The relationship between dietary factors, meat consumption, heterocyclic amines, Benzo[a]pyrene, meat-derived mutagenic activity and colorectal cancer in Western Australia

Tabatabaei, Seyed Mehdi

January 2009

The role of meat consumption in the development of cancer, including colorectal cancer (CRC), has been subject of much investigation in recent years. The observation of geographical variation in CRC incidence and increased CRC risks in populations consuming high levels of meat prompted researchers to hypothesise a link between meat and CRC. An area of particular interest in CRC pathogenesis is the meat-derived compounds such are heterocyclic amines (HCAs), polycyclic aromatic hydrocarbons (PAHs), and meatderived mutagenic activity. Australia is among the countries with high incidence of CRC and also high levels of per capita meat consumption. Hence, clarifying the possible link between meat consumption and the risk of CRC in order that this can be translated into preventive dietary recommendations for the public is important. The objective of this thesis was to examine whether meat consumption is related to risk of CRC in an Australian population. The term meat consumption in this thesis means meaures of consumption of red and white meat that incorporate frequency and cooking method. The following hypotheses were investigated: 1. Increasing intake of meat prepared by methods that involve higher cooking temperature and time is positively associated with the risk of CRC; 2. Increasing exposure to meat-derived heterocyclic amines (HCAs) is positively associated with the risk of CRC; 3. Higher levels of exposure to polycyclic aromatic hydrocarbons (PAHs) from meat consumption is a risk factor for CRC; 4. Exposure to meat-derived mutagens increases the risk of CRC.

Benzopyrene

Chemical mutagenesis

Mutagenicity testing

Rectum -- Cancer -- Western Australia

Meat consumption

Colorectal cancer

Heterocyclic amines

Benzo[a]pyrene

Meat mutageniaity

Development of electrochemical sensors containing bimerallic silver and gold nanoparticles

Mailu, Stephen Nzioki

January 2010

Magister Scientiae - MSc / Polyaromatic hydrocarbons (PAHs) are ubiquitous environmental pollutants that have been shown to be teratogenic, mutagenic and carcinogenic and pose serious threats to the health of aquatic and human life. Several methods have been developed for their determination such as immunoassay, gas chromatography and high performance liquid chromatography (HPLC) in combination with fluorescence or absorbance detection. However, these methods are known to manifest underlying disadvantages such as complicated pretreatment, high costs and time consuming processes. In this work, a simple, less time consuming electrochemical method in the form of an electrochemical sensor has been developed for the detection of PAHs. The sensor was fabricated by the deposition of silver-gold (1:3) alloy nanoparticles (Ag-AuNPs) on ultrathin overoxidized polypyrrole (PPyox) film which formed a PPyox/Ag-AuNPs composite on glassy carbon electrode (PPyox/Ag-AuNPs/GCE). The silver-gold alloy nanoparticles deposited to form the composite were chemically prepared by simultaneous reduction of silver nitrate (AgNO3) and chloroauric acid (HAuCl4) using sodium citrate and characterized by UV-visible spectroscopy technique which confirmed the homogeneous formation of the alloy nanoparticles. Transmission electron microscopy showed that the synthesized nanoparticles were in the range of 20-50 nm. The properties of the composite formed upon deposition of the nanoparticles on the PPyox film were investigated by electrochemical methods. The PPyox/Ag-AuNPs/GCE sensor showed strong catalytic activity towards the oxidation of anthracene, phenanthrene and pyrene, and was able to simultaneously detect anthracene and phenanthrene in a binary mixture of the two. The catalytic peak currents obtained from square wave voltammetry increased linearly with anthracene, phenanthrene and pyrene concentrations in the range of 3.0 x 10-6 to 3.56 x 10-4 M,3.3 x 10-5 to 2.83 x 10-4 M, 3.3 x 10-5 to 1.66 x 10-4 M and with detection limits of 0.169 μM, 1.59 μM and 2.70 μM, respectively. The PPyox/Ag-AuNPs/GCE sensor is simple, has antifouling properties and is less time consuming with a response time of 4 s. / South Africa

Polyaromatic hydrocarbons (PAHs)

Electrochemical sensor

Polypyrrole polymer (PPy)

Anthracene (AN)

Pyrene (Py)

Phenanthrene (PHE)

Cyclic voltammetry (CV)

Square wave voltammetry (SWV)

Bimetallic nanoparticles

Estádio de maturação dos frutos, tratamentos pré-germinativos e variabilidade da emergência de plântulas de morototó (Schefflera morototoni)

Anastácio, Maristela Rosália

25 February 2010

The objective of this work was to evaluate the influence of the fruit maturation stage in the physical attributes and germination of Schefflera morototoni pyrenes subjected to pre-germination treatments. Fruits with green and purplish green coloration were collected from 14 individuals, pulped in running water, the hollow pyrenes were discarded after counting, together with those presenting retracted and oxidized endosperm, using the uniforms (with the greenish endosperm occupying the whole cavity of the pyrene). The experiment was conducted in completely randomized design in a 2 x 5 factorial (stages of fruit maturation and pre-germination treatments), with four repetitions in plots containing 25 pyrenes. For greater capacity and germination speed of the pyrenes, fruits should be harvested when they present a purplish green coloration, discarding those with hollow pyrenes, with retracted or oxidized endosperm. The germination capacity of the pyrenes with uniform endosperm varied between 50 and 60%, with the beginning of the process at about 40 days after sowing and extending for up to 60 days in vermiculite. Pulped pyrenes, dried and soaked in water at 60ºC for 5 minutes, followed by soaking in water at room temperature for 12 hours begin the germination process in less time, in relation to those pulped, dried, scarified and soaked for 6 hours. The fruit endocarp is permeable and rigid; however, it presents a natural opening when soaked. The objective was to evaluate the variability in seedling emergence measures of Schefflera morototoni from pyrenes of different individuals. Fruits of 14 individuals were pulped and pyrenes with uniform endosperm were selected. The experiment was conducted in completely randomized design with 14 treatments (individuals) and 11 repetitions in parcels containing 50 pyrenes with uniform endosperm treated by immersion in water at 60 ºC for 5 minutes and then soaked at room temperature for 12 hours. The substrate used was a mixture in proportion 2:1:1:1/2 (v/v) soil, commercial substrate Bioplant®, coarse sand and vermicompost, with pyrenes sown at 1 cm depth in expanded polystyrene trays, maintained in a nursery with 50% reduction in luminosity at average temperatures of 19.3ºC minimum and 30.2 ºC maximum and daily irrigation. Daily counting of seedlings evaluated capacity, time, rate, uniformity and synchrony of emergence, besides the distribution of frequency of emergence in relation to time. The emergence of seedlings is slow, irregular and asynchronous, taking more than 80 days for stabilization of the emergence. The percentage of seedlings can reach up to 57%, but even when the endosperm occupies the whole cavity of the pyrene and is greenish, the emergence of seedlings may not occur. There is variability in seedling emergence measurements from pyrenes of different Schefflera morototoni individuals. / CAPÍTULO II: O objetivo do trabalho foi avaliar a influência do estádio de maturação dos frutos nos atributos físicos e de germinação de pirênios de Schefflera morototoni submetidos a tratamentos pré-germinativos. Frutos com coloração verde e verde-arroxeada foram coletados de 14 indivíduos, despolpados em água corrente, descartando-se, após contabilização, os pirênios chochos, com endosperma retraído e oxidado, utilizando-se os uniformes (com endosperma esverdeado ocupando toda a cavidade do pirênio). O delineamento experimental foi o inteiramente casualizado em esquema fatorial 2 x 5 (estádios de maturação dos frutos e tratamentos pré-germinativos), com quatro repetições em parcelas contendo 25 pirênios. Verificou-se que para maior capacidade e velocidade de germinação dos pirênios, os frutos devem ser colhidos quando apresentarem coloração verde-arroxeada, descartando-se àqueles com pirênios chochos, endosperma retraído ou oxidado. A capacidade de germinação dos pirênios com endosperma uniforme varia entre 50 e 60%, com início do processo em cerca de 40 dias após semeadura, se estendendo por até 60 dias em vermiculita. Pirênios despolpados, secos e embebidos em água a 60oC por 5 minutos, seguida da embebição em água à temperatura ambiente por 12 horas iniciam o processo de germinação em menor tempo, em relação aos despolpados, secos, escarificados e embebidos por 6 horas. O endocarpo dos frutos é permeável e rígido, no entanto, apresenta abertura natural quando embebido. CAPÍTULO III: O objetivo foi avaliar a variabilidade nas medidas de emergência de plântulas de Schefflera morototoni provenientes de pirênios de diferentes indivíduos. Frutos de 14 indivíduos foram despolpados, selecionando-se pirênios com endosperma uniforme. O experimento de emergência foi conduzido em delineamento inteiramente casualizado com 14 tratamentos (indivíduos) e 11 repetições em parcelas contendo 50 pirênios com endosperma uniforme imersos em água a 60 ºC por 5 minutos e posteriormente embebidos em água destilada à temperatura ambiente por 12 horas. O substrato utilizado foi uma mistura na proporção 2:1:1:1/2 (v/v) de solo, substrato comercial Bioplant®, areia de textura grossa e vermicomposto, com pirênios semeados a 1 cm de profundidade em bandejas de poliestireno expandido, mantidas em viveiro com sombrite de 50% de redução luminosa e médias de temperaturas de 19,3 ºC a mínima e 30,2 ºC a máxima e irrigadas diariamente. Das contagens diárias das plântulas emergidas foram avaliadas medidas de capacidade, tempo, velocidade, uniformidade e sincronia de emergência, além da distribuição de frequência percentual de emergência em relação ao tempo. A emergência das plântulas é tardia, irregular e assíncrona, gastando mais de 80 dias para estabilização do estande. A porcentagem de plântulas emergidas pode atingir até 57%, porém mesmo quando o endosperma ocupa toda a cavidade do pirênio e está esverdeado, a emergência das plântulas pode não ocorrer. Há variabilidade nas medidas de emergência de plântulas quando obtidas de pirênios de indivíduos distintos de Schefflera morototoni. / Mestre em Agronomia

Permeabilidade

Sementes vazias

Tratamentos pré-germinativos

Endosperma uniforme

Pirênios

Sincronia de emergência

Uniformidade de emergência

Morototó

Morototó - Maturação

Pirênio

Permeability

Empty seeds

Pre-germination treatments

Uniform endosperm

Pyrene

Synchrony of emergence

Uniformity of emergence

CNPQ::CIENCIAS AGRARIAS::AGRONOMIA

Avaliação ambiental e biológica da exposição ocupacional aos hidrocarbonetos policíclicos aromáticos (HPA\'s) gerados em processos produtivos onde ocorre a combustão de matéria orgânica / Environmental and biological assessment of occupational exposure to polycyclic aromatic hydrocarbons (HPA\'s) generated in production processes where organic matter combustion occurs

Paulo José Teixeira

18 September 2007

Os hidrocarbonetos policíclicos aromáticos (HPAs) são uma classe de substâncias químicas que podem ser geradas na combustão de matéria orgânica, e 17 destas substâncias são consideradas como poluentes prioritários pela Agência de Proteção Ambiental dos EUA (US EPA), em função de seu potencial tóxico e carcinogênico. Para identificar e quantificar os HPAs no ambiente de trabalho por cromatografia gasosa / espectrometria de massas, foram realizadas coletas de amostras ambientais em um incinerador de resíduos de serviços de saúde localizado na região da grande São Paulo e em três fundições de metais nas cidades de Loanda e Santa Isabel do Ivaí, no Estado do Paraná. A concentração de HPAs totais nas amostras ambientais coletadas no Incinerador foi de 0,36 - 1,72 µg/m3; na Fundição 1 de 0,72 - 4,56 µg/m3; na Fundição 2 de 2,32 - 6,52 µg/m3; na Fundição 3 de 0,19 - 3,72 µg/m3. Foi realizada também a coleta de amostras biológicas de trabalhadores expostos e não expostos, para a identificação e quantificação do indicador biológico de exposição o 1-hidroxipireno por cromatografia líquida com detector de fluorescência. A concentração de 1-hidroxipireno nas amostrados biológicas dos trabalhadores no Incinerador apresentou diferença estatisticamente siginificante entre o grupo exposto e o grupo controle; na Fundição 1 houve diferença estatisticamente pouco significante entre os grupos estudados; nas Fundições 2 e 3 não houve diferença estatisticamente significante entre os grupos estudados. / The Polycyclic Aromatics Hydrocarbons (PAH) are a class of chemicals that can to be generated by organic matter burning, and 17 of that chemicals are considered priority pollutant by Environmental Protection Agency (US EPA), because their toxicity and carcinogenicity potentials. To identify and to quantitify the PAH at workplace atmosphere by gas chromatography/mass spectrometry (GC/MS), it was conducted a environmental sampling in a waste incinerator, settled in the metropolitan São Paulo Region, and at three metals foundry settled in the Loanda City and Santa Isabel do Ivaí City, at Paraná State. The concentration of total PAH in the environmental samples collected in a waste incinerator was 0,36 - 1,72 µg/m3; at metals foundry 1 was 0,72 - 4,56 µg/m3; at metals foundry 2 was 2,32 - 6,52 µg/m3; at metals foundry 3 was 0,19 - 3,72 µg/m3. The biological samples of the workers was collected to identify and to quantitify the biological indicator urinary 1-hydroxypyrene (1-OH-Pyr) by high performance liquid chromatography/fluorescence detector (HPLC-Flu). The 1-OH-Pyr concentration in the biological samples of the exposed and control group in a waste incinerator presented a statistical significant difference; in the metals foundry 1 was observed a slight statistical significant difference; and in the metals foundry 2 and metals foundry 3 was not observed statistical significant difference.

1-hidroxipireno

Fundição de metais

Monitorização biológica

Pireno

Toxicologia ocupacional

1-hydroxypyrene

Biological monitoring

lron foundry

Occupational toxicology

Polycyclic Aromatic Hydrocarbons

Pyrene

Waste incinerator

Molecular dynamics study of pyrene excimer formation and oxidation in lipid bilayer models / Etude par dynamique moléculaire de formation d'excimères et de mélanges de lipides oxydés dans les membranes lipides modèles

Ayoub, Pierre

16 December 2015

Nous proposons une nouvelle approche pour déterminer le coefficient de diffusion dans des membranes lipidiques se basant sur la formation d'excimères. Alors que les autres modèles statistiques considèrent le système comme un ensemble de points sur un réseau, nous utilisons un modèle à gros grain afin d'étudier des bicouches lipidiques simulées à l'aide du champs de force Martini. Nous déterminons le taux de réaction dépendant du temps à partir des probabilités de survie obtenues a posteriori à l'aide des trajectoires numeriques des bicouches symétriques de DOPC (1,2-Dioleoyl-sn-glycero-3-phosphocholine) et POPC (1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine) simulées à 283 K et 293 K respectivement. Les dynamiques de collision sont obtenues en distinguant virtuellement les molécules simulées. Les sondes fluorescentes sont supposées semblables aux lipides, et par conséquent, ne modifient pas la dynamique. Nous obtenons une expression générale pour la probabilité de survie en combinant approximation des paires indépendantes et propriétés d'échelle, mais aucune hypothèse n'est faite pour le taux de formation d'excimère. En superposant les intensités d'émission de fluorescence normalisées, déterminées numériquement, aux courbes de titrations expérimentales, nous obtenons deux ensembles de résultats pour le coefficient de diffusion latéral, selon que l'association entre feuillets est autorisée ou pas. Nous utilisons un rayon de capture de 0.5 nm, la distance à partir de laquelle les deux sondes réagissent pour former un excimère. En comparant la dynamique Martini aux expériences de fluorescence, il est possible d'estimer le facteur d'accélération. / We propose a novel approach to extract the lateral diffusion coefficient in lipid bilayers using excimer formation. In contrast to previous statistical models that modeled the system as points undergoing jumps from site to site on a lattice, we use coarse-grained molecular dynamics to study lipid bilayers simulated using the Martini force field. We derive time dependent reaction rates from survival probabilities obtained a posteriori from numerically generated trajectories of symmetric DOPC (1,2-Dioleoyl-sn-glycero-3-phosphocholine) and POPC (1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine) bilayers at 283K and 293K respectively. Collision dynamics are determined by virtually relabeling the simulated molecules. The fluorescent probes are assumed to behave like ordinary membrane lipids and therefore the dynamics remain unaffected. We derive a generalized expression for the survival probability combining independent pairs and size scaling assumptions, but no assumption is made regarding the kinetic rate of the excimer formation process. By fitting the numerically determined normalized fluorescence emission intensities to experimental titration curves, we obtain two sets of results for the lateral diffusion coefficients depending whether interleaflet excimer association is allowed or not. We use a capture radius of 0.5 nm, the distance at which the probes react to form excimers. By relating Martini dynamics to real fluorescence experiments, we estimate the numerical Martini acceleration factor. We also study mixtures of oxidized-non oxidized DOPC and POPC bilayers using a hydroperoxidized model of these lipids for different concentrations of the oxidized component (3.1%, 25% and 50%). Using pair correlation functions, we extract structural information on the systems and determine whether the two components are prone to mixing or not. Finally, we calculate the thermodynamic mixing parameters within the framework of the virial expansion.

Modèle membrane

Dynamique moléculaire

DOPC

POPC

Gros-grains

Formation d' excimère

Pyrène

Oxidation

Coefficient de diffusion

Model membrane

Molecular dynamics

DOPC

POPC

Coarse-grain

Excimer formation

Pyrene

Oxidation

Diffusion coefficient

539.1

Využití buněčné linie BEAS-2B pro analýzu mikrojader v genetické toxikologii / The use of BEAS-2B cell line for micronucleus assay in genetic toxicology

Červená, Tereza

January 2016

This thesis deals with the application of BEAS-2B cell line for micronucleus assay in genetic toxicology. It is divided into two main parts: a) theoretical introduction to the analysis and search for suitable models for testing the impact of air pollution and manufactured nanoparticles, b) practical part that describes the results of micronuclei induction by polycyclic aromatic hydrocarbons (PAHs), extractable organic matter (EOM) from diesel exhaust particles obtained from emissions of three types of fuel and engineered nanoparticles. BEAS-2B cell line is a nonmalignant human model of lung epithelium which seems to be suitable for micronucleus assay. This assay is commonly used for determining the genotoxicity of various substances to wide variety of cell cultures and also in human studies. In this thesis, the following substances were tested: benzo[a]pyrene, 3-nitrobenzanthrone and 1-nitropyrene as carcinogenic PAHs commonly found in polluted air; EOMs from exhaust particles of 100 % diesel fuel, a blend of diesel fuel and 30 % of biodiesel, 100 % biodiesel and two types of engineered nanoparticles (TiO2 and Ag). The cells were treated with the compounds for 28, 48 and 72 hours. The results confirm the suitability of BEAS-2B cell line as a model for testing the genotoxicity of substances under...

Synthèse et réactivité chimiques et électrochimiques de dérivés d'imidazoliums : vers des procédés éco-responsables / Chemical and electrochemical synthesis and reactivity of imidazoliums derivatives : toward eco-responsible processes

De Robillard, Guillaume

24 September 2015

Ce mémoire est consacré à l’utilisation de l’électrochimie comme outil de synthèse alternatif pour la formation de nouvelles molécules de la famille des azoliums. Une nouvelle méthode de synthèse électrochimique a été mise au point pour la synthèse de carboxylates d’imidazoliums (carbènes masqués) conduisant à une grande variété de molécules. Cette méthode a été comparée aux synthèses chimiques déjà existantes. Dans un contexte actuel de développement durable, des produits bio sourcés ont été synthétisés et à partir de ces derniers l’optimisation du procédé a été réalisée afin de réduire les flux entrants et sortants de matière et d’énergie.Le rôle clé de l’ion hydrogénoxalate a été démontré dans la synthèse de liquides ioniques et/ou sels d’imidazoliums. Certains ont été par la suite employés comme catalyseurs recyclables pour l’estérification de Fischer.La réduction électrochimique directe de différents azoliums a aussi été étudiée. Le couplage des radicaux neutres ainsi électrogénérés conduit aux σ-dimères correspondant. Ce produit redonnant par oxydation l’azolium de départ, la renversabilité de la réaction a été prouvée ouvrant la voie à de nouveaux interrupteurs moléculaires.Une électrosynthèse d’azoliums à fragment aromatique a également été étudiée. Ainsi, l’oxydation électrochimique du pyrène en présence de différents nucléophiles azotés génère les sels d’azoliums pyrène. Ce procédé a été optimisé en termes de réduction de déchets et de simplification de mise en œuvre. Certaines molécules obtenues ont montré des propriétés antimicrobiennes. / This work deals with the use of electrochemistry as a tool for alternative synthesis of new azolium-based molecules.A new electrosynthesis method was developed for the synthesis of imidazolium carboxylates (masked carbenes) leading to a wide library of compounds. This approach was compared to already reported chemical syntheses. In the current context of sustainable development, bio based products have been synthesized and optimization of the process was achieved in order to reduce waste and energy consumption.The key role of the hydrogenoxalate anion was demonstrated in the synthesis of ionic liquids and/or imidazolium salts. Some of them were employed as recyclable catalysts for Fischer esterification.The direct electrochemical reduction of various azoliums was also studied. The coupling of two electrogenerated neutral radicals leads to the corresponding σ-dimers. The oxidation of this species gives back the starting azolium proving the “reversibility” of the reaction, paving the way for new molecular switches.Azolium containing pyrene moiety was also electrosynthesized. Thus, electrochemical oxidation of pyrene in presence of different nitrogen nucleophiles leads to azolium pyrenes. This process was optimized in order to reduce waste and simplify the experimental setup. Some products have shown antimicrobial activities.

Azolium

Imidazolium

Électrosynthèse

Bio sourcé

Liquides ioniques

Estérification

Carbène masqué

Antimicrobien

Pyrène

Développement durable

Azolium

Imidazolium

Electrosynthesis

Bio based

Ionic liquids

Esterification

Masked carbene

Antimicrobial

Pyrene

Sustainable development

541.37

Interakce hyaluronanu s hydrofobními soluty / Hyaluronane interactions with hydrophobic solutes

Slezáková, Dagmar

January 2008

The diploma thesis is based on the study of hydrophobic interactions of the native hyaluronan with selected solutes. On the basis of a literature search were chosen fluorescent probes and fluorescing biologically active substances, which are useful for investigation of colloids as 6-(p-toluidino)-2-naphthalenesulfonic acid (polarity probe), lipophilic vitamin (±)-alpha-tocopherol, pyrene (polarity probe) and finally hydrophilic vitamin riboflavin. In the experimental part of this thesis was studied the influence of solvents with different polarities, or more precisely dielectric constant, on the emission spectra, as well. There were investigated interactions of native hyaluronan with TNS and then interactions, which were influenced by the ionic strength. Such influenced interactions were not observed, that was probably due to the strong solvation´s wrapping of the hyaluronan. Interactions were observed after the process of lyophilisation followed-up by the rehydratation of the samples. For the next study of interactions the riboflavin was chosen and was investigated the REES effect in the native hyaluronan in different concentrations of its different molecular weights. In this case were not observed any shifts in the emission maximum with the excitation wavelenght shift and that is why the interactions of hyaluronan with riboflavin were not demonstrated in the field of chosen concentrations. By using another probe alpha-tocopherol was investigated the associative behaviour of hyaluronan and moreover was observed anisotropy of alpha-tocopherol in different concentrations of different molecular weights of native hyaluronan. The anisotropy reached high values in contrast to the reference solute that was the mixture of glycerol and ethanol. The anisotropy depended more on the molecular weight than on the concentration of hyaluronan. Interactions of hyaluronan were also studied by using the polarity probe pyrene in different concentrations of different molecular weights of the hyaluronan. The pyrene 1:3 ratio did not show the concentration dependence within the chosen concentrations except for the molecular weight 253.9 kg mol–1. Both probes alpha-tocopherol and pyrene were performed by the process of lyophilisation followed-up by the rehydratation, which improved interactions of these probes with hyaluronan.

Sensitive Electrochemical Detection Platforms for Anthracene and Pyrene

Mwazighe, Fredrick

08 October 2020

Der elektrochemische Nachweis von polycyclischen aromatischen Kohlenwasserstoffen (PAK), zu denen Anthracen und Pyren gehören, bietet eine kostengünstigere, einfachere und schnellere alternative Analysemethode als herkömmliche Methoden wie GC und HPLC. Im Vergleich zu diesen Methoden weist er jedoch nach wie vor eine geringere Empfindlichkeit auf. Einige neuere Bemühungen haben an einem Mangel an Selektivität gelitten, entweder aufgrund der elektrodenmodifizierende Schicht mit hohem Hintergrundstrom oder der Wahl eines Leitelektrolyten, der die Detektion stört. Bei dem vorliegenden Versuch wurden Pt-Pd-Nanopartikel (NPs) und MWCNTs verwendet, um eine Glaskohlenstoffelektrode (GCE) zum empfindlichen Nachweis von Anthracen und Pyren zu modifizieren. Die verwendeten NPs wurden unter Verwendung eines wässrigen Extrakts aus Blättern von E. grandis synthetisiert, einem nachhaltigen und umweltfreundlichen Syntheseweg. Durch einer Optimierung der Mengen an Pt- und Pd-Ionen im Vorläufer wurden NPs mit einer durchschnittlichen Größe von 10 nm erhalten, wobei ein Verhältnis von 1 Pt-Ion zu 3 Pd-Ionen die kleinste Größe ergab. Durch XPS wurde festgestellt, dass die Zusammensetzung der NPs von Pt2+ und Pd0 dominiert wird. Die XRD-Analyse ergab eine kristalline Natur mit einer flächenzentriert-kubischen Struktur. Die Pt-Pd-NPs bewirkten eine Erhöhung des Spitzenstroms um 94 % für Pyren, führten jedoch zu niedrigeren Spitzenströmen für Anthracen. Wenn die NPs weiter mit MWCNTs zum Nachweis von Pyren verwendet wurden, wurde eine Spitzenstromsteigerung von etwa 200 % mit einem Dynamikbereich von 66–130 μM und einer LOD von 23 μM beobachtet. Es wurde auch festgestellt, dass der elektrochemische Prozess gemischt diffusions- und adsorptionskontrolliert ist. Aufgrund des Einflusses der Adsorption musste die Akkumulationszeit im Analyseverfahren berücksichtigt werden. MWCNTs wurden beim Nachweis von Anthracen angewendet, wobei eine Erhöhung des Spitzenstroms um 74 % und eine Verringerung des Überpotentials um 53 mV beobachtet wurde. Ein dynamischer Bereich von 50–146 µM und eine LOD von 42 µM wurden bestimmt. Niedrigere Konzentrationen wurden mit einer Leitungswasserprobe gemessen, die mit Anthracen versetzt war, hauptsächlich wegen der geringen Löslichkeit von PAK in Wasser. Der Einfluss der Säurebehandlung von MWCNTs auf den Nachweis von Anthracen und Pyren wurde ebenfalls untersucht. Die Säurebehandlung ermöglichte das Laden von mehr Material ohne Ablösen der modifizierten Schicht, was zu höheren Spitzenstromverbesserungen für Anthracen (533 %) und Pyren (448 %) führte. Für Anthracen und Pyren wurden LODs von 40 µM bzw. 14 µM bestimmt, die nur geringfügig niedriger sind als die bei MWCNTs/GCE und Pt-PdNPs/MWCNTs/GCE beobachteten Werte. Der Nachweis von Anthracen wurde durch die Anwesenheit von Pyren und gewöhnlichen Ionen gestört, während die LOD für Pyren in Gegenwart von Anthracen 18 µM betrug. Es wurde festgestellt, dass die auf MWCNTs basierende elektrochemische Nachweisplattform eine bessere Reaktion auf Pyren aufweist.:Bibliographische Beschreibung i Referat i Abstract iii Zeitraum, Ort der Durchführung v Acknowledgements vi Dedication vii Table of Contents viii List of Abbreviations and Symbols xii Chapter 1 1 Introduction 1 1.1 Overview 1 1.2 Polycyclic Aromatic Hydrocarbons 2 1.3 Electrochemical Sensors 7 1.3.1 General Response Curve for Chemical Sensors 10 1.4 Carbon Nanotubes 13 1.5 Use of Nanoparticles in Electrochemical Detection 18 1.6 Green Synthesis of Nanoparticles and The Rationale Behind It 21 1.7 Previous Efforts in the Electrochemical Detection of Polycyclic Aromatic Hydrocarbons 24 1.8 Objectives of the Study 26 Chapter 2 28 Experimental 28 2.1 Chemicals 28 2.1.1 Preparation of Anthracene and Pyrene Solutions 28 2.2 Collection and Preparation of Plant Material 29 2.3 Synthesis and Preparation of Materials 29 2.3.1 Synthesis of Metallic Nanoparticles 29 2.3.2 Acid Treatment of Multi-walled Carbon Nanotubes 30 2.4 Characterization of the Nanomaterials 30 2.4.1 UV-Vis Spectrophotometry 30 2.4.2 SEM/EDX and TEM Analysis 30 2.4.3 Powder X-ray Diffractometry 31 2.4.4 XPS Analysis 31 2.5 Electrochemical Measurements 31 2.5.1 Preparation of the Bare and Modified Glassy Carbon Electrode 32 2.5.2 Characterization of the Bare and the Modified Glassy Carbon Electrode 33 2.5.3 Electrocatalytic Oxidation of Anthracene on the Bare and Modified GCEs 33 2.5.4 Electrocatalytic Oxidation of Pyrene on the Bare and Modified GCEs 34 Chapter 3 35 Synthesis, Characterization, and Application of Pt-Pd Nanoparticles in the Electrochemical Detection of Anthracene and Pyrene 35 3.1 Test for Flavonoids and Polyphenols in the E. grandis Leaves’ Extract 35 3.2 Synthesis of Nanoparticles 35 3.3 Characterization of Nanoparticles 37 3.3.1 TEM Analysis 37 3.3.2 SEM Analysis 40 3.3.3 EDX Analysis 41 3.3.4 Powder X-Ray Diffraction Analysis 45 3.3.5 XPS Analysis of Pt-Pd Particles 46 3.4 Impedance Measurements of the Bare and Nanoparticle-modified Glassy Carbon Electrode 49 3.5 Electrochemical Oxidation of Anthracene and Pyrene at the Bare and Nanoparticles-modified Glassy Carbon Electrode 51 3.6 Conclusions 53 Chapter 4 55 Pt-PdNPs/MWCNTs-Modified GCE for the Detection of Pyrene 55 4.1 Impedance Measurement with Pt-PdNPs/MWCNTs/GCE 55 4.2 Electrochemical Oxidation of Pyrene on Pt-PdNPs/MWCNTs/GCE 56 4.3 Analysis of Varying Concentrations of Pyrene on Pt-PdNPs/MWCNTs/GCE 59 4.4 Selectivity 61 4.5 Conclusions 62 Chapter 5 64 Exploring Multi-walled Carbon Nanotubes for the Detection of Anthracene 64 5.1 Impedance Measurement of MWCNT-Modified Glassy Carbon Electrode 64 5.2 Electrochemical Oxidation of Anthracene on MWCNT/GCE 65 5.3 Analysis of Varying Concentrations of Anthracene Using MWCNTs/GCE 68 5.4 Detection of Anthracene in Tap Water 71 5.5 Conclusions 72 Chapter 6 73 Effect of Acid Treatment of Multi-walled Carbon Nanotubes on the Detection of Anthracene and Pyrene 73 6.1 Characterization of fMWCNTs 74 6.2 Electrochemical Oxidation of Anthracene on fMWCNTs/GCE 75 6.2.1 Effect of Change in Scan Rate 76 6.2.2 Effect of Accumulation Time 77 6.2.3 Application of fMWCNTs/GCE in the Analysis of Varying Concentrations of Anthracene 77 6.3 Electrochemical Oxidation of Pyrene on fMWCNTs/GCE 79 6.4 Selectivity 82 6.4.1 Co-detection of Anthracene and Pyrene at fMWCNTs/GCE 83 6.4.2 Interference of Some Common Ions 85 6.5 Detection of Pyrene in Tapwater using fMWCNTs/GCE 86 6.6 Conclusions 87 Chapter 7 88 Summary and Outlook 88 7.1 Summary 88 7.2 Outlook 90 References 92 Selbständigkeitserklärung 101 Curriculum Vitae 102 / Electrochemical detection of polycyclic aromatic hydrocarbons (PAHs), which include anthracene and pyrene, offers a cheaper, simpler, and faster alternative method of analysis than conventional methods like GC and HPLC. However, it still is not as sensitive as these methods. Some recent efforts have suffered from lack of selectivity, either from the electrode modifying layer having high background current or from the choice of supporting electrolyte interfering with the detection. In this work, Pt-Pd nanoparticles (NPs) and MWCNTs were used to modify a glassy carbon electrode (GCE) for sensitive detection of anthracene and pyrene. The NPs used were synthesized using an aqueous extract from E. grandis leaves, a sustainable and environmentally friendly synthetic route. NPs with an average size of 10 nm were obtained by optimizing the amounts of Pt- and Pd-ions in the precursor, with a ratio of 1:3 Pt to Pd-ions producing the smallest size. Through XPS, the composition of the NPs was established to be dominated by Pt2+ and Pd0. XRD analysis revealed a crystalline nature with a face-centered cubic structure. The Pt-Pd NPs produced 94 % enhancement in the peak current for pyrene but resulted in lower peak currents for anthracene. When the NPs were further used with MWCNTs for the detection of pyrene, about 200% peak current enhancement was observed with a dynamic range of 66–130 µM and LOD of 23 µM. The electrochemical process was also established to be mixed diffusion- and adsorption-controlled. The influence of adsorption necessitated the employment of accumulation time in the analysis procedure. MWCNTs were applied in the detection of anthracene and a 74 % peak current enhancement and a reduction in the overpotential by 53 mV were observed. A dynamic range of 50–146 µM and LOD of 42 µM were determined. Lower concentrations were recovered from a tap water sample that was spiked with anthracene, mainly because of the low solubility of PAHs in water. Effect of acid treatment of MWCNTs on the detection of anthracene and pyrene was also investigated. Acid treatment allowed for loading of more material without peeling off of the modified layer which resulted in higher peak current enhancements for anthracene (533%) and pyrene (448%). LODs of 40 µM and 14 µM were determined for anthracene and pyrene respectively, which are only slightly lower than what was observed at MWCNTs/GCE and Pt-PdNPs/MWCNTs/GCE. Detection of anthracene was interfered by the presence of pyrene and common ions, while the LOD for pyrene in the presence of anthracene was 18 µM. The MWCNTs based electrochemical detection platform was found to have a better response towards pyrene.:Bibliographische Beschreibung i Referat i Abstract iii Zeitraum, Ort der Durchführung v Acknowledgements vi Dedication vii Table of Contents viii List of Abbreviations and Symbols xii Chapter 1 1 Introduction 1 1.1 Overview 1 1.2 Polycyclic Aromatic Hydrocarbons 2 1.3 Electrochemical Sensors 7 1.3.1 General Response Curve for Chemical Sensors 10 1.4 Carbon Nanotubes 13 1.5 Use of Nanoparticles in Electrochemical Detection 18 1.6 Green Synthesis of Nanoparticles and The Rationale Behind It 21 1.7 Previous Efforts in the Electrochemical Detection of Polycyclic Aromatic Hydrocarbons 24 1.8 Objectives of the Study 26 Chapter 2 28 Experimental 28 2.1 Chemicals 28 2.1.1 Preparation of Anthracene and Pyrene Solutions 28 2.2 Collection and Preparation of Plant Material 29 2.3 Synthesis and Preparation of Materials 29 2.3.1 Synthesis of Metallic Nanoparticles 29 2.3.2 Acid Treatment of Multi-walled Carbon Nanotubes 30 2.4 Characterization of the Nanomaterials 30 2.4.1 UV-Vis Spectrophotometry 30 2.4.2 SEM/EDX and TEM Analysis 30 2.4.3 Powder X-ray Diffractometry 31 2.4.4 XPS Analysis 31 2.5 Electrochemical Measurements 31 2.5.1 Preparation of the Bare and Modified Glassy Carbon Electrode 32 2.5.2 Characterization of the Bare and the Modified Glassy Carbon Electrode 33 2.5.3 Electrocatalytic Oxidation of Anthracene on the Bare and Modified GCEs 33 2.5.4 Electrocatalytic Oxidation of Pyrene on the Bare and Modified GCEs 34 Chapter 3 35 Synthesis, Characterization, and Application of Pt-Pd Nanoparticles in the Electrochemical Detection of Anthracene and Pyrene 35 3.1 Test for Flavonoids and Polyphenols in the E. grandis Leaves’ Extract 35 3.2 Synthesis of Nanoparticles 35 3.3 Characterization of Nanoparticles 37 3.3.1 TEM Analysis 37 3.3.2 SEM Analysis 40 3.3.3 EDX Analysis 41 3.3.4 Powder X-Ray Diffraction Analysis 45 3.3.5 XPS Analysis of Pt-Pd Particles 46 3.4 Impedance Measurements of the Bare and Nanoparticle-modified Glassy Carbon Electrode 49 3.5 Electrochemical Oxidation of Anthracene and Pyrene at the Bare and Nanoparticles-modified Glassy Carbon Electrode 51 3.6 Conclusions 53 Chapter 4 55 Pt-PdNPs/MWCNTs-Modified GCE for the Detection of Pyrene 55 4.1 Impedance Measurement with Pt-PdNPs/MWCNTs/GCE 55 4.2 Electrochemical Oxidation of Pyrene on Pt-PdNPs/MWCNTs/GCE 56 4.3 Analysis of Varying Concentrations of Pyrene on Pt-PdNPs/MWCNTs/GCE 59 4.4 Selectivity 61 4.5 Conclusions 62 Chapter 5 64 Exploring Multi-walled Carbon Nanotubes for the Detection of Anthracene 64 5.1 Impedance Measurement of MWCNT-Modified Glassy Carbon Electrode 64 5.2 Electrochemical Oxidation of Anthracene on MWCNT/GCE 65 5.3 Analysis of Varying Concentrations of Anthracene Using MWCNTs/GCE 68 5.4 Detection of Anthracene in Tap Water 71 5.5 Conclusions 72 Chapter 6 73 Effect of Acid Treatment of Multi-walled Carbon Nanotubes on the Detection of Anthracene and Pyrene 73 6.1 Characterization of fMWCNTs 74 6.2 Electrochemical Oxidation of Anthracene on fMWCNTs/GCE 75 6.2.1 Effect of Change in Scan Rate 76 6.2.2 Effect of Accumulation Time 77 6.2.3 Application of fMWCNTs/GCE in the Analysis of Varying Concentrations of Anthracene 77 6.3 Electrochemical Oxidation of Pyrene on fMWCNTs/GCE 79 6.4 Selectivity 82 6.4.1 Co-detection of Anthracene and Pyrene at fMWCNTs/GCE 83 6.4.2 Interference of Some Common Ions 85 6.5 Detection of Pyrene in Tapwater using fMWCNTs/GCE 86 6.6 Conclusions 87 Chapter 7 88 Summary and Outlook 88 7.1 Summary 88 7.2 Outlook 90 References 92 Selbständigkeitserklärung 101 Curriculum Vitae 102

info:eu-repo/classification/ddc/540

ddc:540

Impact de la co-exposition au benzo[a]pyrène et à l'éthanol sur la progression pathologique de la stéatose hépatique / Effect of the co-exposure of benzo[a]pyrene with ethanol on the progression of fatty liver disease

Tête, Arnaud

03 July 2018

La stéatose est la pathologie hépatique la plus répandue dans le monde, touchant environ 25 % de la population générale et jusqu’à 80 % des personnes en surpoids ou obèses. Cette maladie se traduisant par l’enrichissement des hépatocytes en triglycérides, est considérée comme bénigne. Cependant, environ 20 % des personnes atteintes de stéatose développent une stéatohépatite, pathologie caractérisée par une mort cellulaire et une inflammation et représentant un stade favorable au développement du carcinome hépatocellulaire. Les causes et mécanismes impliqués dans la progression de la stéatose vers la stéatohépatite sont encore à préciser. L’obésité, l’exposition aux contaminants environnementaux et la consommation d’alcool sont trois facteurs participant au développement des pathologies hépatiques. Pourtant, l’effet de l’interaction entre ces différents facteurs sur les pathologies hépatiques n’est pas connu. Dans ce contexte, cette thèse a eu pour objectif d’étudier l’impact d’une co-exposition au benzo[a]pyrène (B[a]P), un contaminant carcinogène environnemental, et à l’éthanol, utilisé à de faibles doses, sur les cellules hépatiques WIF-B9, présentant une stéatose préalable. Les résultats obtenus ont permis de démontrer qu’une telle exposition induit une progression de la stéatose hépatique vers un stade apparenté à une stéatohépatite, marquée par une augmentation de la mort cellulaire et de l’inflammation. Nous avons mis en évidence que la mort cellulaire résulterait de l’activation de p53 et d’une peroxydation lipidique. Une activation du récepteur aux hydrocarbures aromatiques et une production de monoxyde d’azote sont à l’origine de ces évènements via une modification du métabolisme de l’éthanol et du B[a]P conduisant à des dommages à l’ADN dépendants de la formation d’anion peroxynitrite. / Steatosis is the most common form of liver disease in the world, affecting around 25 % of the general population and up to 80 % of obese people. The disease is defined by the accumulation of triglycerides in hepatocytes and is generally considered as a benign condition. However, around 20 % of people with steatosis develop steatohepatitis, a disease characterized by cell death and inflammation, a condition that favors the development of hepatocellular carcinoma. The causes and mechanisms involved in the progression from steatosis to steatohepatitis are yet not fully understood. Obesity, exposure to environmental contaminants and alcohol consumption are three major factors contributing to the development of liver diseases. However, is still not yet clear what is the effect of the interaction between these different factors on liver diseases. In this context, the aim of this study was to evaluate the impact of a co-exposure to benzo[a]pyrene (B[a]P), an environmental carcinogenic contaminant, and ethanol, used at low doses, in WIF-B9 hepatic cell line, with a prior steatosis . The results demonstrate that this type of co-exposition induces a progression of hepatic steatosis to a steatohepatitis-like stage, marked by an increased cell death and an inflammation. We have shown that in this condition, cell death results from the activation of p53 and lipid peroxidation. Activation of the aromatic hydrocarbon receptor and production of nitric oxide are the origin of these events by a modification of both ethanol and B[a]P metabolism leading to peroxynitrite-dependent DNA damage.

Maladies non alcooliques du foie

Benzo[a]pyrène

Éthanol

Métabolisme des xénobiotiques

Monoxyde d’azote

P53

Récepteur aux hydrocarbures aromatiques

Non-Alcoholic liver diseases

Benzo[a]pyrene

Ethanol

Xenobiotic metabolism

Nitric oxide

P53

Aromatic hydrocarbon receptor