Search for dissertations about: "hydrogel medical"
Showing result 1 - 5 of 39 swedish dissertations containing the words hydrogel medical.
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1. Microfluidic Compartmentalization for Smart Materials, Medical Diagnostics and Cell Therapy
Abstract : The organisation of fluids in small compartments is ubiquitous in nature, such as in the cellular composition of all life. This work explores several engineering avenues where microscale fluid compartmentalization can bring novel material properties or novel functionality in life sciences or medicine. READ MORE
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2. Antibacterial elastomeric materials for biomedical applications
Abstract : An ageing population in combination with scientific and clinical advancements have led to a steady increase in the use of medical devices. Elastomeric biomaterials – materials displaying rubber-like mechanics – have found widespread applicability in the production of both short- and long-term medical devices. READ MORE
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3. Advanced polymeric scaffolds for functional materials in biomedical applications
Abstract : Advancements in the biomedical field are driven by the design of novel materials with controlled physical and bio-interactive properties. To develop such materials, researchers rely on the use of highly efficient reactions for the assembly of advanced polymeric scaffolds that meet the demands of a functional biomaterial. READ MORE
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4. Neural Stem and Progenitor Cells as a Tool for Tissue Regeneration
Abstract : Neural stem and progenitor cells (NSPC) can differentiate to neurons and glial cells. NSPC are easily propagated in vitro and are therefore an attractive tool for tissue regeneration. Traumatic brain injury (TBI) is a common cause for death and disabilities. A fundamental problem following TBI is tissue loss. READ MORE
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5. Mechanical optimization of orthopaedic bone screw constructs
Abstract : Orthopaedic screw implants are crucial in surgical procedures for bone structures, with a longstanding issue being screw loosening. Improving screw stability requires an enhanced understanding of the bone-implant interactions and associated failure mechanisms. This knowledge can be used to optimize screw designs. READ MORE