Global ETD Search

71	Phytoremediation of soil contaminated with petroleum hydrocarbons and trace elements Marchand, Charlotte 08 1900 (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 when their concentrations exceed critical thresholds. Recent concerns regarding the environmental contamination have initiated the development of several remediation technologies, including physico-chemical, biological and Dig and Dump approaches. In my 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 my thesis, laboratory experiments were performed to characterize PHC and TE contaminated soil as well as the indigenous microorganisms (bacteria and fungi) present in these contaminated soils. It was found that the studied aged contaminated soil had a negative effect on earthworm’s development and Lepidium 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 effect on PHC biodegradation. In the second part of my thesis, preliminary studies in greenhouse trials were performed to investigate the ability of Medicago sativa assisted by compost in the greenhouse aided-phytoremediation of PHC and TE. The results clearly showed that compost amendment 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. My thesis showed that alfalfa (M. sativa) and sunflower (Helianthus annus) plants were suitable for phytodegradation of PHC and phytoextraction of TE. The outcomes of my thesis can be extend to other plants and they bring a new level of understanding that can be helpful for further full-scale phytoremediation studies. / L'urbanisation rapide et les activités industrielles ont abouti à la contamination de l’environnement par les hydrocarbures pétroliers (HP) et les éléments traces (ET). Ces composés sont particulièrement toxiques en raison de leur persistance dans l'environnement, et de leurs effets toxicologiques sur les êtres vivants quand les concentrations de ceux-ci dépassent des seuils critiques. Les préoccupations de plus en plus croissantes sur la contamination de l'environnement ont favorisé le développement de plusieurs technologies de remédiation des sites contaminés par les approches biologiques, physico-chimiques et par l’excavation et l’entreposage. Dans cette thèse, des options douces d'assainissement des sols (ODA) ont été utilisées à différentes échelles pour la remédiation des sols contaminés par des mélanges des HP et des ET. Dans la première partie de ma thèse, des expériences en laboratoire ont été effectuées dans le but de caractériser les sols contaminés et les micro-organismes autochtones (bactéries et champignons) qu’ils contiennent. Malgré la contamination ancienne du sol, les résultats obtenus montrent des effets négatifs des contaminants sur le développement des lombrics et la biomasse de Lepidium sativum. En outre, une respiration élevée de microorganismes, attribuée à la transformation / minéralisation de la matière organique et / ou des polluants organiques a été observée. Cette présence de micro-organismes viables dans les sols contaminés suggère leur adaptation aux contaminants. Toutefois, d'autres résultats ont montré que l'exposition à long terme des microorganismes du sol à de fortes concentrations en HP et le type de milieu de culture utilisé pour l'isolation n'influencent pas la capacité des isolats microbiens à dégrader efficacement les HP. Cette capacité de biodégradation des HP est liée à la phylogénie des microorganismes. Dans la deuxième partie de cette thèse, les études préliminaires en serre ont été réalisées dans le but d’évaluer l’efficacité de phytoremédiation en utilisant Medicago sativa assistée par l’ajout du compost. Les résultats ont montré dans cette expérience que l’ajout du compost dans le sol favorise la dégradation des HP, la croissance et la survie de M. sativa, ainsi que la phytoextraction des ET. L’évaluation des risques résiduels après la phytoremédiation a également montré un effet positif de l'amendement du sol en compost sur la croissance des plantes et le développement des lombrics. L’expérience pilote réalisée sur le terrain dans la troisième partie de ma thèse a permis une réduction de 80% des HP et de 20% des ET après 17 mois. Ma thèse a démontré que la luzerne (M. sativa) et le tournesol (Helianthus annus) sont des choix judicieux de plantes pour la phytodégradation des HP et pour la phytoextraction des ET. Les résultats qui en résultent sont utiles pour d’autres études de phytoremédiation à grande échelle. / Den snabba urbaniseringen och industrialiseringen har lett till en ökning av petroleumkolväten (PHC) och olika spårämnen (TE) i miljön. Dessa föroreningar anses vara de mest giftiga föroreningarna i världen på grund av att de stannar kvar i miljön samt att de har toxikologisk påverkan på levande varelser. På senare tid har oron för dessa miljöföroreningar lett till utvecklingen av flera saneringstekniker, såsom fysiska, kemiska och biologiska metoder. I denna avhandling undersöktes enkla marksaneringsalternativ (GRO) på olika nivåer, för återvinning av PHC och TE från förorenad jord. I den första delen av denna avhandling, utfördes laboratorieförsök för att karakterisera PHC- och TE-förorenad jord samt av de inhemska mikroorganismerna (bakterier och svampar) som förekommer i dessa förorenade jordar. Det konstaterades att den studerade förorenade jorden hade en negativ inverkan på daggmaskars utveckling och biomassan av L. sativum. Dessutom kunde den höga respirationen bland mikroorganismerna tillskrivas omvandlingen och mineraliseringen av organiskt material och/eller de organiska föroreningar som observerades. Denna närvaro av livsdugliga mikroorganismer antydde att mikroorganismerna anpassat sig till föroreningssituationen på platsen. Ytterligare resultat visade dock att den långvariga exponeringen av höga PHC-koncentrationer i isolerade odlingsmedier, för mikroorganismer i jorden, inte påverkade förmågan för dessa att effektivt bryta ned PHC. Dock hade den fylogenetiska tillhörigheten en stark påverkan på bionedbrytning av PHC. I den andra delen av denna avhandling genomfördes preliminära studier i växthus där förmågan hos M. sativa undersöktes, med hjälp av kompost, gällande den växthusstödda fytosaneringen av PHC och TE. Resultaten visade att inblanding av kompost i jorden främjade nedbrytningen av PHC, tillväxten och överlevnadsgraden av M. sativa och fytoextraktion av Pb. Återstående riskbedömning efter fytosaneringen visade också en positiv effekt, när komposten användes, på växternas tillväxt och daggmaskarnas utveckling. Ett experiment med eco-bädd utfördes för den tredje delen av avhandlingen. Denna studie visade på en minskning på upp till 80% av PHC och 20% av metallerna. Denna avhandling visar att M. sativa och H. annus var lämpliga för nedbrytning av PHC och fytoextraktion av Pb och Cu. Resultaten från denna avhandling förväntas vara användbara för ytterligare studier av fytoremediering i fullskala. Petroleum Hydrocarbon Trace Elements Gentle Soil Remediation Options Polycyclic Aromatic Hydrocarbon Respirometry Ecopile Bacteria Fungi Hydrocarbures Pétroliers Eléments Traces Options d'Assainissement Douces Hydrocarbures Aromatiques Polycycliques Respirométrie Ecopile Bactéries Champignons
72	Analysis of PAH and PCB Emissions from the Combustion of dRDF and the Nondestructive Analysis of Stamp Adhesives Poslusny, Matthew 05 1900 (has links) This work includes two unrelated areas of research. The first portion of this work involved combusting densified refuse derived fuel (dRDF) with coal and studying the effect that Ca(0H)2 binder had on reducing polycyclic aromatic hydrocarbon (PAH) and polychlorinated biphenyl (PCB) emissions. The second area of work was directed at developing nondestructive infrared techniques in order to aid in the analysis of postage stamp adhesives. With Americans generating 150-200 million tons a year of Municipal Solid Waste (MSW) and disposing of nearly ninety percent of it in landfills, it is easy to understand why American landfills are approaching capacity. One alternative to landfilling is to process the MSW into RDF. There are technical and environmental problems associated with RDF. This work provides some answers concerning the amount of PAH and PCB emissions generated via the combustion of RDF with coal. It was found that the Ca(OH)2 binder greatly reduced both the PAH and the PCB emissions. In fact, PAH emissions at the ten-percent level were reduced more by using the binder than by the pollution control equipment. If the Ca(0H)2 binder can reduce not only PAH and PCB emissions, but also other noxious emissions, such as acid gases or dioxin, RDF technology could soon be the answer to the current landfill problems. The second portion of this work focused on developing a method to analyze stamp adhesives nondestructively. Using this method, it was fairly easy to differentiate among the three different types of adhesives that have been used by the United States Postal Service: gum arabic, dextrin, and polyvinyl alcohol. Differences caused by changes in chemicals added to the adhesives were also detected. Also, forgeries were detected with as much success, if not more, than by conventional methods. This work also led to the construction of equipment that allows large samples to be analyzed by reflectance infrared methods. densified refuse derived fuel adhesives chemistry polycyclic aromatic hydrocarbon polychlorinated biphenyl Refuse as fuel -- Environmental aspects. Polycyclic aromatic hydrocarbons. Polychlorinated biphenyls. Adhesives -- Analysis.
73	Uticaj fizičko-hemijskih svojstava mikroplastike i odabranih perzistentnih organskih polutanata na interakcije u vodenom matriksu / Impact of physicochemical properties of microplastics and selected persistent organic pollutants on interactions in the aqueous matrix Lončarski Maja 20 October 2020 (has links) <p>Mikroplastika  je  sveprisutna  u  vodenom  ekosistemu  pri  čemu  se  često<br />ističe značaj ispitivanja njihovog uticaja na pona&scaron;anje drugih jedinjenja u vodi.<br />Pod pojmom mikroplastika podrazumevaju se plastične čestice manje od 5 mm.<br />Imajući u vidu potrebu za unapređenjem znanja o &scaron;tetnom uticaju mikroplastike<br />u životnoj sredini u ovom radu sproveden je set eksperimenata u kom je ispitivan<br />mehanizam  interakcija  koje  se  uspostavljaju  prilikom  adsorpcije  hlorovanih<br />fenola,  derivata  benzena  i  policikličnih  aromatičnih  ugljovodonika  na mikroplastici  u  vodenom  matriksu.  Kako  bi  se  &scaron;to  detaljnije  razumeo  uticaj mikroplastike  i  osobina  vodenog  matriksa  na  pona&scaron;anje  organskih  polutanata, laboratorijska ispitivanja su sprovedena u sintetičkom i realnom vodenommatriksu.  Takođe  je  sprovedena  optimizacija  izolovanja  i  karakterizacije mikroplastike iz kozmetičkih sredstava u cilju procene uticaja osobina primarne mikroplastike na uspostavljanje interakcija sa organskim polutantima. Na  osnovu  dobijenih  rezultata  istraživanja  može  se  zaključiti  da  se optimalna metoda izolovanja mikroplastike iz kozmetičkih sredstava zasniva na dodatnom  tretiranju  osu&scaron;enog  materijala  30%  vodonik-peroksidom,  nakon ekstrakcije  sredstva  u  destilovanoj  vodi,  u  cilju  dobijanja  čistijih  uzoraka mikroplastike. Promena brzine me&scaron;anja ima znčajan uticaj na promenu stepena adsorpcije ispitivanih grupa organskih jedinjenja.  Uticaj se ogleda u povećanju stepena adsorpcije sa porastom brzine me&scaron;anja, a maksimalni procenat adsorpcije postignut  je  pri  brzini  me&scaron;anja  od  150  o/min.  Dodatno,  disperzija  pra&scaron;kastih materijala u vodi nema značajan uticaj na promenu stepena adsorpcije hlorovanih fenola,  derivata  benzena  i  policikličnih  aromatičnih  ugljovodonika  na mikroplastici.Ravnotežno  stanje  između  koncentracije  hlorovanih  fenola,  derivata<br />benzena  i  policikličnih  aromatičnih  ugljovodonika  u  vodi  i  odabranih predstavnika  mikroplastike  (PEp,  PE_PCPs_1,  PE_PCPs_2,  PEg,  PET,  PP  i PLA) uspostavlja se nakon 24 i 48 h kontakta u zavisnosti od vrste jedinjenja. Na promenu  adsorpcionog  afiniteta  hlorovanih  fenola,  derivata  benzena  i policikličnih aromatičnih ugljovodonika prema mikroplastici utiču kako fizičkohemijske  osobine  jedinjenja  tako  i  karakteristike  mikroplastike.  Na  osnovu kinetičkih  eksperimenata, najveći adsorpcioni afinitet ka mikroplastici  ispoljili su  derivati  benzena  (qt=103-350  µg/g),  dok  je  najmanji  uočen  kod  hlorovanih fenola  (qt=25-225  µg/g).  Dobijeni  rezultati  adsorpcije  derivata  benzena  na ispitivanim  česticama  mikroplastike  takođe  su  ukazali  na  veći  afinitet  ovih jedinjenja  ka  mikroplastici,  u  poređenju  sa  jedinjenjima  iz  grupe  policikličnih aromatičnih  ugljovodonika  i  hlorovanih  fenola  sličnih  logKow  vrednosti. Dodatno,  uticaj  vodenog  matriksa  na  adsorpciju  hlorovanih  fenola,  derivata benzena  i  policikličnih  aromatičnih  ugljovodonika  na  mikroplastici  zavisi  od same grupe jedinjenja kao i od vrste mikroplastike pri čemu je najmanje izražen u  slučaju  ispitivanih  policikličnih  aromatičnih  ugljovodonika,  a  najvi&scaron;e  kod hlorovanih fenola.Visoke  vrednosti  koeficijenta  determinacije  kinetičkog  modela  pseudodrugog  reda  za  adsorpciju  hlorovanih  fenola,  derivata  benzena  i  policikličnih aromatičnih ugljovodonika na čestice mikroplastike ukazjuju da je hemisorpcija mogući  mehanizam.  Pored  visokih  vrednosti  koeficijenata  determinacije  u slučaju svih odabranih organskih jedninjenja dobijena konstanta brzine drugog reda  bila  je  manja  od  po četne  brzine  adsorpcije  &scaron;to  ukazuje  na  znatno  brže odvijanje  adsorpcije  pri  kraćim  vremenima  kontakta  (12-24  h)  nakon  čega  je<br />dolazilo do usporavanja procesa adsorpcije.Mehanizam adsorpcije hlorovanih fenola, derivata benzena i policikličnih aromatičnih ugljovodonika  ispitivan  je primenom Freundlich-ovog, Langmuirovog,  Redlich-Peterson-ovog  i  Dubinine-Radusckevich-evog  adsorpcionog modela. Vrednosti Freundlich-ovog eksponenta za adsorpciju hlorovanih fenola, derivata benzena i  policikličnih aromatičnih ugljovodonika bile su manje od 1,<br />&scaron;to ukazuje na to da je slobodna energije adsorpcije na mikroplastci opadala sa povećanjem  inicijalne  koncetracije  ispitivanih  polutanata.  Vrednosti maksimalnog adsorpcionog kapaciteta dobijene za  adsorpcione procese PAH  na česticama mikroplastike bile su u opsegu od 29,7-2596,5 µg/g. Visoke vrednosti maksimalnih adsorpcionih kapaciteta dobijene su takođe za adsorpciju derivata benzena na ispitivanim vrstama mikroplastike  39,3-2010,1 µg/g. S druge strane, uočeno  je  različito  adsorpciono  pon&scaron;anje  hlorovanih  fenola  u  zavisnosti  od vodenog metriksa u kom su eksperimenti sprovedeni pri čemu su  qmax  vrednosti iznosile 20,00-205,6 µg/g. Značajan uticaj  pH vrednosti vodenog matriksa  utvrđen je  za adsorpciju hlorovanih  fenola  na  mikroplastici,  dok  u  slučaju  derivata  benzena  i  PAH promena pH vrednosti vodenog matriksa nije pokazala značajan uticaj. Rezultati dobijeni  za  adsorpciju  hlorovanih  fenola  na  mikroplastici  ukazuju  na  nižu tendenciju  ka  formiranju  interakcija  hlorovanih  fenola  sa  česticama mikroplastike pri pH 4 i pH 10, pri čemu se stepen adsorpcije kretao u opsegu od 8-35% i 15-35%, respektivno, u odnosu na pH 7 (55-65%). Najniži  adsorpcioni  afinitet  uočava  se  pri  adsorpciji  ispitivanih  grupa jedinjenja na PLA. Može se pretpostaviti da će se organski polutanti,   ukoliko ova vrsta mikroplastike dospe u vodene sisteme, slabo vezivati na ovaj materijal pri čemu će značajno manje uticati na njihov trasport kroz životnu sredinu, u odnosu<br />na druge ispitivane vrste mikroplastike. Na  osnovu  dobijenih  rezultata  istraživanja  može  se  zaključiti  da  na adsorpciju ispitivanih grupa organskih jedinjenja i mikroplastike značajan uticaj imaju  fizičko-hemijske  osobine  ispitivanih  jedinjenja  kao  &scaron;to  su  kiselinska konstanta, veličina molekula, hidrofobnost, stukturni raspored i dr. Pored toga, karakteristike vodenog matriksa, među kojima je najvažnija pH vrednost, imaju značajan  uticaj  na  adsorpcioni  afinitet  jedinjenja  ka  mikroplastici.  Dodatno,<br />struktura  i  poreklo  polimera  ima  veliki  uticaj  na  formiranje  interakcija  sa<br />ispitivanim grupama organskih polutanata. Dobijeni rezultati takođe ukazuju na<br />nemogućnost  određivanje  unifomnog  mehanizma  adsorpcije  organskih<br />jedinjenja na česticama mikroplastike u vodi.</p> / <p>Microplastics  are  ubiquitous  in  aquatic  ecosystems,  so  it  is  essential  to study their  impact on the behaviour of other compounds which are commonly present in water. The term microplastics refers to all plastic particles smaller than 5 mm. In order  to address knowledge gaps relating to the potential harmful effects of microplastics in the environment, the experiments conducted during this thesis were designed to investigate the adsorption mechanism of chlorinated phenols, benzene derivatives, and polycyclic aromatic hydrocarbons on microplastics in water.  To  provide  a  more  detailed  understanding  of  the  influence  of  different water  matrices  on  adsorption  properties  of  microplastics,  experiments  were conducted in both synthetic and real water matrices. In the course of this work, methods were optimised for the isolation and characterization of microplastifrom personal care products, in order to allow investigation  of the influence of the  properties  of  primary  microplastics  on  their  interactions  with  organic pollutants.Base on the obtained results, it can be concluded that the optimal method of isolating microplastics from personal care products is based  on treating already dried  material  with  30%  hydrogen  peroxide,  after  extraction  of  the  agent  in distilled water, in order to obtain cleaner microplastic samples. The mixing rate was  found  to  have  a  significant  effect  on  the  degree  of  adsorption  of  the investigated  organic  compounds.  Increasing  the  mixing  speed  led  to  a  higher<br />degree  of  adsorption,  with  the  maximum  adsorption  percentage  reached  at  a<br />mixing speed of 150 rpm. In addition, the dispersion of powdered materials in the  water  had  no  significant  effect  on the  degree  of  adsorption  of  chlorinated phenols,  benzene  derivatives,  and  polycyclic  aromatic  hydrocarbons  on microplastics.<br />The  adsorption  equilibrium  between  the  concentration  of  chlorinated phenols,  benzene derivatives and polycyclic aromatic hydrocarbons in water and selected types of microplastics (PEp, PE_PCPs_1, PE_PCPs_2, PEg, PET, PP, and  PLA) was established after 24 and 48 h of contact time, depending on the selected  group  of  organic  pollutants.  The  adsorption  affinity  of  chlorinated phenols,  benzene  derivatives,  and  polycyclic  aromatic  hydrocarbons  towards microplastics  was  influenced  by  both  the  physicochemical  properties  of  the compounds  and  the  characteristics  of  the  microplastics.  Based  on  the  kinetic experiments,  the  highest  adsorption  affinity  for  microplastics  was  shown  by benzene derivatives (qt=103-350 µg/g), while the lowest was  observed during the adsorption of chlorinated phenols (qt=25-225 µg/g). Benzene derivatives showed higher  adsorption  affinities  for  the  selected  microplastic  particles  than  the polycyclic  aromatic  hydrocarbons  and    chlorinated  phenols  which  had  similar logKow  values. The influence of the water matrix on adsorption of chlorinated phenols,  benzene  derivatives,  and  polycyclic  aromatic  hydrocarbons  on microplastics  depended  on  the  specific  functional  groups  of  the  investigated compounds as well as on the type of microplastics. Water matrix had little impact on  the  adsorption  of  polycyclic  aromatic  hydrocarbons  on  microplastics  but greatly impacted the adsorption of chlorinated phenols. Fitting the pseudo-second order kinetic  model to the  adsorption data of chlorinated phenols, benzene derivatives, and polycyclic aromatic hydrocarbons on microplastic particles resulted in high correlation coefficients, indicating that chemisorption  is  the  likely  adsorption  mechanism.  In  addition  to  the  high correlation coefficients obtained for all the organic pollutants investigated, the pseudo-second order rate constants obtained were lower than the initiaadsorption rate, indicating significantly faster adsorption at shorter contact times (12-24 h), with adsorption slowing down as equilibrium was reached.The adsorption mechanism of chlorinated phenols, benzene derivatives,<br />and  polycyclic  aromatic  hydrocarbons  was  investigated  using Freundlich,Langmuir,  Redlich-Peterson,  Dubinine-Radusckevich,  and  Temkin  adsorption models.  The  Freundlich  exponent  values  for  the  adsorption  of  chlorinated phenols, benzene  derivatives, and polycyclic  aromatic  hydrocarbons were  less than 1 which indicates that the free energy of adsorption of these compounds on microplastics  decreases  as  the  initial  concentration  increases.  The  maximum adsorption capacities of PAHs on microplastic particles were in the range of 29.7-2596.5  µg/g.  High  maximum  adsorption  capacities  were  also obtained  for the adsorption  of  benzene  derivatives  on  the  tested  types  of  microplastics:  39.3-2010.1  µg/g.  The  chlorinated  phenols  behaved  differently,  and  were  more effected by the water matrix, with qmax values in  the range 20.00-205.6 µg/g. The pH of the water matrix was found to have a significant effect on the adsorption  of  chlorinated  phenols  on  microplastics,  whereas  in  the  case  of benzene  derivatives  and  polycyclic  aromatic  hydrocarbons,  the  degree  of<br />adsorption  was  largely  independent  of  the  water  pH.  For  the  adsorption  of chlorinated  phenols  on  microplastics,  neutral  pH  conditions  resulted  in  the greatest degrees of adsorption (55-65% at pH 7), while adsorption was inhibited under acidic (8-35% at pH 4) and basic (15-35% at pH 10) conditions. The microplastic type with the lowest observed adsorption affinities was PLA. It can be thus be assumed that in the event that this type of microplastic enters water systems, organic pollutants will only adsorb weakly to this material, such  that  it  will  have  significantly  less  impact  on  the  transport  of  the se compounds through the environment, than the other tested  types of microplastics. The results obtained in this research demonstrate that the adsorption of the selected  groups  of  organic  pollutants  on  the  microplastics  investigated  is significantly  controlled  by  the  physicochemical  properties  of  the  tested compounds, such as the dissociation constant, molecule  size, hydrophobicity,<br />structural properties, etc. In addition, the characteristics of the water matrix play an important role in controlling adsorption of organic pollutants on microplastic, especially the water pH. In addition, the structure and aging of the polymers had a major influence  on their interactions with the selected organic pollutants. The obtained  results  also  demonstrate  the  difficulty  in  determining  a  uniform mechanism  of  adsorption  between  the  various  organic  compounds  and microplastic particles in water.</p>
74	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 (has links) 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
75	Photo-Induced Toxicity and Toxicokinetics of Single Compounds and Mixtures of Polycyclic Aromatic Hydrocarbons in Zebrafish and Sheepshead Minnow Willis, Alison Micha 05 July 2013 (has links) No description available. Aquatic Sciences Biology Environmental Science Experiments Toxicology Zoology polycyclic aromatic hydrocarbon (PAH) toxicokinetics LC50 carbazole phenanthrene anthracene pyrene fluoranthene phototoxicity mixtures toxic unit (TU) zebrafish sheepshead minnow risk assessment
76	A modular synthesis of processable and thermally stable semi-fluorinated aryl ether polymers via step-growth polymerization of fluoroalkenes Shelar, Ketki Eknath 13 May 2022 (has links) Tailored fluoropolymers remain the leading choice for a wide variety of advanced high-performance applications, including electronic/optical and energy conversion, owing to their unique blend of complementary high-performance properties. Amorphous semi-fluorinated polymers exhibit improved solubility and melt processability when compared to traditional perfluoropolymers. A leading class of semi-fluorinated aryl ether polymers includes perfluorocyclobutyl (PFCB), perfluorocycloalkenyl (PFCA), and fluoroarylene vinylene ether (FAVE) polymers. Monomers containing aromatic trifluorovinyl ethers (TFVE) are used to synthesize PFCB polymers via radical-mediated [2+2] cyclodimerization. On the other hand, FAVE and PFCA polymers are polymerized via base-mediated nucleophilic addition/elimination of bisphenols with TFVE monomers and decafluorocyclohexene respectively. The use of different monomer cores (aromatic, aliphatic, contorted, and renewable) should help to develop general structure/property relationships for this versatile and expanding approach to semi-fluorinated aryl ether polymers. The enchainment of polycyclic aromatic hydrocarbon (PAH) cores with functional fluorocarbon groups (or segments) recently afforded a new class of semi- fluorinated polymers in the continuing quest for novel organic materials for potential applications in optoelectronic, gas-separation, and advanced composites. Chapter 2 details the incorporation of commercially available acenaphthenequinone was achieved to afford PFCB aryl ether polymers with excellent solubility, high thermal stability, and film-forming capability. Chapter 3 represents base-promoted nucleophilic addition/elimination of commercial bisphenols with TFVE-triphenylene monomers affording FAVE aryl ether polymers possessing excellent solution processability, high thermal stability and photostability. In addition, triphenylene-enchained FAVE polymers exhibit extreme thermal-oxidative photostability and emit blue light after heating in air at 250 °C for 24 h. Further, time-dependent density functional theory (TD-DFT) computations were performed to understand electronic polymer structures. In one case, post-polymerization Scholl coupling converted the central triphenylene core to afford a hexabenzocoronene containing semi-fluorinated polymer with new optoelectronic properties. Chapter 4 demonstrates synthesis and characterization of renewable semi-fluorinated polymers obtained using aliphatic diol isosorbide. This renewable diol readily polymerizes with bis-TFVE derivatives of bisphenol A and 6F to provide high molecular weight thermoplastics exhibiting excellent solubility and tough, transparent film-forming capability. Finally, Chapter 5 presents synthesis of TFVE enchained corannulene which gave blue-light emission and outstanding processability. Synthesis and characterization, including the new materials' optical, thermal, and electronic properties, is presented. fluoropolymers renewable polymers blue-light emitters corannulene isosorbide triphenylene thermally stable polymers polycyclic aromatic hydrocarbon polymers poly aryl ethers solution and melt-processable polymers processable 2D-NMR of isosorbide Chemistry Materials Chemistry Organic Chemistry Other Materials Science and Engineering Polymer Chemistry Structural Materials
77	Selective Retention of β-Carbolines and 7,12-Dimethylbenz[<i>a</i>]anthracene in the Brain : Role of Neuromelanin and Cytochrome P450 for Toxicity Östergren, Anna January 2005 (has links) <p>The ß-carbolines norharman and harman structurally resemble the synthetic compound 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) that is known for its ability to damage neuromelanin-containing dopaminergic neurons of the substantia nigra and thereby induce parkinsonism. MPTP is, however, not normally present in the environment whereas the ß-carbolines are present in cooked food and tobacco smoke. </p><p>In this thesis it was demonstrated that norharman and harman had affinity to melanin and were retained in neuromelanin-containing neurons of frogs up to 30 days post-injection (the longest survival time examined). It was also demonstrated that norharman induced neurodegeneration, activation of glia cells and motor impairment in mice. Furthermore, this compound induced ER stress and cell death in PC12 cells. An in vitro model of dopamine melanin-loaded PC12 cells was developed in order to study the effect of melanin on norharman-induced toxicity. In this model, melanin seemed to attenuate toxicity induced by low concentrations of norharman. After exposure to the highest concentration of norharman, melanin clusters were disaggregated and there was an increased expression of stress proteins and caspases-3, known to be involved in apoptosis.</p><p>The polycyclic aromatic hydrocarbon, 7,12-dimethylbenz[<i>a</i>]anthracene was demonstrated to have a CYP1A1-dependent localization in endothelial cells in the choroid plexus, in the veins in the leptomeninges and in the cerebral veins of mice pre-treated with CYP1-inducers. </p><p>These results demonstrate that the distribution of environmental compounds could be influenced by the presence of neuromelanin and expression of CYP enzymes in the brain and that norharman may induce neurotoxic effects in vivo and in vitro.</p> Toxicology β-carboline neuromelanin norharman harman parkinsonism Parkinson's disease motoric impairment behaviour glia cells substantia nigra dopamine melanin PC12 cells ER stress grp78 hsp90 cytochrome P450 CYP1A1 CYP1B1 blood-brain interfaces 7,12-dimethylbenz[a]anthracene polycyclic aromatic hydrocarbon endothelial cell smooth muscle cell bioactivation Toxikologi Toxicology Toxikologi
78	Selective Retention of β-Carbolines and 7,12-Dimethylbenz[a]anthracene in the Brain : Role of Neuromelanin and Cytochrome P450 for Toxicity Östergren, Anna January 2005 (has links) The ß-carbolines norharman and harman structurally resemble the synthetic compound 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) that is known for its ability to damage neuromelanin-containing dopaminergic neurons of the substantia nigra and thereby induce parkinsonism. MPTP is, however, not normally present in the environment whereas the ß-carbolines are present in cooked food and tobacco smoke. In this thesis it was demonstrated that norharman and harman had affinity to melanin and were retained in neuromelanin-containing neurons of frogs up to 30 days post-injection (the longest survival time examined). It was also demonstrated that norharman induced neurodegeneration, activation of glia cells and motor impairment in mice. Furthermore, this compound induced ER stress and cell death in PC12 cells. An in vitro model of dopamine melanin-loaded PC12 cells was developed in order to study the effect of melanin on norharman-induced toxicity. In this model, melanin seemed to attenuate toxicity induced by low concentrations of norharman. After exposure to the highest concentration of norharman, melanin clusters were disaggregated and there was an increased expression of stress proteins and caspases-3, known to be involved in apoptosis. The polycyclic aromatic hydrocarbon, 7,12-dimethylbenz[a]anthracene was demonstrated to have a CYP1A1-dependent localization in endothelial cells in the choroid plexus, in the veins in the leptomeninges and in the cerebral veins of mice pre-treated with CYP1-inducers. These results demonstrate that the distribution of environmental compounds could be influenced by the presence of neuromelanin and expression of CYP enzymes in the brain and that norharman may induce neurotoxic effects in vivo and in vitro. Toxicology β-carboline neuromelanin norharman harman parkinsonism Parkinson's disease motoric impairment behaviour glia cells substantia nigra dopamine melanin PC12 cells ER stress grp78 hsp90 cytochrome P450 CYP1A1 CYP1B1 blood-brain interfaces 7,12-dimethylbenz[a]anthracene polycyclic aromatic hydrocarbon endothelial cell smooth muscle cell bioactivation Toxikologi Toxicology Toxikologi
79	Altération de la physiologie des poissons exposés à des hydrocarbures aromatiques polycycliques (HAP) : comportement et reproduction / Long term physiological disruptions in fish after exposure to polycyclic aromatic hydrocarbons (PAHs) : behavior and reproduction Vignet, Caroline 11 February 2014 (has links) Les hydrocarbures aromatiques polycycliques (HAP) sont des polluants organiques persistants qui sont présents en mélange complexe dans l’environnement et notamment dans les milieux aquatiques. Ils s’adsorbent sur les particules en suspension, s’accumulent dans les sédiments et dans les premiers maillons de la chaîne trophique. L’objectif de cette étude était de mesurer les effets à long terme d’une contamination par des HAP chez un modèle de vertébrés : le poisson zèbre. Dans un premier temps, des embryons ont été exposés pendant les 4 premiers jours de leur développement sur du sédiment naturel enrobé de 3 HAP individuel (phénanthrène, pyrène et benzo[a]pyrène) puis transférés et élevés en eau propre. Dans un deuxième temps, des poissons ont été exposés par voie alimentaire tout au long du cycle de vie et dès le premier repas à 3 fractions de HAP à doses environnementales enrobées sur les aliments : une fraction pyrolytique (PY) extraite d’un sédiment échantillonné dans la Seine et deux fractions pétrogéniques (un fuel lourd (HO) provenant de l’Erika et un pétrole brut type Arabian light (LO)). Les effets à long terme sur la croissance, la survie, la reproduction et le comportement ont été évalués à différents âges. Ces effets ont pu être observés à plusieurs échelles, i.e. de la molécule, aux tissus et organes puis à l’échelle de l’individu. Globalement, chez les poissons contaminés, la croissance est ralentie, la survie larvaire diminuée chez les HO, la fonction reproduction est altérée fortement à la fois au niveau hormonal, tissulaire et phénotypique ainsi que les réponses comportementales léthargiques ou hyper-réactives selon les cas. L’exposition par voie sédimentaire a révélé des effets visibles lorsque les individus atteignaient 6 mois soulignant l’existence d’effets tardifs, notamment sur les réponses comportementales, d’une exposition très précoce y compris chez la descendance. Quant à l’exposition par voie alimentaire, elle a montré une gradation des effets. Toutes fonctions confondues, les résultats obtenus permettent d'établir une hiérarchie dans la toxicité des fractions étudiées : PY < LO ≈ HO. L'approche multi-échelle utilisée dans ce travail a permis, en partant d'informations acquises au niveau moléculaire, tissulaire et individuel, d'aboutir à une compréhension intégrée des conséquences qu'une exposition à des HAP peut avoir sur l'aptitude à la survie des poissons dans leur milieu naturel ainsi qu'à leur capacité à participer au renouvellement des générations futures. / Polycyclic aromatic hydrocarbons (PAHs) are persistent organic pollutants (POPs) which are found in complex mixtures in the environment including aquatic ecosystems. They adsorb on particles, accumulate in sediment and in the first link of the food web. The aim of this study was to measure long term effects of PAHs contamination on a vertebrate model : the zebrafish. In a first study, embryos were exposed on natural sediment spiked with 3 individual PAH (phenanthrene, pyrene and benzo[a]pyrene) during the first four days of their development. In a second study, to evaluate the consequences of long-term chronic exposure to PAHs, zebrafish were exposed, from their first meal (5 days post fertilisation) until they became reproducing adults, to diets spiked with three PAHs fractions at environmentally relevant concentrations (0.3X, 1X and 3X; with the 1X concentration being in the range of 4.6-6.7 μg.g-1 for total quantified PAHs). The fractions used were representative of PAHs of pyrolytic (PY) origin or of two different oils of differing compositions (a heavy fuel (HO) and a light crude oil (LO)). Long term effects on growth, survival, reproduction and behavior were evaluated at different ages. Effects were observed at molecule, tissue, organ and individual scales. In general, for contaminated fish, growth was reduced, larval survival decreased in HO, and reproduction was strongly impaired at hormonal, tissue and phenotypic levels, and behavioral responses were lethargic or hyperactive depending on fractions and stages. Sediment exposure still revealed visible effects when fish were 6 month old. These results hereby showed significant late effects, especially in behavioral responses after an early exposure, including in larvae issued from contaminated fish. In spiked diets contaminated fish, we observed a gradation of effects. Combining all functions, we established of hierarchy in toxicity in the studied fractions: PY < LO ≈ HO. Finally, our results gathered at a multiscale from molecule, to tissue and individuals, indicate that PAH mixtures of different compositions, representative of situations encountered in the wild, can promote lethal and sublethal effects which are likely to be detrimental for fish survival and recruitment into future generations. Danio rerio Cycle de vie Hydrocarbures aromatiques polycycliques Fuel lourd Pétrole brut HAP alkylés Effets tardifs Anxiété Descendance Réponse photomotrice Labyrinthe Nouvel environnement Danio rerio Lifecycle Polycyclic aromatic hydrocarbon Heavy oil Light crude oil Alkylated PAH Delayed effect Anxiety-like behavior Offspring Photomotor responses Maze Novel tank
80	Step-growth polymerization of perfluoro-vinyl ether, -cycloalkenes, and -acyclic alkenes with bisphenols containing variable polycyclic aromatic cores Mukeba, Karl Mpumbwa 13 May 2022 (has links) (PDF) This dissertation reports the synthesis and characterization of semi-fluorinated polymers derived from the polymerization of bisphenols with fluoroalkenes. A series of diverse bisphenols were chosen from popular commercial bisphenols and new polycyclic aromatic hydrocarbon (PAH) derived bisphenols requiring synthesis. Step-growth condensation polymerization of bisphenols with three different fluoroalkene types was performed while probing polymerization conditions and the structure/properties relationship of the resulting fluoropolymers. The fluoroalkene monomers were chosen from bis(trifluorovinyloxy)biphenyl (TFVE), perfluorocyclohexene (PFCH), and perfluoro acyclic monomers, namely, perfluoro(4-methyl-2-pentene) and 1-perfluoroheptene to undergo this chemistry. This work is divided into four parts based on the polymerization methodology. The first section focuses on the development of a new class of fluorinated arylene vinylene ether (FAVE) and their chain extended polymers prepared via base-catalyzed step-growth polymerization of PAH bisphenols with the TFVE monomer. These reactions afforded polymers containing controlled terminal and enchained fluoroalkenylenes for latent reactivity such as post polymerization functionalization, chain extension, and/or crosslinking. In general, these PAH cores resulted in polymers with improved thermal properties The second portion describes the investigation of step-growth addition/elimination polymerizations of PAH bisphenols and PFCH to prepare a new class of fluoropolymers containing alternating rigid PAH linkages and enchained PFCH vinylene ether moieties in the backbone. The third section covers the preparation and characterization of semi-fluorinated poly(aryl ether sulfone)s by nucleophilic addition/elimination reactions of PFCH with sulfone bisphenols. From commercially bisphenols combined with PAH bisphenols, we introduced the industrially valuable and property enhancing diaryl sulfone unit in a series of semi-fluorinated copolymers. This modular approach greatly expands access to partially fluorinated aryl ether sulfone polymers intended for high performance applications in optoelectronics, separation/purification membranes, and composites. Finally, in the fourth section, a new class of semifluorinated polymers was synthesized via nucleophilic addition/elimination reactions of acyclic perfluoroalkenes with bisphenols. In particular, environmental concerns for biopersistent and highly regulated perfluorooctanoic acid (PFOA) is the driver for using perfluoroheptene, which is derived cleanly by the decarboxylation of these pollutants in one step. This provided a new class of semi-fluorinated materials with promising properties including thermal stable, processability, and transparent film formation. 1-perfluoroheptene Chain extension and crosslinking Perfluoroalkene Polycyclic Aromatic Hydrocarbon Semi-fluorinated polysulfone Trifluorovinyl aryl ethers Telechelic Polymers. Chemistry Physical Sciences and Mathematics Polymer Chemistry

Search results