Search for dissertations about: "cell titanium adhesion"
Showing result 1 - 5 of 20 swedish dissertations containing the words cell titanium adhesion.
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1. Interactions between whole blood and TiO₂ surfaces with focus on adhesion and activation of PMN granulocytes
Abstract : Foreign materials come in contact with the human body more and more frequently. The surgical procedure of inserting an implant into the body will cause bleeding, evoke an inflammatory response and initiate a healing process, ultimately leading to acceptance or rejection of the material. READ MORE
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2. Regenerative effects of mesenchymal stem cell-derived exosomes
Abstract : Mesenchymal stem cells (MSCs) play pivotal roles for bone regeneration by virtue of their osteogenic differentiation ability and immunomodulatory capacity. Recently, secretion of exosomes/extracellular vesicles (EVs) has been suggested as a new mechanism of MSC-based therapy. READ MORE
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3. A methodological platform to study molecular biocompatibility of biomaterials. Experimental and clinical studies
Abstract : The aim of this project was to develop a methodological platform in order to advance our scientific understanding of the mechanisms of osseointegration. Screw-shaped, titanium implants, with different surface properties, were inserted in the rat tibia, or incubated in mono- or co-culture of human monocytes and MSCs. READ MORE
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4. The synergistic role of hierarchical macro- and mesoporous implant surface and microscopic view of enhanced osseointegration
Abstract : The trend for designing of a titanium implant explored using different chemical compositions and crystallinity materials until people realized that the implant surface character was another important factor affecting the rate and extent of osseointegartion. Titanium received a macroporous titania surface layer by anodization, which contains open pores with average pore diameter around 5μm. READ MORE
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5. Protein and Cell Interactions with Nanostructured Surfaces
Abstract : A great challenge of today’s implant development is to construct a surface that promotes tissue integration and avoids bacterial colonization. To avoid implant related infections, many argue that a surface promoting strong cell adhesion and tissue integration in favour for bacterial adhesion would solve the problem, the so-called race for the surface concept. READ MORE