Global ETD Search

381	Ensaios in vivo e avaliação clínica de bomba de sangue para circulação extracorpórea durante cirurgia cardíaca : spiral pump / In vivo tests and clinical evaluation of centrifugal blood pump for cardiopulmonary bypass during cardiac surgery : spiral pump Silva, Cibele da 22 August 2018 (has links) Orientadores: Cecília Amélia de Carvalho Zavaglia, Aron José Pazin de Andrade / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecânica / Made available in DSpace on 2018-08-22T16:21:16Z (GMT). No. of bitstreams: 1 Silva_Cibeleda_M.pdf: 8042828 bytes, checksum: f69ba730298b110aecb701c7d8d19cf6 (MD5) Previous issue date: 2013 / Resumo: Neste trabalho foram elaborados os métodos e realizados estudos In Vivo e Avaliação Clínica de uma Bomba de Sangue para Circulação Extracorpórea (CEC), durante Cirurgia Cardíaca, denominada Spiral Pump® (SP). Esses estudos foram realizados com o objetivo de avaliar o desempenho e segurança da bomba, finalizando assim o projeto e avaliando a SP como um produto em sua aplicação rotineira durante as cirurgias cardíacas. A SP utiliza, simultaneamente, dois princípios de bombeamento, o centrífugo e o axial, proporcionados por sua geometria cônica, visando aumentar a eficiência de bombeamento sem o aumento dos índices de destruição dos elementos figurados do sangue. O primeiro passo para avaliação In Vivo foi à elaboração de um protocolo para avaliação In Vivo animal e sua submissão a Comissão de Ética para Uso de Animais (CEUA) do Instituto Dante Pazzanese de Cardiologia (IDPC). As avaliações In Vivo consistiram em instalação normal da CEC, em animais suínos, utilizando a SP conectada a um módulo de acionamento e, para fins de comparação, foi realizado o mesmo procedimento com a Bio-Pump®. Foram realizados seis experimentos com a SP, sendo o primeiro considerado piloto, e três experimentos com a Bio-Pump®, com duração de seis horas cada. As observações realizadas pela equipe médica e pela perfusionista demonstraram grande semelhança de funcionamento entre as duas bombas, inclusive em relação a vibrações, ruídos e facilidade de utilização. As bombas foram comparadas em relação à medição do trauma, analisado a partir da evolução da hemoglobina livre no plasma (PFH). Analisando os resultados laboratoriais e de hemólise obtidos com a SP e a Bio-Pump®, pode-se verificar que não existem diferenças significativas entre elas. Com resultados satisfatórios nos ensaios In Vivo, a SP foi aprovada para Avaliação Clínica, realizada de acordo com a legislação vigente. Foi elaborado um Protocolo de Pesquisa Clínica que seguiu a Resolução ANVISA número 39 de 05 de junho de 2008, que estabelece requisitos para realização de pesquisa clínica no Brasil. Esse protocolo foi submetido ao Comitê de Ética em Pesquisa (CEP) do IDPC e ao Conselho Nacional de Ética em Pesquisa (CONEP). A pesquisa clínica foi realizada no Centro Cirúrgico do IDPC em um grupo de quarenta pacientes com indicação de cirurgia cardíaca com CEC, com ou sem cardioplegia, ambos os sexos, adultos, peso corporal mínimo de 50 kg. Durante a CEC, a SP substituiu as convencionais bombas de roletes no circuito de CEC. Todos os pacientes foram entrevistados e autorizaram a realização do estudo, assinando do Termo de Consentimento Livre e Esclarecido. Foram coletados dados comumente monitorados durante uma cirurgia cardíaca e foram realizados, nos períodos de pré e pós CEC, exames de Desidrogenase Láctica (U/L), Plaquetas (mil/mm3), Fibrinogênio (mg/dL), além de monitoração da hemólise através de fita de urianálise. Os procedimentos transcorreram de forma habitual, e os parâmetros mantiveram-se dentro do esperado para o estudo, demonstrando a eficiência e segurança da SP como bomba para circulação extracorpórea durante cirurgia cardíaca / Abstract: Were developed methods and studies In Vivo and clinical evaluation were conducted with a blood pump for cardiopulmonary bypass (CPB), during cardiac surgery, the Spiral Pump® (SP). These studies are designed to assess the performance and safety of SP, finalizing the project and evaluating the SP as a product in its routine application during heart surgeries. The SP uses simultaneously, two principles of pumping, axial and centrifugal, provided by its conical geometry, in order to increase pumping efficiency without increased levels of destruction of the figured elements from blood. First step for In Vivo evaluation was the development of a protocol for In Vivo experiments and its submission to the "Ethic Committee for Animal Use" of Institute Dante Pazzanese of Cardiology (IDPC). The In Vivo assessments consisted of normal installation of the CPB in pigs, using the SP connected to a driver console and, for comparison purposes, the same procedure was performed with Bio-Pump®. Six experiments were performed with SP and three experiments with Bio-Pump®, lasting six hours each. Observations made by medical team showed great similarity between two pumps, including characteristics of vibration and noise. Two pumps were compared concerning to measurement of trauma, through the evolution of plasma free hemoglobin (PFH) and the PFH variation (?PFH). Analyzing laboratory results and hemolysis, from In Vivo assays with SP and the Bio-Pump®, we can observe no significant differences between them. With satisfactory results from In Vivo assays, SP was approved for clinical evaluation, carried out in accordance with current legislation. A Clinical Research Protocol was elaborated following ANVISA (National Health Surveillance Agency) resolution number 39 of 2008, which establishes requirements for conducting clinical research in Brazil. This Protocol was submitted to the Ethic Committee Research of IDPC for review and subsequently to National Council of Ethics in Research. Clinical research was conducted at operating room of IDPC in a group of forty patients under cardiac surgery with CPB, both sexes, adults, minimum of 50 kg of body weight. During CPB, SP replaced conventional CPB roller pump. All patients were interviewed and had authorized this study, signing of consent form. Usually monitored data were collected during a heart surgery and additional examinations were carried out at periods of pre and post CEC such as: Lactic dehydrogenase exams (U/L), platelets (1000/mm3), Fibrinogen (mg/dL), as well as monitoring of hemolysis by urianalysis tape. All procedures were as usual way, and all parameters remained as expected for this study, demonstrating the performance and safety of SP as pump for CPB during heart surgery / Mestrado / Materiais e Processos de Fabricação / Mestra em Engenharia Mecânica Sangue - Circulação extracorpórea Bombas centrífugas Testes in vivo Avaliação funcional Artificial blood circulation Centrifugal pump Assay in vivo Functional circulation
382	Avaliação da citotoxicidade e das atividades analgésica e anti-inflamatória do ácido p-coumárico intercalado em nanopartículas de hidróxidos duplos lamelares / Citotoxicity available and analgesic anti-inflammatory activity of p-coumaric acid intercalated in hydroxide double layered nanoparticle Guilherme Damasio, Viviane Aparecida, 1983- 21 August 2018 (has links) Orientadoresr: Daniele Ribeiro de Araujo, Eneida de Paula / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-21T08:56:23Z (GMT). No. of bitstreams: 1 Guilherme_VivianeAparecida_M.pdf: 3020599 bytes, checksum: ce06e2f6da5344128ba90d18a9b569f2 (MD5) Previous issue date: 2012 / Resumo: Compostos anti-inflamatórios não esteroídais (AINEs) são amplamente utilizados para o combate da inflamação, mas frequentemente acarretam efeitos adversos que impedem a continuação do tratamento. Atualmente, a terapia a base de plantas tem sido bastante empregada a fim de desenvolver novos fármacos que apresentem eficácia analgésica e anti-inflamatória. Nesse contexto, a utilização de sistemas carreadores, como as nanopartículas de hidróxidos duplos lamelares (HDL), visa melhorar propriedades biofarmacêuticas e farmacológicas dos compostos nelas intercalados. Dessa forma, este estudo teve como objetivo caracterizar a interação entre o ácido coumárico (AC), um composto fenólico extraído de plantas, e hidróxido duplo lamelares (HDL), nanopartículas inorgânicas, considerando parâmetros como a cinética de liberação in vitro, a citotoxicidade e as atividades analgésica-antiinflamatória em relação ao fármaco não intercalado. Os ensaios de liberação in vitro foram realizados utilizando uma célula de difusão vertical (com membrana de acetato de celulose, MWCO 1000 Da) e a viabilidade celular avaliada em células 3T3 pelo teste de incorporação do vermelho neutro (VN). Os testes farmacológicos realizados em camundongos swiss foram: a determinação do número de contorções abdominais, teste tail-flick, ensaios de peritonite e teste de formalina para o composto livre e intercalado nas concentrações de 10, 20 ou 30 mg/kg. Os ensaios de liberação in vitro mostraram que a intercalação reduziu significativamente a constante de liberação (Klib) do AC, em relação ao fármaco livre, sendo os valores de Klib de 41,6 ± 1,5 %.h-1 e 32,4 ± 1,5 %.h-1 , para o AC e AC-HDL, respectivamente. A viabilidade celular foi reduzida apenas em concentrações mais elevadas de AC e AC-HDL (10 e 12,5 mM). Porém, mesmo nestas concentrações foi observada porcentagem de viabilidade celular maior que 50%. Por fim, a avaliação farmacológica apontou o AC-HDL como um sistema de liberação com atividades analgésica e anti-inflamatória mais pronunciadas do que as observadas para anti-inflamatórios não esteroidais como a indometacina (p< 0,001). Esses efeitos foram obtidos para teste de tail-flick, quando o AC foi intercalado em HDL aumentou a duração da analgesia (~ 1,7 vezes) quando comparado com o grupo de controle indometacina. Assim, os resultados indicam que o AC intercalado em nanopartículas inorgânicas de HDL apresentou uma taxa de liberação lenta e também induziu uma atividade analgésica - anti-inflamatória, possivelmente, por um mecanismo semelhante ao observado para um anti-inflamatório não esteroidais como a indometacina / Abstract: Non-steroidal anti-inflammatory drugs (NSAIDs) are widely used to avoid inflammation, but these compounds can evoke some side effects, considering these as an important limitation to the treatment. Currently, the plant-based therapy has been widely employed to develop new drugs which have analgesic and anti-inflammatory pharmacological activities. In this context, the use of inorganic nanoparticles is important to improve biopharmaceutical and pharmacological properties of the intercalated molecules. Thus, this study aimed to characterize the interaction between coumaric acid (CA), a phenolic compound extracted from plants, and layered double hydroxide (LDH), inorganic nanoparticles, considering parameters such as the in vitro release kinetics cytotoxicity and analgesic-antiinflammatory activities compared to the non-intercalated-CA. In vitro release tests were performed using a vertical diffusion cell (with cellulose acetate membrane, MWCO 1000 Da) and cell viability assessed in 3T3 cells by the neutral red (NR) uptake test. Pharmacological assays were carried in Swiss mice out in order to determine the number of writhings, tail-flick test, peritonitis test and formalin test for the free compound at three different concentrations (10, 20 or 30 mg/kg). In vitro release tests showed that the release constant (Krel) value was significantly reduced when compared to the non-intercalated CA (Krel values of 41.6 ± 1.5 %.h-1 and 32.4 ± 1.5 %.h-1 for the free CA and CA-HDL, respectively). Cell viability was reduced only at higher concentrations (10 and 12.5 mM) of CA and CA-HDL. However, even at these concentrations the percentage of cell viability was more than 50%. Finally, the pharmacological evaluation reveal the CA-HDL as a drug-release system with more pronounced analgesic-antiinflammatory effects than those observed for classic NSAIDs, such as indomethacin (p <0.001). Those effects were obtained, specially, for tail-flick test, when the treatment with CA-LDH increased the duration of analgesia (~ 1.7 times), when compared with the control group (indomethacin). Thus, the results pointed out that the system CA-LDH showed a slow release rate and also induced in vivo analgesic-anti-inflammatory activities, possibly using similar mechanisms to that observed for classic non-steroidal anti-inflammatory drugs, such as indomethacin / Mestrado / Bioquimica / Mestre em Biologia Funcional e Molecular Ácido p-coumárico Hidróxidos duplos lamelares Liberação in vitro Testes in vivo P-coumaric acid Hydroxide double layered Release in vitro Assay in vivo
383	Développement d'un microscope bi-photon à front d'onde optimisé pour l'imagerie calcique profonde dans le cerveau de souris / Development of a wavefront optimized two-photon microscope for deep calcium imaging in the mouse brain Champelovier, Dorian 01 December 2016 (has links) L'hippocampe, structure cérébrale située dans le lobe temporal, est au coeur de la gestion de nombreuses fonctions cognitives comme l'encodage des informations spatiotemporelles ou encore la mémoire épisodique. A l'heure actuelle, l'hippocampe est étudié via de nombreuses méthodes notamment l'imagerie de fluorescence qui, utilisée sur des animaux éveillés, permet d'accéder au fonctionnement du réseau neuronal. Malgré cela, une sous-région : le gyrus denté a encore un rôle mal élucidé car profondément enfoui dans le cerveau. Son étude permettrait d'apporter de nouveaux éléments sur le fonctionnement de l'hippocampe. De part sa profondeur d’environs 1 mm, son imagerie demeure très difficile. En effet, la diffusion ainsi que les aberrations optiques introduites par les couches successives de matière dégradent fortement la qualité d'imagerie. Pourtant l'optique adaptative, une technique héritée de l'astronomie, pourrait changer cela. En l'intégrant à un microscope bi-photon, il serait possible de compenser les aberrations optiques introduites par le cerveau et ainsi d'arriver à effectuer l'imagerie in vivo du gyrus denté. Durant ma thèse, j'ai donc travaillé à la conception complète tant du point de vue matériel que logiciel d'un microscope bi-photon adapté à l'imagerie in vivo et équipé d'un dispositif de correction de front d'onde. J'ai également développé une méthode d'optimisation prometteuse basée sur l'approche modale de la correction des aberrations optiques couplée à l'utilisation d'une métrique adaptée à l'imagerie non-linéaire en profondeur. Enfin, j'ai pu appliquer cette méthode dans des conditions in vitro et in vivo permettant de montrer son efficacité. / The hippocampus, a cortical structure located in the temporal lobe, is at the heart of the management of many cognitive functions such as spatiotemporal information encoding or episodic memory. At present, the hippocampus is studied through many methods including fluorescence imaging, and used on awake animals, allows access for the study of the neural network function. Despite this, a sub-region: the dentate gyrus has still a poorly elucidated role because it is deeply buried in the brain. His study would bring new elements on the hippocampus functioning. Due to its depth of about 1 mm, its imagery remains very difficult. Indeed, scattering as well as optical aberrations introduced by the successive layers of matter strongly degrade the imaging quality. Yet adaptive optics, a technique inherited from astronomy, could change that. By integrating it into a bi-photon microscope, it would be possible to compensate optical aberrations introduced by the brain and thus to achieve the in vivo imaging of the dentate gyrus. During my PhD, I worked on the complete design both in hardware and software of a bi-photon microscope suitable for in vivo imaging and equipped with a wavefront correction device. I also developed a promising optimization method based on the modal approach of optical aberration correction coupled with the use of a metric adapted to nonlinear depth imaging. Finally, I was able to apply this method in in vitro and in vivo conditions to show its effectiveness. Microscopie non-Linéaire Optique adaptative Imagerie in vivo Réseaux neuronaux Hippocampe Non linear microscopy Adaptive optics In vivo imaging Neural network Hippocampus 530
384	Exploration des effets santé potentiels des riz de Camargue / Exploration of the potential health benefits of Camargue French rice Etoundi, Joseph 13 October 2017 (has links) L'exploration des propriétés santé des riz de Camargue intègre des techniques de pharmacologie in vivo et in vitro, des techniques de fractionnement précises du riz complet et un procédé d'extraction chimique permettant un isolement bio-dirigé des composés bio-actifs.Les résultats du projet de recherche sont confidentiels. / The exploration of health properties of Camargue French rice necessited (a) in vivo and in vitro pharmacological methods,(b) an accurate technology of rice fractionation and (c) the capacity to perform and characterize chemically-extracted bioactive compounds.Results of the research project are confidential. Pharmacologie in vivo et in vitro Riz Fractionnement Extraction chimique Aliment-Santé In vivo and in vitro pharmacology Rice Fractionation Chemical extraction Health-Food
385	Analyses expérimentales et modélisation numérique de l'ostéogenèse au sein d'un implant poreux en titane. / Experimental analysis and numerical model of osteogenesis within a porous titanium scaffold Schmitt, Mary 16 June 2015 (has links) Récemment, dans le domaine de la reconstruction tissulaire, des substituts osseux ou scaffold, ont été utilisés comme alternative aux autogreffes. La complexité de l'ostéogenèse au sein d'une structure poreuse rend son observation expérimentale difficile et par conséquent le développement et l'optimisation des scaffolds sont loin d'être achevés. En complément d'expérimentations animales, il est donc nécessaire de développer des modèles numériques afin de mieux comprendre ce processus. L'objectif de ce travail était de développer un modèle numérique capable de reproduire l'ostéogenèse au sein d'un scaffold poreux en titane, implanté sur la partie non dentée d'une hémimandibule de brebis durant 12 semaines. Cette thèse était donc basée sur une approche à la fois expérimentale et numérique, ce qui constituait l'élément clé du projet. En effet, la plupart des modèles existants n'ont pas été validés expérimentalement ou l'ont été à l'aide d'expérimentations réalisées sur de petits animaux (i.e. lapin, rat) puisque leur taille et leur coût facilitaient le protocole. Néanmoins, contrairement au mouton, leurs processus de régénération osseuse sont très éloignés de celui de l'homme. L'étude a été organisée en trois tâches. Tout d'abord, les expérimentations animales ont été réalisées en collaboration avec le Dr Thomas Schouman (Hôpital de la Pitié-Salpêtrière), et OBL, une PME française fabriquant les scaffolds en titane. Puis, un modèle numérique en éléments finis décrivant l'activité cellulaire au sein du scaffold durant les 12 semaines d'implantation a été conçu. Enfin, des examens histologiques et micro-tomographiques et des tests mécaniques réalisés sur chaque hémimandibule explantée ont permis de: i) quantifier le pouvoir ostéo-conducteur du scaffold en titane et ii) valider le modèle numérique d'ostéogénèse. / Recently, in the tissue reconstruction field, bone substitutes or scaffolds have been used as an alternative to autograft. The complexity of osteogenesis within a scaffold makes its experimental observation difficult and the development and optimization of scaffolds are thus far from being complete. In addition to animal experiments, it is then necessary to develop numerical models to better understand such process. The objective of this work was to develop a numerical model able to reproduce osteogenesis within a porous titanium scaffold implanted on the non-toothed part of a ewe hemimandible for 12 weeks. Therefore, this thesis was based on both an experimental and a numerical approach, which constituted the key element of the project. Indeed, most of the existing models have not been validated or have been validated using experiments performed on small animals (i.e. rabbit, rat) since their size and cost make the protocol easier. Nevertheless, unlike the sheep, their bone regeneration process is quite different from human's. The study was organized into three tasks. First, animal experiments were carried out in collaboration with Dr. Thomas Schouman (Pitié-Salpêtrière hospital) and OBL, a french company manufacturing the porous titanium scaffolds. Then, a numerical model describing cellular activity within the scaffold during the 12 weeks of implantation was developed. Finally, histological and micro-tomographic analyses and mechanical tests performed on each hemimandible have enabled to: i) quantify the osteoconductive potential of the scaffold and ii) validate the numerical results. Titane poreux Ostéogenèse Expérimentation in vivo Modèle numérique Poroélasticité Mandibule Porous titanium Osteogenesis In vivo experimentation Numerical simulation Poroelasticity Mandible
386	Imagerie et contrôle des fonctions de l’adénohypophyse chez la souris éveillée : application à l’étude de l’unité Gonadotrope-Vasculaire / Imaging and control of adenohypophysis functions in the awake mouse : application to the study of the Gonadotroph-Vascular Unit Hoa, Ombeline 28 November 2017 (has links) En dépit de l'abondance de données scientifiques, les mécanismes cellulaires régulant la sécrétion du pic pré-ovulatoire de LH lors du proestrus, restent encore mal compris.Afin de pouvoir étudier les mécanismes sous-jacents à cette sécrétion, j’ai tout d’abord adapté des techniques innovantes d’imagerie fonctionnelle en microscopie de fluorescence in vivo, d’injections de vecteurs viraux dans l’hypophyse, d’optogénétique sur animal éveillé et d’immunohistofluorescence sur organe entier.J’ai ensuite montré la plasticité structurelle des cellules gonadotropes et des péricytes (cellules « murales » péri-vasculaires) lors du proestrus sur des hypophyses transparisées. Ce remodelage a permis de proposer l’existence d’une unité Gonadotrope-Vasculaire (GVU) composée des cellules gonadotropes, des capillaires fenêtrés et des péricytes dans laquelle ces derniers moduleraient le pic pré-ovulatoire de LH.La contraction des péricytes via l’activation de la Channelrhodopsine-2 a permis de mettre en évidence leur rôle dans la potentialisation de la sécrétion de LH chez des animaux libres de leurs mouvements et implantés d’une fibre optique.Des expériences de microscopie à l’aide d’une lentille GRIN implantée au-dessus de l’hypophyse ont permis, chez l’animal éveillé en configuration « tête-fixée », d’étudier le flux sanguin et l’activité calcique de cellules de la GVU exprimant GCaMP6. Cette étude a également été menée sur la face ventrale de l’hypophyse sur souris anesthésiée. Les résultats montrent une activité calcique in vivo augmentée dans les cellules endocrines hypophysaires et diminuée dans les péricytes lors d’une sécrétion de la LH induite par la GnRH. / In spite of abundance of scientific data, cellular mechanisms regulating the secretion of the pre-ovulatory LH surge during proestrus are still poorly understood.In order to study the mechanisms underlying this secretion, I adapted innovative tech-niques for in vivo fluorescence functional imaging, injection of viral vectors in the pitui-tary gland, optogenetics in awake animals and immunohistofluorescence in the whole organ.I then showed structural plasticity of gonadotroph cells and pericytes (perivascular "mural" cells) during proestrus in cleared hypophyses. This suggested the existence of a Gonadotroph-Vascular Unit (GVU) composed of gonadotroph cells, fenestrated capil-laries and pericytes, in which the latter would modulate the pre-ovulatory LH surge.Pericytes contraction via Channelrhodopsine-2 activation permitted to demonstrate their role in the sensitization of LH secretion in freely moving animals implanted with an optical fiber.Finally, blood flow and calcium activity in GVU cells expressing GCaMP6 were performed in awake « head-fixed » animals in which visualization of the pituitary gland was achievable through an implanted GRIN lens. These experiments were also conduct-ed at the ventral side of the pituitary gland in anesthetized mice. Analysis showed that in vivo calcium activity increases in endocrine cells and decreases in pericytes during GnRH-induced LH secretion. Lh Péricytes Microscopie in vivo Hypophyse Imagerie calcique Optogénétique Lh Pericytes In vivo microscopy Pituitary gland Calcium imaging Optogenetic
387	Le syndrome de Rendu-Osler-Weber : aspects génétiques, moléculaires et épidémiologiques / Rendu-Osler-Weber syndrome : genetic, molecular and epidemiological aspects Alaa El Din, Ferdos 12 June 2015 (has links) La télangiectasie hémorragique héréditaire (HHT) est une maladie rare (1/10.000). Son incidence est plus élevée (pouvant atteindre 1/1000) dans certaines zones géographiques dont la région Poitou-Charentes. Cette maladie autosomique dominante est causée par des mutations d'un des trois gènes identifiés ENG, ACVRL1 et SMAD4 codant pour des protéines de la voie BMP spécifiquement exprimés dans les cellules endothéliales. Le nombre croissant de mutations détectées chez les patients et l'expressivité variable de certaines mutations nous a ammené à déterminer les conséquences de mutations afin d'établir une corrélation génotype/phénotype. Cette corrélation est importante pour le conseil génétique et évidemment le diagnostic prénatal. Dans ce contexte, nous avons étudié aux niveaux cellulaire et moléculaire les effets de plusieurs mutations. L'effet délétère de ces mutations sur la protéine et/ou l'épissage de l'ARN a été évalué. Nous avons montré que sur les 23 mutations d'ACVRL1 : 1) 18 mutations faux-sens affectent la fonctionnalité de la protéine en réponse à BMP9 et 3 mutations sont de simples polymorphismes, 2) la mutation exonique c.733A>G (p.Ile245Val) affecte l'épissage de l'exon 6, 3) La mutation c.1048+5G>A de l'intron 7 en dehors du site consensus induit un épissage aberrant de l'exon 7. En ce qui concerne l'ENG, nous avons analysé 4 mutations et nous avons montré que la mutation c.1088G>A (p.Cys363Tyr) a un impact sur l'activité du récepteur et que les mutations c.1134G>A (p.Ala378Ala) et c.1060C>T (p.Leu364Leu) altèrent l'épissage de l'exon 8. Ce travail montre l'importance de l'étude approfondie de toute nouvelle mutation par des études in silico, in vitro et in cellulo à différents niveaux cellulaires. Des études in vivo ultérieures peuvent compléter et appuyer la stratégie expérimentale que nous avons suivie. / Hereditary hemorrhagic telangiectasia (HHT) is a rare disease (1/10.000). Its incidence is higher in certain geographic areas including the Poitou-Charentes region (1/1000). This autosomal dominant disease is caused by mutations in one of three identified genes ENG, ACVRL1 and SMAD4 encoding BMP pathway proteins specially expressed in endothelial cells. The increasing number of mutations detected in patients and the variable expressivity of certain mutations has taken us to determine the consequences of mutations to establish a genotype/phenotype correlation. This correlation is important for genetic counseling and obviously for prenatal diagnosis. In this context, we investigated the effects of several mutations at the cellular and molecular levels. The deleterious impact of these mutations on the protein and/or RNA splicing was evaluated. We have shown that for the 23 mutations of ACVRL1: 1) 18 missense mutations affect the functionality of the protein in response to BMP9 and 3 are polymorphisms, 2) exonic mutation c.733A>G (p. Ile245Val) affects the splicing of the exon 6, 3) mutation c.1048+5G>A in intron 7 off the consensus site induces an aberrant splicing of exon 7. Concerning the ENG, we analyzed 4 mutations and we showed that the mutation c.1088G> A (p.Cys363Tyr) has an impact on the activity of the receptor and that the mutations c.1134G> A (p.Ala378Ala) and c.1060C> T (p.Leu364Leu) inhibit the splicing of exon 8. This work shows the importance of the comprehensive study of any new mutation by in silico, in vitro and in cellulo studies at different cellular levels. The in vivo studies can further complement and support the experimental strategy that we followed. Mutations Fonctionnalité Épissage In silico In cellulo In vivo Hereditary hemorrhagic telangiectasia Mutations Functionality Splicing In silico In cellulo In vivo 616.148
388	Soft hybrid materials for cell growth and proliferation / Matériaux souples hybrides pour la croissance et la prolifération cellulaire Fiorini, Federica 28 September 2016 (has links) Le travail de recherche consiste à développer des hydrogels pour la prolifération et la migration cellulaires in vitro et in vivo en trois dimensions (3D). Des hydrogels à base de polyamidoamines avec d'intéressantes propriétés physicochimiques et une remarquable biocompatibilité ont été développés pour différentes applications biomédicales. Un hydrogel avec des sondes luminescentes d’iridium(III) incorporés de manière covalente, a été conçue comme plate-forme 3D de culture cellulaire, pour la visualisation directe des cellules vivantes en temps réel, et a démontré être un puissant outil de bioimagerie in vitro. En outre, un hydrogel nanocomposite, capable d'induire la chimiotaxie des cellules souches, a été développé et testé in vivo, en confirmant son potentiel en tant qu’implant pour l’ingénierie tissulaire. Finalement, un hydrogel injectable et biodégradable a été réalisé comme un nouvel agent pour la dissection sous-muqueuse endoscopique des lésions néoplasiques digestives. / The research work focuses on the development of hydrogels to investigate three-dimensional (3D) cell proliferation and migration in vitro and in vivo. Polyamidoamines-based hydrogels with interesting physicochemical properties and high biocompatibility have been developed for different biomedical applications. An hydrogel with covalently incorporated iridium(III) fluorescent probes, has been conceived as a 3D cell culture platform for the direct visualization of living cells in real-time, demonstrating to be a powerful tool for in vitro bio-imaging. Moreover, a nanocomposite hydrogel, able to induce chemotaxis of stem cells, was developed andtested in vivo, confirming its potential as a tissue engineering implant. Finally, an injectable biodegradable nanocomposite hydrogel was realized as a novel agent for endoscopic submucosal dissection of large neoplastic lesions of the gastro-intestinal tract. Hydrogel Biocompatibilité Bioimagerie Nanocomposites Implant in vivo Applications cliniques Hydrogel Biocompatibility Bioimaging Nanocomposites In vivo implant Clinical applications 541.34
389	Development of copolymer based nanocarriers for imaging and therapy / Développement de nanovéhicules à base de copolymères pour l'imagerie et la thérapie Arranja, Alexandra 20 November 2015 (has links) Le développement de nanomédicaments pour l'imagerie et le traitement du cancer a suscité un intérêt croissant à cause de leur grand potentiel. En particulier les vecteurs à base de polymères et de micelles polymères sont très intéressants, car ils peuvent être conçus avec des fonctionnalités adaptées aux besoins.Nous avons utilisé des copolymères amphiphiles triséquencés pour développer de nouveaux nanovecteurs moléculaires (unimères) et supramoléculaires (micelles stabilisées par photo- réticulation). Nous les avons fonctionnalisés avec un marqueur fluorescent ou radioactif pour permettre leur imagerie in vitro et in vivo. Les interactions in vitro et in vivo ont été étudiées pour comprendre l'influence des propriétés des copolymères sur les interactions biologiques.Cette thèse présente le développement complet de nanovecteurs depuis les premières étapes de la caractérisation physico-chimique fondamentale jusqu'à l'évaluation de leur intérêt pour différentes applications cliniques. / The interest in developing new nanocarriers for imaging and therapy of cancer has been growing due to their high potential. Particularly nanocarriers based on polymers and polymeric micelles are very interesting because they can be tailor-made with certain functionalities to meet our needs.We have used amphiphilic triblock copolymers to develop new molecular (unimers) and supramolecular (micelles stabilized by photo cross-linking) nanocarriers. The carriers were then functionalized with fluorescent or radioactive markers to enable their in vitro and in vivo imaging. The in vitro and in vivo interactions were then studied to understand the influence of the copolymers properties on the biological interactions.This thesis presents the complete development of the nanocarriers from the early stages of fundamental physicochemical characterization up to the evaluation of their interest for different clinical applications Pluronic Unimères Micelles stabilisées Radiomarquage Marquage fluorescent In vitro In vivo Pluronic Unimers Stabilized micelles Radiolabeling Fluorescent labeling In vitro In vivo 541.3 620.5
390	Involvement of dorsomedial prefrontal projections pathways to the basolateral amygdala and ventrolateral periaqueductal grey matter in conditioned fear expression / Implication des voies de projection du cortex préfrontal dorso-médian vers l’amygdale et la substance grise periaqueducale dans l’expression des réponses conditionnées de peur Chaudun, Fabrice 27 September 2016 (has links) A l’heure actuelle, une des principales questions des neurosciences comportementales est de comprendre les bases neurales des apprentissages et de comprendre comment des modifications au sein de circuits neuronaux spécifiques contrôlent les changements comportementaux liés à une expérience particulière. De nombreuses études ont récemment mis en évidence le rôle important des circuits neuronaux dans les phénomènes d’apprentissages associatifs, et notamment dans la régulation des comportements de peur. Cependant, leurs caractéristiques anatomiques et fonctionnelles restent encore largement inconnues. L’une des principales fonctions des circuits neuronaux est leur capacité à adapter le comportement en fonction de la nature des informations internes ou environnementales disponibles. Malgré de nombreux progrès réalisés sur la compréhension des substrats et mécanismes neuronaux sous tendant le conditionnement de peur au sein de structures telles que l'amygdale (AMG), le cortex préfrontal dorso-médian (dmPFC) et la substance grise periaqueducale (PAG), les mécanismes neuronaux gouvernant les interactions inter-structure ainsi que le contrôle local de ces différents circuits neuronaux restent encore largement inconnus. Dans ce contexte, ce travail de thèse a eupour objectifs principaux, d’évaluer la contribution des voies de projections dmPFC-BLA et dmPFC-vlPAG dans la régulation des comportements de peur, et, d’identifier les mécanismes neuronaux sous-jacent contrôlant l'expression de la peur. Afin de répondre à ces questions, nous avons utilisé conjointement des enregistrements électrophysiologiques unitaires et de potentiels de champs couplés à des approches optogénétiques au cours de l’expression de la peur conditionnée. Nous avons pu mettre en évidence un nouveau mécanisme neuronal basé sur une oscillation cérébrale à 4 Hz entre le dmPFC et le BLA impliqué dans la synchronisation neuronale des neurones de ces deux structures nécessaire à l’expression de la peur. Nous avons aussi démontré que le dmPFC via ses projections sur le vlPAG contrôle directement l’expression de la peur. Ensemble, nos données contribuent à une meilleure compréhension des circuits neuronaux ainsi que des mécanismes du comportement de peur qui dans le futur pourront aider à une amélioration thérapeutique des troubles anxieux. / A central endeavour of modern neuroscience is to understand the neural basis of learningand how the selection of dedicated circuits modulates experience-dependent changes inbehaviour. Decades of research allowed a global understanding of the computations occurring inhard-wired networks during associative learning, in particular fear behaviour. However, brainfunctions are not only derived from hard-wired circuits, but also depend on modulation of circuitfunction. It is therefore realistic to consider that brain areas contain multiple potential circuitswhich selection is based on environmental context and internal state. Whereas the role of entirebrain areas such as the amygdala (AMG), the dorsal medial prefrontal cortex (dmPFC) or theperiaqueductal grey matter (PAG) in fear behaviour is reasonably well understood at themolecular and synaptic levels, there is a big gap in our knowledge of how fear behaviour iscontrolled at the level of defined circuits within these brain areas. More particularly, whereas thedmPFC densely project to both the basolateral amygdala (BLA) and PAG, the contributions ofthese two projections pathway during fear behaviour are largely unknown. Beside theinvolvement of these neuronal pathways in the transmission of fear related-information, theneuronal mechanisms involved in the encoding of fear behaviour within these pathways are alsovirtually unknown. In this context, the present thesis work had two main objectives. First,evaluate the contribution of the dmPFC-BLA and dmPFC-vlPAG pathways in the regulation offear behaviour, and second, identify the neuronal mechanisms controlling fear expression in thesecircuits. To achieve these goals, we used a combination of single unit and local field potentialrecordings coupled to optogenetic approaches in behaving animals submitted to a discriminativefear conditioning paradigm. Our results first, identified a novel neuronal mechanism of fear expression based on the development of 4 H oscillations within dmPFC-BLA circuits thatdetermine the dynamics of freezing behaviour and allows the long-range synchronization offiring activities to drive fear behaviour. Secondly, our results identified the precise circuitry at thelevel of the dmPFC and vlPAG that causally regulate fear behaviour. Together these data provideimportant insights into the neuronal circuits and mechanisms of fear behaviour. Ultimately thesefindings will eventually lead to a refinement of actual therapeutic strategies for pathological conditions such as anxiety disorders. Electrophysiologie unitaire in vivo Comportement auditif de peur Optogénétique Oscillation cérébrale In vivo single unit recording Auditory fear conditioning behaviour Optogenetic Cerebral oscillation

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