Bicouches lipidiques modèles pour l'étude des interactions de substances exogènes avec les membranes biologiques : exemple d'un principe actif squalénisé, le ddC-SQ / Interactions between exogene molecules and lipidic model membranes : example of a squalenoyl prodrug, SQddC

Allain, Vanessa

15 December 2011

Les principes actifs, dans leur chemin vers leur cible thérapeutique, rencontrent une ou plusieurs membranes biologiques (plasmique, intracellulaire). Les interactions entre un principe actif et ces membranes sont importantes : d’une part les propriétés pharmacocinétiques de la molécule active (transport, distribution, accumulation) en dépendent, d’autre part le principe actif peut modifier les propriétés structurales des membranes. L’étude de ces interactions est rendue difficile par la complexité des membranes en termes de composition (lipidique et protéique) et de structure (hétérogénéité de l’organisation). Par conséquent, l’utilisation de systèmes modèles simplifiés est nécessaire. Au cours de ce travail de thèse nous avons cherché à réaliser des bicouches lipidiques modèles dont les caractéristiques se rapprochaient de celles des membranes biologiques en complexifiant progressivement leur composition lipidique. Nous avons ensuite étudié l’interaction d’une molécule anti-VIH squalénisée, le ddC-SQ, avec nos modèles de membrane.Un des rôles essentiels des membranes biologiques étant de séparer deux milieux aqueux de composition ionique différente, nous avons étudié dans un premier temps l’influence de la nature du milieu d’hydratation sur les propriétés thermiques et structurales des bicouches lipidiques. A pH physiologique, nous avons mis en évidence que seuls les ions divalents (à faibles concentrations) induisaient de profondes modifications structurales en provoquant la formation de vésicules unilamellaires dans les systèmes simples. Une seconde partie de nos travaux a consisté à étudier l’interaction d’un antiviral squalénisé, le ddC-squalène (ddC-SQ), avec nos différentes bicouches modèles. Cet analogue nucléosidique a été associé de manière covalente à une chaîne de squalène afin d’améliorer ses propriétés pharmacocinétiques. Cette squalénisation confère à la molécule la capacité de s’auto-assembler en nanoparticules présentant une structure cubique bicontinue. Les résultats obtenus ont révélé que le principe actif squalénisé interagissait fortement avec les membranes à l’inverse de la molécule native. L’organisation structurale des systèmes modèles est profondément modifiée par l’insertion du ddC-SQ, ce qui pourrait influer sur l’activité du composé. / Drugs must cross one or more biological membranes (plasma membrane, intracellular membrane) to reach their intracellular target. Interactions between drug and membranes play a significant role in the pharmacokinetic properties of drug such as transport, distribution, accumulation. Moreover, drugs may alter membrane properties. The complexity of the composition (protein and lipid) and the structural properties (heterogeneity) of membranes leads to a difficult investigation of these interactions. Consequently, use of simplified model membranes is needed. In this work, model lipid bilayer systems in which the lipid organization mimics the arrangement of lipids in natural membrane have been developed. In this way, the complexity of lipid composition mixtures has been progressively increased. The primary function of membrane is to physically separate aqueous compartments from their surroundings. The intracellular and extracellular fluids differ in ionic composition. This study firstly consists to estimate the influence of aqueous medium nature on the thermodynamic and structural properties of these model membranes.In physiological conditions (pH 7.4, ionic strength 150 mM), the most significant change was obtained in the presence of divalent ions. Markedly change in lipid organization was observed and the formation of unilamellar vesicles has been evidenced (at low concentrations) in simple model bilayers. Interactions of an antiretroviral nucleoside analogue, the SQddC, with lipid systems constitute the second part of our work. Squalene has been covalently coupled to ddC, in order to improve its therapeutic index. Squalenoylation leads to amphiphilic prodrugs which self-organize as nanoparticles. ddC weakly interacts with lipid membranes while SQddC-SQ can insert into membranes between hydrophobic alkyl chains and induce disruption of lipid organization. Consequently, the efficacy and/or toxicity of this drug could change.

Membranes modèles

Séparations de phases

Sphingomyéline

Analogue nucléosidique

Dideoxycytidine (ddC)

Squalénisation

DdC squalène (ddC-SQ)

Calorimétrie (DSC)

Model membranes

Phase separations

Phosphatidylcholine

Sphingomyelin

Cholesterol

PH

Ions

Nucleoside analogue

Dideoxycytidine (ddC)

Squalenoylation

DdC squalene (SQddC)

X ray diffraction (XRD)

Differential scanning calorimetry (DSC)

Planejamento de inibidores da enzima diidroorotato desidrogenase de Trypanosoma cruzi por biocalorimetria / Biocalorimetry as a tool for Trypanosoma cruzi dihydroorotate dehydrogenase inhibitors discovery

Cheleski, Juliana

04 March 2011

A doença de Chagas, causada pelo protozoário flagelado Trypanosoma cruzi, é uma doença tropical que enseja morte/morbidade de milhões de pessoas na América Latina. Por processos migratórios, vem-se estendendo ao sul dos Estados Unidos, Canadá, Europa, Austrália e Japão. Essa doença tem sido considerada super-negligenciada pela indústria farmacêutica, já que os dois fármacos disponíveis para o seu tratamento foram introduzidos há mais de quarenta anos e apresentam baixa eficácia com vários efeitos colaterais severos. Mais recentemente, a Organização Mundial da Saúde considerou a doença de Chagas, dentre outras, como a doença da pobreza! Com esse cenário completamente desfavorável aos portadores da doença, é necessária a descoberta, desenvolvimento e introdução de novos fármacos para o tratamento eficiente e seguro da doença de Chagas. <br />Dentro desse contexto, este trabalho representa uma importante contribuição para o entendimento das razões moleculares da ação farmacológica de substâncias químicas bioativas de interesse à farmacoterapia da doença de Chagas. Ao nível molecular, a enzima pertencente à via de síntese de novo de nucleotídeos de pirimidinas, diidroorotato desidrogenase do Trypanosoma cruzi (TcDHODH), é um alvo promissor para a descoberta e desenvolvimento de candidatos a fármacos de interesse para o tratamento da doença de Chagas. <br />Os conceitos e ferramentas da química medicinal computacional, tais como os ensaios virtuais in silico, foram usados para a identificação de inibidores da TcDHODH. Vinte e seis substâncias inéditas como inibidores da TcDHODH foram adquiridos comercialmente e avaliados experimentalmente através da Calorimetria de Titulação Isotérmica (ITC) para a determinação do mecanismo de inibição e da constante cinética de afinidade (Kiapp). <br />Na etapa de docagem molecular, o objetivo era identificar moléculas que apresentassem uma boa afinidade pelo sítio ativo da enzima TcDHODH. A primeira série de ligantes selecionados dos métodos in silico, apresentou inibição enzimática na concentração de micromolar com eficiência média de ligante de 0,50 kcal mol-1 átomo-1. Devido à baixa massa molecular (aproximadamente 200 kDa) e a alta eficiência de ligante, essa série foi considerada como constituída de excelentes substâncias com elevado poder de reconhecimento biomolecular. Por isso, foram caracterizadas como substâncias passíveis de otimização no processo do-ligante-para-substância matriz. <br />As enzimas TcDHODH e DHODH de Leishmania major (LmDHODH) têm sítios ativos com elevado grau de similaridade. Portanto, usando a enzima LmDHODH como padrão de substituição da TcDHODH é possível fazer a descrição do modo de interação do co-complexo TcDHODH-inibidor. O modo de ação descrito através da resolução da estrutura cristalográfica de raios-X, além de validar ortogonalmente os resultados cinéticos obtidos por ITC - que identificou as substâncias como inibidores competitivos (por interação direta no sítio ativo da enzima TcDHODH), geraram hipóteses farmacofóricas para a busca de novas moléculas (chamadas de segunda geração), agora com padrão superior de reconhecimento molecular do sítio da TcDHODH. Para validar complementarmente a hipótese, foi demonstrado que os inibidores da TcDHODH inibem, similarmente, a LmDHODH. <br />Uma análise cuidadosa da estrutura tridimensional da enzima TcDHODH, demostrou a possibilidade de ocupação do sítio S2 que se estende além da região do sítio catalítico S1, permitindo assim o aumento da afinidade biomolecular com os inibidores. Além disso, o sítio S2 não é encontrado na estrutura da proteína de humanos (HsDHODH), podendo ser uma região passível de seletividade frente à enzima TcDHODH. <br />O emprego adequado dessa hipótese resultou na otimização dos ligantes identificados previamente para substâncias mais potentes que inibiram a enzima de forma competitiva em relação ao substrato diidroorotato (DHO) em valores Kiapp de 121 &plusmn; 14 nM e 190 &plusmn; 10 nM. <br />A técnica de ITC foi fundamental no processo de descoberta de inibidores enzimáticos, pois se mostrou extremamente susceptível à determinação da interação intermolecular enzima-inibidor, permitindo acompanhar a cinética da reação e obter os valores da constante de afinidade de maneira precisa e acurada. Com isso, a taxa de acerto obtida nesta tese foi de 46%, considerando-se apenas as substâncias com valores de Ki app < 100 &micro;M. Esse é um número favoravelmente apreciável, já que na literatura ele gira em torno de 1-10% quando o planejamento in silico é realizado, quando comparado às taxas de acerto dos métodos de ensaio em larga escala (HTS), entre 0-2 %, os resultados alcançados neste trabalho são ainda mais significativos. <br />Além disso, as substâncias químicas selecionadas através da integração de métodos in silico e biocalorimétricos apresentam elevado grau de complexidade no processo biomolecular de interação enzima-ligante, que permite classificá-las para as fases seguintes da gênese planejada de fármacos. / American trypanosomiasis or Chagas disease, caused by the haemoflagellate Trypanosoma cruzi, is a tropical disease that affects millions of people in Latin America. Epidemiology of Chagas disease in non-endemic countries is attained by immigration as the disease also affects people in the United States, Canada, Europe, Australia and Japan. However, the United States are not to be written off as an area of nonendemicity for Chagas disease like Europe or Asia because the southern states have enzootic T. cruzi transmission that involves triatomine species and hosts such as raccoons, opossums, and domestic dogs. Even though, this disease has been considered as a super-neglected from the big Pharma Industry viewpoint since the only available drugs for its treatment were introduced in the market more than forty years ago and worsen is that they have low efficacy and cause various severe side effects. <br />Although the current clinical scenario is of course discouraging and is far from being even a soothing treatment for those who suffer from the disease, it prompt ones to set efforts towards the need of discovering and developing new efficacious and safe drugs to treat Chagas disease. <br />Our research group covers the concept of enzymes acting as targets for the action of drugs. Once T. cruzi has many druggable targets, the dihydroorotate dehydrogenase enzyme (TcDHODH) that belongs to the de novo pyrimidine nucleotide synthetic pathway has been chosen for the search of new inhibitors that may be of use in the treatment of Chagas disease. To accomplish with this and considering that inhibitors are molecules that decrease enzyme activity leading to parasite death, we used the concepts and tools of modern computational medicinal chemistry such as in silico screening of small molecules that bind to the active site of the TcDHODH. <br />After a thoroughly program of virtually screening thousands of compounds, 26 were purchased from commercially available sources and experimentally assayed against the TcDHODH using Isothermal Titration Calorimetry (ITC) in order to determine the mechanism of inhibition and the kinetic affinity constant (Kiapp). <br />The first series of inhibitors selected from our in silico strategy were evaluated by ITC to yield compounds that inhibited the TcDHODH in the micromolar concentration range with an average of 0.50 kcal mol-1 atom-1 ligand efficiency (LE). Because the assayed compounds have low molecular weight (ca. 200 kDa) and high LE, which bring them to the specific bimolecular pattern recognition all of them were considered good inhibitors capable of being selected to enter the hit-to-lead optimization process. <br />The detailed description of the ligand-enzyme mode of binding (MOB) is thoroughly accomplished by solving the X ray crystal structure of the surrogate Leishmania major DHODH enzyme (LmDHODH), which has a high degree of similarity with the enzyme TcDHODH. The MOB credited to be in the active site of the TcDHODH orthogonally validated the ITC kinetic experimental data obtained for all ligands as competitive inhibitors that interact at the active site of the TcDHODH and helped to generate pharmacophoric hypotheses for the search of new second generation molecules acting against the enzyme TcDHODH.  Analyzing the 3D structure of the TcDHODH along with its surrogate LmDHODH, we envisaged the possibility of compounds to extend their side chain beyond the region of the catalytic site (called S1), and interacting in a region called S2, so to increase binding affinity. Moreover, the TcDHODH S2 site that is not found in the 3D protein structure of humans (HsDHODH) is likely to offer new insights for the search of inhibitors whose binding to this S2 site can pave the roads towards the needed structural basis for selective inhibition of TcDHODH. <br />The most potent compounds inhibited the enzyme competitively with respect to the substrate dihydroorotate (DHO) at Kiapp values of 121 &plusmn; 14 nM and 190 &plusmn; 10 nM, which constitutes high affinity TcDHODH inhibitors. The ITC technique was pivotal to this process of enzyme inhibitors discovery, because it proved to be extremely sensitive thus allowing to monitor the kinetics of the reaction and to obtain precise and accurate values of affinity constants. <br />The hit rate obtained in this work, considering only those compounds with Kiapp < 100 &micro;M, was 46%. This is a really high number, since literature values range from 1 to 10% when the planning new inhibitors via in silico methods when compared to the success rates obtained by the methods of testing on large scales (HTS), 0-2 %, the results achieved in this work are even more significant. Moreover, the compounds selected through the integration of in silico and calorimetric methods showed a high degree of complexity in the process of bimolecular enzyme-ligand recognition, which allows to pass them to the next phase of the drug design process.

Leishmania major

Leishmania major

Trypanosoma cruzi

Trypanosoma cruzi

Calorimetria de titulação isotérmica

Chagas disease

Cheminformatic

Cinética enzimática

Constante de inibição

Crystal structure

DHODH

DHODH

Dihydroorotate dehydrogenase

Diidroorotato desidrogenase

Doença de chagas

Drug

Ensaio virtual

Enzyme inhibitor

Enzyme kinetic

Estrutura cristalográfica

Fármacos

inhibitor constant

Inibidor enzimático

Isothermal titration calorimetry

ITC

ITC

Medicinal chemistry

Química medicinal

Quiminformática

Virtual screening

Estudos teórico e experimental de propriedades estruturais e eletrônicas da molécula emodina em solvente e em bicamadas lipídicas / Theoretical and Experimental Studies of Structural and Electronic Properties of Emodin Molecule in Solvent and Lipid Bilayers

Cunha, Antonio Rodrigues da

08 August 2014

A Emodina (EMH) é uma das antraquinonas mais abundantes na natureza. Essa molécula vem sendo largamente usada como material de estudo científico por apresentar diversas atividades farmacológicas, tais como antiviral, antitumoral, antifungal, digestiva e outras. É conhecido que a Emodina em solução aquosa alcalina pode sofrer mais de um processo de desprotonação, apresentando-se na forma desprotonada, EM-, após a primeira desprotonação. Nesta tese de doutorado estudamos as propriedades estruturais e eletrônicas da molécula Emodina em meio solvente e em bicamadas lipídicas a fim de caracterizar as propriedades relacionadas à espectroscopia UV-Vis, à reatividade e à termodinâmica dessa molécula nesses ambientes. Realizamos cálculos quânticos com a Emodina em vácuo e em meio solvente, onde consideramos todos os possíveis sítios de desprotonação. Como resultados desses cálculos, identificamos os sítios da primeira, segunda e terceira desprotonação. Calculamos o pKa1 da Emodina em água e o pK*a1 em metanol através de simulações computacionais com o método Monte Carlo e cálculos quânticos, com o solvente descrito com o modelo contínuo polarizável. Nossos melhores valores para o pKa1 da Emodina determinados nesses solventes foram 8.4±0.5 e 10.3±1.5, que estão em boa concordância com os valores experimentais, (pKa1=8.0±0.2 e pK*a1=11.1±0.1) obtidos nesta tese para Emodina em água e metanol, respectivamente. Adicionalmente realizamos simulações com Dinâmica Molecular com as espécies EMH e EM- em bicamada lipídica de DMPC, para investigar a nível atômico as interações dessas espécies com a bicamada e determinar as posições preferenciais dessas espécies nesse ambiente anfifílico. Os resultados dessas simulações mostraram que as espécies EMH e EM- ficam inseridas na bicamada, na região polar dos lipídios, próximos aos gliceróis. Esses resultados corroboram as nossas medidas do espectro de absorção dessas espécies em bicamada lipídica, onde mostramos de forma qualitativa, que ambas as espécies ficam inseridas na bicamada, na região das cabeças polares dos lipídios. A análise das propriedades estruturais da bicamada na vizinhança das espécies da Emodina como área por lipídio e densidade eletrônica dos lipídios, mostrou que o efeito da EM- na estrutura da bicamada lipídica é maior do que o da EMH. Esses resultados corroboram as nossas medidas de DSC(Differential Scanning Calorimetry) das espécies da Emodina na bicamada. / Emodin (EMH) is one of the most abundant anthraquinone derivatives found in nature. This molecule has been used widely as research material, due to its biological and pharmacological activities such as antiviral, anticancer, antifungal, digestive and antibacterial activities. It is known that Emodin in alkaline aqueous solution can undergo more than one deprotonation, leading to the specie EM- in the first deprotonation process. In this PhD thesis, we studied the structural and electronic properties of this molecule in several solvents and lipid bilayers, in order to characterize the properties related to UV-Vis absorption spectroscopy, reactivity and thermodynamics of this molecule in these environments. Performing quantum mechanics (QM) calculations for all possible deprotonation sites and tautomeric isomers of Emodin in vacuum and in water, we identified the sites of the first, second and third deprotonations. We calculated the pKa1 of Emodin in water and pK*a1 in methanol with free energy perturbation method, implemented in the Monte Carlo simulation, and with QM calculations, where the solvent was treated as a polarizable continuum medium. Our best values for pKa1 of Emodin in these solvents were 8.4±0.5 and 10.3±1.5, which are in very good agreement with the experimental values obtained in this thesis pKa1=8.0±0.2 and pK*a1=11.1±0.1, for water and methanol, respectively. Additionally, we performed molecular dynamics simulations of both species in fully hydrated lipid bilayers of DMPC to investigate at atomic detail the molecular mechanism of the interaction of these species with lipid membrane and its preferred positions in this amphiphilic environment. As results of these simulations, we obtained that both species of Emodin have a strong tendency to insert into the lipid bilayer, remaining near the glycerol group of DMPC. These results corroborate our measured absorption spectra of these species in the bilayer, which qualitatively showed that both species are within the bilayer, inserted in the lipid headgroup region. Our results also show that the effect of EM- specie in the lipid bilayer structure is stronger than the EMH, which corroborate our DSC(Differential Scanning Calorimetry) measurements.

Acidity constant

Constante de acidez

Differential scanning calorimetry

Física Atômica e Molecular/Biofísica

Processo de protonação/desprotonação

Protonation / deprotonation process

Spectroscopic titration

Titulação espectroscópica

Recycling of Glass Fiber Composites

Krishnamoorthi, Ramesh, Shinzhao, Zhang

January 2012

Composites are the materials which can be used for a wide variety of applications andproducts such as sports equipment, aerospace and marine because of light and stiffnessproperties. Composites are often made from thermoset resin with glass fibers.In this study, two ways of recycling composites were evaluated, which are microwavepyrolysed composites (MGC) and mechanical composites (GC). These glass fibers weregoing to be compounded with Polypropylene (PP) or Maleic Anhydride ModifiedPolypropylene (MAPP) and then injection moulded the sample by Micro-compounder.In order to get better adhesion to the polymer, a coating was added. The Neoxil 5682-polypropylene water emulsion was evaluated.The samples were characterized by Tensile Testing, Thermogravimetric Analysis (TGA),Different Scanning Calorimetry (DSC), and Dynamic Mechanical Analysis (DMA) to find aoptimum combination of recycled glass fiber reinforced polymer.Microwave pyrolysis is a new research area. The glass fiber, polymer oil and gas can beobtained by heating the composite with microwaves to in an inert atmosphere. The polymeroil can be distillated and then evaluated with GC-MS; in order to obtain the chemicalcompositions.Keywords: Composites, grinded and microwave pyrolyse composites (MGC), grindedcomposites (GC), Polypropylene (PP), Maleic Anhydride Modified Polypropylene (MAPP),Micro-compounder, Tensile Testing, Thermogravimetric Analysis (TGA), Different ScanningCalorimetry (DSC), and Dynamic Mechanical Analysis (DMA), Microwave pyrolysis,polymer oil, distillation, GCMS Analysis. / Program: MSc in Resource Recovery - Sustainable Engineering

polypropylene (pp)

grinded composites (gc)

neoxil

virgin glass fiber

caco3

hammer mill fiber

micro-compounder

injection

termogravimetric analysis (tga)

tensile testing

gcmsanalysis

dynamic mechanical analysis

microwavepyrolysis

different scanning calorimetry(dsc)

distillation

polymer oil

Engineering and Technology

Teknik och teknologier

Biodegradable Composites : Processing of thermoplastic polymers for medical applications.

Damadzadeh, Behzad, Jabari, Hamideh

January 2009

Despite the recent development in PLA and PLGA based medical devices, there are still needs to further improve the mechanical performance of bioresorbable medical implants and their bioactivity. This is normally done by optimizing the filler compositions in selected groups ofbiodegradable polymer matrices. In this study, the effects of various filler levels on mechanical strength and thermal properties of PLA and PLGA composites were investigated. Composites containing different dosage of osteoconductive HAp with various particles size (0-5μm, 0-50 μm, nano size), β-TCP, bioactive glass and biodegradable Poly-L-lactide and Polylactide-glycolic acid was manufactured with melt blending, using a twin-screw extruder.The samples were investigated by Differential Scanning Calorimetry (DSC), thermo gravimetric analysis (TGA), Scanning Electron Microscopy (SEM), viscometer, three points bending machine, and Optical Microscopy (OM). The Extruder produced a porous profile. The result from TGA and SEM indicated that there was homogenous filler dispersion in the matrix after compounding.The result from DSC and Viscometer shows that there was some degradation duringcompounding. Mechanical properties of composites were modified by adding filler to matrix. The addition of Bioactive glass, as a filler, increases the degradation of the polymer matrix. The best filler that was applied is 0-5μm and nano HAp. Also in in-vitro degradation part of this thesis work, the effects of calcium phosphate materialsare investigated on degradation process.

poly lactic acid

poly glycolic acid

microcompounder

in-vitro degradation

biomedical application

hydroxy appetite (hap)

tricalcium phosphate (tcp)

bioactive glass (bag)

bioceramic

medical composite

differential scanning calorimetry (dsc)

inherent viscosity

termogravimetric analysis (tga)

scanning electron microscopy (sem)

biodegradable composite

Engineering and Technology

Teknik och teknologier

Évaluation du travail respiratoire dans l’insuffisance respiratoire aiguë de l’enfant

Mortamet, Guillaume

01 1900

No description available.

ventilation mécanique

mécanique ventilatoire

travail respiratoire

insuffisance respiratoire aigue

activité électrique du diaphragme

calorimétrie indirecte

pression oesohagienne

pédiatrie

enfant

Mechanical ventilation

Respiratory mechanics

Work of breathing

Acute respiratory failure

Electrical activity of the diaphragm

Indirect calorimetry

Esophageal pressure

Children

Pediatrics

Morphologie, structure et propriétés thermodynamiques des auto-assemblages nucléolipides / acides nucléiques / Morphology, structure and thermodynamic properties of nucleolipids / nucleic acids self-assemblies

Schoentgen, Eric

20 November 2015

Les nucléolipides sont des molécules amphiphiles dont la structure bio-inspirée dérive de celle des acides nucléiques. Leur auto-assemblage en milieu aqueux aboutit à la formation d’objets supramoléculaires de morphologies et structures très diverses. La morphologie a été caractérisée par des techniques complémentaires de microscopie optique et de diffusion de la lumière, tandis que leur structure a été déterminée par la diffusion des rayons X. Il a ainsi été mis en évidence l’existence et le rôle fondamental des interactions faibles entre têtes polaires, au sein des auto-assemblages. La nature de ces interactions faibles a été déterminée par des techniques de spectroscopies IR et UV. Un premier objectif a été de mettre en évidence l’importance de ces interactions, ainsi que leur corrélation avec d’autres facteurs qui régissent le mécanisme d’auto-assemblage, tels que la nature chimique des amphiphiles, ou la morphologie et la structure des objets supramoléculaires en présence.Par ailleurs, la tête polaire nucléotide permet également d’imaginer la formation d’interactions faibles entre les auto-assemblages et un monobrin d’acide nucléique, à l’image des interactions spécifiques entre bases azotées présentes dans l’ADN. Lors de ce travail, nous nous sommes intéressés à une méthode de vectorisation d’acides nucléiques par des objets eux aussi chargés négativement. Contrairement aux approches classiques, l’interaction électrostatique est ici défavorable et l’association repose alors uniquement sur des interactions faibles spécifiques, estimées en spectroscopie. De façon surprenante, la formation des complexes a pu être mise en évidence par des expériences de diffraction des rayons X et un modèle approprié a permis de proposer des mécanismes de formation des complexes. Les propriétés thermodynamiques des différents complexes formés ont été évaluées par la technique de Calorimétrie à Titration Isotherme (ITC). Un point remarquable a été la mise en évidence systématique de trois types de comportements sur l’ensemble des complexes étudiés en fonction de la nature et de la spécificité des interactions mises en jeu. Ceci nous a ainsi permis de proposer différents mécanismes de formation pour chaque type de complexe observé. / Nucleolipids are amphiphilic molecules which bio-inspired structure derives from nucleic acid structure. Their self-assembling behaviour in aqueous medium leads to the formation of supramolecular objects of very different morphologies and structures. The morphology has been characterized with optical microscopy and light scattering complementary techniques, whereas their structure has been determined with X-ray scattering. Thus the existence and the fondamental role of weak interactions between polar heads inside the self-assemblies have been highlighted. The nature of these weak interactions has been determined with IR and UV spectroscopies techniques. A first objectif has been to highlight the importance of these interactions, as well as the their correlation with other factors which drive the mechanism of self-assembly, such as the chemical nature of amphiphiles or the morphology and structure of the supramolecular objects.Moreover the nucleotide polar hear also allows to imagine the formation of weak interactions between the self-assemblies and a single-stranded nucleic acid, such as those highlighted in DNA. In this work, we found interest in a nucleic acid vectorisation method with negatively charged objects as well. On the contrary of classic approaches, electrostatic interaction was here defavorable and assembling relies only on specific weak interactions, estimated with spectroscopy methods. Surprisingly, complexes formation could be highlighted with X-ray scattering experiments, and an appropriate model has allowed the proposal of mechanisms for the formation of complexes. Thermodynamic properties of the different complexes formed have been evaluated with Isothermal Titration Calorimetry (ITC) technique. A remarkable point was the systematic highlighting of three types of behaviour on the whole set of complexes studied, depending of the nature and the specificity of the weak interactions implied. This led us to different proposals for the mechanism of formation of each type of complex studied.

Nucléolipides

Lipides nucléotides

Acides nucléiques

Auto-assemblage

Interactions faibles

Pi-pi stacking

Liaison hydrogène

Interactions spécifiques

Bicouche lipidique

Membrane

Vésicule

Constante d’association

Nucleolipids

Nucleic acids

Self-assembly

Weak interactions

Pi-pi stacking

Hydrogen bonding

Specific interactions

Lipidic bilayer

Membrane

Vesicle

Isothermal Titration Calorimetry (ITC)

Association constant

The effects of severe plastic deformation on an age hardenable Al-2.5Cu-1.5Mg alloy / Les effets des déformations plastiques sévères sur un alliage Al2.5Cu1.5Mg

Tort, Morgan

02 June 2015

Les effets du pressage à canaux égaux (ECAP), un procédé de déformation plastique sévère, ont été examinés dans un alliage Al-2.5Cu-1.5Mg (pourcentage en masse) prône à être durci par traitement thermique et précipitant dans la région α + S. Une multitude de techniques microscopiques, calorimétriques et analytiques ont été utilisés pour caractériser et quantifier les microstructures, incluant la diffraction Kikuchi, la microscopie électronique en transmission, la calorimétrie différentielle à balayage et la sonde atomique tomographique. Quatre différents traitements thermiques initiaux ont été réalisés pour créer quatre microstructures différentes, contenant soit aucun précipités, des clusters Cu-Mg ou/et des composés intermétalliques Al2CuMg. Chaque spécimen a été soumis au procédé ECAP à température ambiante et les effets correspondants sur la microstructure et les propriétés mécaniques ont été analysés. Des expériences en compression pour de petite déformation (inférieures à 7%) ont aussi été entreprises sur les échantillons trempés pour étudier les effets de la compression sur la formation des clusters. Après la trempe et la compression, des clusters Cu-Mg ont été trouvés dans la matrice et il a été élucidé que la formation des clusters était déclenchée par la compression. La fraction volumique des clusters est corrélée directement par la déformation appliquée : plus la déformation est importante, plus la fraction volumique des clusters est importante. Après ECAP, la microstructure est constituée de longues bandes nanocristallines séparée par de gros grains non-déformés pour les échantillons contenant seulement des clusters avant la déformation, tandis que la présence de phase S, avant ECAP, conduit à des microstructures constituées de zones à gros grains et de zones à grains raffinés, distribués d’une façon homogène à travers les échantillons. Bien que les spécimens présentaient clairement des microstructures différentes après ECAP, impliquant que différents mécanismes de renforcement entre en jeux, la limite élastique se situait au-delà de 500 MPa. La limite élastique des échantillons fabriqués par ECAP a été modélisée en superposant les différents mécanismes de renforcement et en saisissant les paramètres microstructurels venant de la caractérisation dans le modèle. Il a été démontré qu’une très bonne corrélation existait entre les limites élastiques provenant du modèle et celles expérimentales. / The effects of equal channel angular pressing (ECAP), a severe plastic deformation (SPD) technique, were investigated in an age hardenable Al-2.5Cu-1.5Mg (weight percent (wt.%)) alloy precipitating in the α + S phase field. A variety of microscopy, calorimetry and analytical techniques were employed to characterize and quantify the microstructure, including transmission kikuchi diffraction (TKD), transmission electron microscopy (TEM), differential scanning calorimetry (DSC) and atom probe tomography (APT). Four different initial heat-treatments were conducted to achieve four different microstructures, containing either no precipitates, Cu-Mg clusters or/and Al2CuMg intermetallics. Each specimen was subjected to ECAP at room temperature and the related effects on the microstructure and mechanical properties were analysed. Compression experiments for small strains (less than 7%) were also undertaken on the as-quenched samples to investigate the effects of compression on the formation of clusters.After quenching and compression, Cu-Mg clusters were found in the matrix and it was elucidated that the formation of clusters was triggered by pressing. The volume fraction of clusters was found to be correlated to the strain applied: the higher the strain, the higher the volume fraction.After ECAP, the microstructure was constituted of long nanocrystalline bands separated by large undeformed grains for the samples containing only clusters before deformation, while the presence of S phase, prior to ECAP, lead to microstructures constituted of both coarse and refined zones distributed homogeneously throughout the sample. Although the samples presented clearly different microstructures after ECAP, implying that different strengthening mechanisms were active, the yield strength was found to lie above 500 MPa. The yield strength of the ECAP processed samples was modelled by superposing the different strengthening mechanisms altogether and by inputting the microstructural parameters coming from characterisation in the model. It was demonstrated that a very good correlation existed between the modelled and experimental yield strength values.

Pressage à canaux égaux

Aluminium

Déformation plastique sévère

Caractérisation

Propriétés mécaniques

Sonde atomique tomographique

Modélisation

Diffraction par transmission kikuchi

Mécanismes de renforcements

Equal channel angular pressing

Aluminium

Severe plastic deformation

Characterisation

Mechanical properties

Atom probe tomography

Differential calorimetry

Modeling

Transmission kikuchi diffraction

Hardening mechanisms

The Influence of Fibre Processing and Treatments on Hemp Fibre/Epoxy and Hemp Fibre/PLA Composites

Islam, Mohammad Saiful

January 2008

In recent years, due to growing environmental awareness, considerable attention has been given to the development and production of natural fibre reinforced polymer (both thermoset and thermoplastic) composites. The main objective of this study was to reinforce epoxy and polylactic acid (PLA) with hemp fibre to produce improved composites by optimising the fibre treatment methods, composite processing methods, and fibre/matrix interfacial bonding. An investigation was conducted to obtain a suitable fibre alkali treatment method to: (i) remove non-cellulosic fibre components such as lignin (sensitive to ultra violet (UV) radiation) and hemicelluloses (sensitive to moisture) to improve long term composites stability (ii) roughen fibre surface to obtain mechanical interlocking with matrices (iii)expose cellulose hydroxyl groups to obtain hydrogen and covalent bonding with matrices (iv) separate the fibres from their fibre bundles to make the fibre surface available for bonding with matrices (v) retain tensile strength by keeping fibre damage to a minimum level and (vi) increase crystalline cellulose by better packing of cellulose chains to enhance the thermal stability of the fibres. An empirical model was developed for fibre tensile strength (TS) obtained with different treatment conditions (different sodium hydroxide (NaOH) and sodium sulphite (Na2SO3) concentrations, treatment temperatures, and digestion times) by a partial factorial design. Upon analysis of the alkali fibre treatments by single fibre tensile testing (SFTT), scanning electron microscopy (SEM), zeta potential measurements, differential thermal analysis/thermogravimetric analysis (DTA/TGA), wide angle X-ray diffraction (WAXRD), lignin analysis and Fourier transform infrared (FTIR) spectroscopy, a treatment consisting of 5 wt% NaOH and 2 wt% Na2SO3 concentrations, with a treatment temperature of 120oC and a digestion time of 60 minutes, was found to give the best combination of the required properties. This alkali treatment produced fibres with an average TS and Young's modulus (YM) of 463 MPa and 33 GPa respectively. The fibres obtained with the optimised alkali treatment were further treated with acetic anhydride and phenyltrimethoxy silane. However, acetylated and silane treated fibres were not found to give overall performance improvement. Cure kinetics of the neat epoxy (NE) and 40 wt% untreated fibre/epoxy (UTFE) composites were studied and it was found that the addition of fibres into epoxy resin increased the reaction rate and decreased the curing time. An increase in the nucleophilic activity of the amine groups in the presence of fibres is believed to have increased the reaction rate of the fibre/epoxy resin system and hence reduced the activation energies compared to NE. The highest interfacial shear strength (IFSS) value for alkali treated fibre/epoxy (ATFE) samples was 5.2 MPa which was larger than the highest value of 2.7 MPa for UTFE samples supporting that there was a stronger interface between alkali treated fibre and epoxy resin. The best fibre/epoxy bonding was found for an epoxy to curing agent ratio of 1:1 (E1C1) followed by epoxy to curing agent ratios of 1:1.2 (E1C1.2), 1: 0.8 (E1C0.8), and finally for 1:0.6 (E1C0.6). Long and short fibre reinforced epoxy composites were produced with various processing conditions using vacuum bag and compression moulding. A 65 wt% untreated long fibre/epoxy (UTLFE) composite produced by compression moulding at 70oC with a TS of 165 MPa, YM of 17 GPa, flexural strength of 180 MPa, flexural modulus of 10.1 GPa, impact energy (IE) of 14.5 kJ/m2, and fracture toughness (KIc) of 5 MPa.m1/2 was found to be the best in contrast to the trend of increased IFSS for ATFE samples. This is considered to be due to stress concentration as a result of increased fibre/fibre contact with the increased fibre content in the ATFE composites compared to the UTFE composites. Hygrothermal ageing of 65 wt% untreated and alkali treated long and short fibre/epoxy composites (produced by curing at 70oC) showed that long fibre/epoxy composites were more resistant than short fibre/epoxy composites and ATFE composites were more resistant than UTFE composites towards hygrothermal ageing environments as revealed from diffusion coefficients and tensile, flexural, impact, fracture toughness, SEM, TGA, and WAXRD test results. Accelerated ageing of 65 wt% UTLFE and alkali treated long fibre/epoxy (ATLFE) composites (produced by curing at 70oC) showed that ATLFE composites were more resistant than UTLFE composites towards hygrothermal ageing environments as revealed from tensile, flexural, impact, KIc, SEM, TGA, WAXRD, FTIR test results. IFSS obtained with untreated fibre/PLA (UFPLA) and alkali treated fibre/PLA (ATPLA) samples showed that ATPLA samples had greater IFSS than that of UFPLA samples. The increase in the formation of hydrogen bonding and mechanical interlocking of the alkali treated fibres with PLA could be responsible for the increased IFSS for ATPLA system compared to UFPLA system. Long and short fibre reinforced PLA composites were also produced with various processing conditions using compression moulding. A 32 wt% alkali treated long fibre PLA composite produced by film stacking with a TS of 83 MPa, YM of 11 GPa, flexural strength of 143 MPa, flexural modulus of 6.5 GPa, IE of 9 kJ/m2, and KIc of 3 MPa.m1/2 was found to be the best. This could be due to the better bonding of the alkali treated fibres with PLA. The mechanical properties of this composite have been found to be the best compared to the available literature. Hygrothermal and accelerated ageing of 32 wt% untreated and alkali treated long fibre/PLA composites ATPLA composites were more resistant than UFPLA composites towards hygrothermal and accelerated ageing environments as revealed from diffusion coefficients and tensile, flexural, impact, KIc, SEM, differential scanning calorimetry (DSC), WAXRD, and FTIR results. Increased potential hydrogen bond formation and mechanical interlocking of the alkali treated fibres with PLA could be responsible for the increased resistance of the ATPLA composites. Based on the present study, it can be said that the performance of natural fibre composites largely depend on fibre properties (e.g. length and orientation), matrix properties (e.g. cure kinetics and crystallinity), fibre treatment and processing methods, and composite processing methods.

Hemp Fibre

Epoxy Resin

Poly(lactic acid)

Interfacial Shear Strength

Fracture Toughness

Impact Energy

Tensile Properties

Flexural Properties

Accelerated Ageing

Hygrothermal Ageing

Experimental Design

Cure Kinetics

Dynamic Sheet Forming

Long and Short Fibres

Untreated Fibre

Alkali Treated Fibre

Silane Treated Fibre

Acetylated Fibre

Zeta Potential

Differential Scanning Calorimetry

X-ray Diffraction

Infrared Spectra.

Application of diffusion laws to composting: theory, implications, and experimental testing

Chapman, P. D.

January 2008

Understanding the fundamentals of composting science from a pragmatic perspective of necessity involves mixtures of different sizes and types of particles in constantly changing environmental conditions, in particular temperature. The complexity of composting is affected by this environmental variation. With so much "noise" in the system, a question arises as to the need to understand the detail of this complexity as understanding any part of composting with more precision than this level of noise is not likely to result in greater understanding of the system. Yet some compost piles generate offensive odours while others don‟t and science should be able to explain this difference. A driver for this research was greater understanding of potential odour, which is assumed to arise from the anaerobic core of a composting particle. It follows that the size of this anaerobic core could be used as an indicator of odour potential. A first step in this understanding is the need to determine which parts of a composting particle are aerobic, from which the anaerobic proportion can be determined by difference. To this end, this thesis uses a finite volume method of analysis to determine the distribution of oxygen at sub-particle scales. Diffusion laws were used to determine the thickness of each finite volume. The resulting model, called micro-environment analysis, was applied to a composting particle to enable determination of onion ring type volumes of compost (called micro-environments) containing substrates (further subdivided into substrate fractions) whose concentrations could be determined to high precision by the application of first-order degradation kinetics to each of these finite volumes. Determination of the oxygen concentration at a micro-environment's inner boundary was achieved by using the Stępniewski equation. The Stępniewski model was derived originally for application to soil aeration and enables each micro-environment to have its own oxygen uptake rate and diffusion coefficient. This first version of micro-environment analysis was derived from the simpler solution to diffusion laws, based on the assumption of non-diffusible substrate. It was tested against three sets of experimental data with two different substrates: Particle size trials using dog sausage as substrate – where the peak composting rate was successfully predicted, as a function of particle size. Temperature trials using pig faeces and a range of particle sizes – the results showed the potential of micro-environment analysis to identify intriguing temperature effects, in particular, a different temperature effect (Q10) and fraction proportion was indicated for each substrate fraction. Smaller particle sizes, and possibly outward diffusion of substrate confounded a clear experimental signal. Diffusion into a pile trials which showed that the time course of particles deeper in the pile could be predicted by the physics of oxygen distribution. A fully computed prediction would need an added level of computational complexity in micro-environment analysis, arising from there being two intertwined phases, gas phase and substrate (particle) phase. Each phase needs its own micro-environment calculations which can not be done in isolation from each other. Unexplainable parts of the composting time course are likely to be partly explained by the outward diffusion of substrate towards the inward-moving oxygen front. Although the possibility of alternative electron acceptors can not be discounted as a partial explanation. To test the theory, a new experimental reactor was developed using calorimetry. With an absolute sensitivity of 0.132 J hr-1 L-1 and a measurement frequency of 30 minutes, the reactor was able to detect the energy required to humidify the input air, and "see" when composting begins to decline as oxygen is consumed. Optimisation of the aeration pumping frequency using the evidence from the data was strikingly apparent immediately after setting the optimum frequency. Micro-environment analysis provides a framework by which several physical effects can be incorporated into compost science.

micro-environment analysis

diffusion

moving boundary

composting

composting science

calorimetry

reactor

waste treatment

kinetics

rate constant