969 resultados para BONE MARROW MONONUCLEAR CELLS
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La rétinopathie induite par l’oxygène (RIO) est un modèle animal semblable aux rétinopathies vue chez l’homme. Dans ce modèle, une destruction des microvaisseaux rétiniens est suivie d’une néovascularisation pathologique qui chez l’homme peut mener à un détachement de la rétine et subséquemment une perte de vision. Afin de remédier à cette revascularisation anarchique, un traitement de cellules souches (hématopoïétiques et mésenchymateuses) a été effectué chez des souris soumises à ce modèle. Les cellules injectées ont pu migrer à la rétine et induire une revascularisation saine (surtout les cellules souches mésenchymateuses). L’injection du milieu de culture de ces cellules induit aussi une revascularisation semblable à celle vue chez les souris traitées avec les cellules indiquant que l’effet thérapeutique des cellules semble être accompli par l’entremise de facteurs paracrines. Ces résultats suggèrent que ces cellules peuvent jouer un rôle au niveau de l’angiogénèse et indiquent un potentiel thérapeutique pour les rétinopathies.
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Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal
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L’irradiation (IR) est utilisée dans le traitement de plusieurs cancers et désordres hématologiques, en particulier dans les protocoles de conditionnement précédents les transplantations de moelle osseuse. L’emploi de doses réduites d’IR semble favoriser le succès de la prise de greffe. Cette observation soulève un point de plus en plus discuté dans la littérature, soit l’importance de l’intégrité du microenvironnement pour la transplantation et le bon fonctionnement de l’hématopoïèse. L’IR induit la sénescence des cellules stromales de la moelle osseuse in vitro. Ce mécanisme de défense cellulaire entraînant un arrêt de prolifération permanent est également observé in vivo dans différents systèmes, mais n’a pas encore été étudié dans le contexte de la niche hématopoïétique. Les travaux présentés dans cette thèse ont pour objectif de déterminer si l’IR induit la sénescence des cellules stromales de la moelle osseuse et si une telle induction altère les fonctions hématopoïétiques. Nos résultats ont permis de démontrer pour la première fois qu’une IR corporelle totale induit effectivement la sénescence des cellules stromales de la moelle osseuse. En outre, cette altération du microenvironnement affecte la lymphopoïèse B de façon Ink4a/Arf-dépendante (1er article). De plus, les modifications systémiques qui résultent de l’IR compromettent l’homéostasie osseuse en augmentant la résorption de l’os, sans toutefois diminuer la formation de celui-ci (2e article). Ces données nous permettent de mieux comprendre les effets de la sénescence des cellules stromales de la moelle osseuse sur les fonctions hématopoïétiques. Par ailleurs, elles suggèrent que l’emploi de drogues et/ou de procédés n’induisant pas la sénescence des cellules stromales de l’os offrirait un meilleur pronostic à long terme pour les patients.
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Satellite cells, originating in the embryonic dermamyotome, reside beneath the myofibre of mature adult skeletal muscle and constitute the tissue-specific stem cell population. Recent advances following the identification of markers for these cells (including Pax7, Myf5, c-Met and CD34) (CD, cluster of differentiation; c-Met, mesenchymal epithelial transition factor) have led to a greater understanding of the role played by satellite cells in the regeneration of new skeletal muscle during growth and following injury. In response to muscle damage, satellite cells harbour the ability both to form myogenic precursors and to self-renew to repopulate the stem cell niche following myofibre damage. More recently, other stem cell populations including bone marrow stem cells, skeletal muscle side population cells and mesoangioblasts have also been shown to have myogenic potential in culture, and to be able to form skeletal muscle myofibres in vivo and engraft into the satellite cell niche. These cell types, along with satellite cells, have shown potential when used as a therapy for skeletal muscle wasting disorders where the intrinsic stem cell population is genetically unable to repair non-functioning muscle tissue. Accurate understanding of the mechanisms controlling satellite cell lineage progression and self-renewal as well as the recruitment of other stem cell types towards the myogenic lineage is crucial if we are to exploit the power of these cells in combating myopathic conditions. Here we highlight the origin, molecular regulation and therapeutic potential of all the major cell types capable of undergoing myogenic differentiation and discuss their potential therapeutic application.
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Regenerative cardiovascular medicine is the frontline of 21st-century health care. Cell therapy trials using bone marrow progenitor cells documented that the approach is feasible, safe and potentially beneficial in patients with ischemic disease. However, cardiovascular prevention and rehabilitation strategies should aim to conserve the pristine healing capacity of a healthy organism as well as reactivate it under disease conditions. This requires an increased understanding of stem cell microenvironment and trafficking mechanisms. Engagement and disengagement of stem cells of the osteoblastic niche is a dynamic process, finely tuned to allow low amounts of cells move out of the bone marrow and into the circulation on a regular basis. The balance is altered under stress situations, like tissue injury or ischemia, leading to remarkably increased cell egression. Individual populations of circulating progenitor cells could give rise to mature tissue cells (e.g. endothelial cells or cardiomyocytes), while the majority may differentiate to leukocytes, affecting the environment of homing sites in a paracrine way, e.g. promoting endothelial survival, proliferation and function, as well as attenuating or enhancing inflammation. This review focuses on the dynamics of the stem cell niche in healthy and disease conditions and on therapeutic means to direct stem cell/progenitor cell mobilization and recruitment into improved tissue repair.
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O sangue do cordão umbilical humano tem sido crescentemente utilizado como fonte de células-tronco. Os modelos experimentais de células-tronco da medula óssea, em cães, têm propiciado informações importantes para transplantes medulares em humanos. Vários trabalhos citam a influência do tipo de parto nas características do sangue do cordão umbilical (SCU) humano. Entretanto, não existem relatos sobre a colheita do sangue do cordão umbilical de cães. O objetivo deste ensaio é avaliar a influência do tipo de parto na hematologia do cordão umbilical de cães. No presente protocolo experimental, foram estudados 54 fetos de cães, ao final da vida intra-uterina, provenientes de parto normal (n=24) e cesariana (n=30). A colheita de sangue do cordão umbilical foi realizada com seringa de cinco mL contendo solução anticoagulante EDTA (1mg/1mL sangue). em seguida, a contagem global de hemácias, leucócitos, plaquetas, a determinação da concentração de hemoglobina, taxa de hematócrito, os índices eritrocitários foram realizados no contador automático de células. A contagem diferencial de leucócitos foi determinada em esfregaços de SCU corados com May-Grunwald-Giemsa (MGG). Com relação ao eritrograma e ao plaquetograma, não houve diferença significativa entre as amostras obtidas em cesarianas e partos normais. Os valores do leucograma do SCU colhido em partos normais foram superiores àqueles obtidos em cesarianas (P<0,05). Portanto, o tipo de parto influencia os valores hematológicos do cordão umbilical de cães.
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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The regeneration of bone defects with loss of substance remains as a therapeutic challenge in the medical field. There are basically four types of grafts: autologous, allogenic, xenogenic and isogenic. It is a consensus that autologous bone is the most suitable material for this purpose, but there are limitations to its use, especially the insufficient amount in the donor. Surveys show that the components of the extracellular matrix (ECM) are generally conserved between different species and are well tolerated even in xenogenic recipient. Thus, several studies have been conducted in the search for a replacement for autogenous bone scaffold using the technique of decellularization. To obtain these scaffolds, tissue must undergo a process of cell removal that causes minimal adverse effects on the composition, biological activity and mechanical integrity of the remaining extracellular matrix. There is not, however, a conformity among researchers about the best protocol for decellularization, since each of these treatments interfere differently in biochemical composition, ultrastructure and mechanical properties of the extracellular matrix, affecting the type of immune response to the material. Further down the arsenal of research involving decellularization bone tissue represents another obstacle to the arrival of a consensus protocol. The present study aimed to evaluate the influence of decellularization methods in the production of biological scaffolds from skeletal organs of mice, for their use for grafting. This was a laboratory study, sequenced in two distinct stages. In the first phase 12 mice hemi-calvariae were evaluated, divided into three groups (n = 4) and submitted to three different decellularization protocols (SDS [group I], trypsin [Group II], Triton X-100 [Group III]). We tried to identify the one that promotes most efficient cell removal, simultaneously to the best structural preservation of the bone extracellular matrix. Therefore, we performed quantitative analysis of the number of remaining cells and descriptive analysis of the scaffolds, made possible by microscopy. In the second stage, a study was conducted to evaluate the in vitro adhesion of mice bone marrow mesenchymal cells, cultured on these scaffolds, previously decellularized. Through manual counting of cells on scaffolds there was a complete cell removal in Group II, Group I showed a practically complete cell removal, and Group III displayed cell remains. The findings allowed us to observe a significant difference only between Groups II and III (p = 0.042). Better maintenance of the collagen structure was obtained with Triton X-100, whereas the decellularization with Trypsin was responsible for the major structural changes in the scaffolds. After culture, the adhesion of mesenchymal cells was only observed in specimens deccelularized with Trypsin. Due to the potential for total removal of cells and the ability to allow adherence of these, the protocol based on the use of Trypsin (Group II) was considered the most suitable for use in future experiments involving bone grafting decellularized scaffolds
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A terapia celular poderia ser conceituada de forma ampla e genérica como o emprego de células para tratamento de doenças. Apesar de um número não tão expressivo de relatos tendo o pulmão como objeto de estudo na terapia celular em pacientes humanos, há dados consistentes da literatura, tanto em humanos, quanto em modelos animais,que evidenciam a migração de células-tronco da medula óssea para o pulmão,em diferentes situações experimentais. Esses resultados forneceram o embasamento experimental para o emprego de células-tronco na regeneração do tecido pulmonar em modelos animais. em nosso laboratório, vários projetos de pesquisa têm sido conduzidos com a finalidade de avaliar a resposta pulmonar (morfológica e funcional) ao tratamento com células-tronco adultas em camundongos com doença pulmonar obstrutiva crônica (DPOC) induzida experimentalmente. Os resultados obtidos, aliados àqueles de outros grupos de pesquisa, permitem aventar a possibilidade de aplicação, a curto prazo, da terapia celular em pacientes com DPOC. em outra patologia pulmonar, fibrose cística (FC), cuja abordagem terapêutica com células-tronco apresenta aspectos particulares em relação às patologias pulmonares crônico-degenerativas, há avanços promissores e potencialmente interessantes; no entanto, os resultados podem ser considerados incipientes e deve-se assinalar, portanto, que a associação da terapia gênica e celular apresenta-se como uma alternativa possível, mas ainda muito distante quanto à sua consolidação e incorporação como opção terapêutica segura e eficaz em FC. Por outro lado, tendo por embasamento os resultados obtidos em modelos experimentais, é possível postular que a terapia celular com células-tronco hematopoéticas (ou de outras fontes) encerra perspectivas consistentes de aplicação em diversas outras patologias pulmonares humanas, especialmente em DPOC.
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Pós-graduação em Odontologia - FOAR
