PEMFC working at 1 atm and 80&deg / C. This result is promising when compared to the performance of Nafion 112&reg / of 660mA/cm2 under same conditions. These results are welcomed since the target for commercially viable alternate membranes are reached. TP Chemical Engineering 155-156
50	The mechanism of retene toxicity in the early life stages of fish Scott, Jason 15 January 2009 (has links) Alkylphenanthrenes such as retene (7-isopropyl-1-methylphenanthrene) are aquatic contaminants commonly found in anthropogenically-, industrially-, and petroleum-contaminated environments, and have been implicated in crude oil toxicity. In the early life stages (ELS) of fish, exposures to alkylphenanthrenes produce signs of toxicity typical of those observed in exposures to halogenated aromatic hydrocarbons, particularly to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). TCDD, the most toxic congener, serves as the basis of the current mechanism-based risk assessment model. The model assumes that congeners that produce TCDD-like toxicity share a common mode of action and act additively. The mechanism of TCDD-like toxicity is assumed to be mediated by the aryl hydrocarbon receptor (AhR), a ligand-activated transcription factor involved in the xenobiotic response (e.g., induction of cytochrome P450 1A enzymes; CYP1A) and in normal development. CYP1A enzymes are not involved in the mechanism of TCDD toxicity. Alkylphenanthrenes toxic to the ELS of fish are AhR ligands, but in contrast to TCDD, are readily metabolized by CYP1A enzymes. The byproducts of CYP1A metabolism have been implicated in retene toxicity. However, the target tissue of retene and the direct roles of AhR and CYP1A in retene toxicity are unknown, but are expected to be similar to those of TCDD. The results presented in this thesis suggest that in the ELS of fish: (1) the primary target of retene is the cardiovascular system (Chapters 2 & 5); (2) retene toxicity is stage-specific (Chapter 2); (3) the mechanism of retene toxicity is mediated by AhR2, and is independent of CYP1A enzymes (Chapter 5); (4) multiple CYP1A-independent toxicities can result from exposures to different mixtures of CYP1A inducing (retene) and CYP1A inhibiting (alpha-naphthoflavone or 2-aminoanthracene) PAHs (Chapters 3 & 4); and (5) multiple concentration-dependent mechanisms of toxicity (i.e., synergism and response addition) can occur in co-exposures of a CYP1A inducer (retene) with a range of CYP1A inhibitor (alpha-naphthoflavone) concentrations (Chapter 3). Thus, retene toxicity is mechanistically similar to that of TCDD toxicity, suggesting alkylphenanthrenes can be included in the current risk assessment model. However, the observed variable mixture toxicities and species differences in retene toxicity raise questions about the effectiveness of this model. / Thesis (Ph.D, Biology) -- Queen's University, 2009-01-13 12:10:31.373 retene polycyclic aromatic hydrocarbon blue sac disease cytochrome P450 1A aryl hydrocarbon receptor early life stage toxicity

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