Sökning: "medical polymers"
Visar resultat 26 - 30 av 95 avhandlingar innehållade orden medical polymers.
26. In vivo and in vitro studies of polyetheretherketone: bone formation, inflammatory response and biofilm formation
Sammanfattning : In prosthetic dentistry, restorative materials are used to replace missing teeth and tissues, so as to maintain oral functionalities and comfort for the patient. Depending on the clinical problem, metals, ceramics or polymers, are used both in dentistry and orthopedics. LÄS MER
27. Cellulose-derived conductive nanofibrous materials for energy storage and tissue engineering applications
Sammanfattning : There is no doubt that nanofibrous materials are among the most opportune materials used in advanced applications nowadays. To supply anticipated high demand for these materials sustainable resources such as plant derived polymers should be explored. LÄS MER
28. Flexible and transparent biological electric power sources based on nanostructured electrodes
Sammanfattning : Portabel medicinteknisk utrustning framträder alltmer som en av de mest lovande metoderna för vårdövervakning och personlig behandling. Förebyggande vård och hantering av kroniska sjukdomar är resurskrävande och en överföring av det konventionella sjukhuscentrerade sjukvårdssystemet till ett individcentrerat vårdsystem skulle vara samhällsekonomiskt gynnsam. LÄS MER
29. Moleculary imprinted micro- and nanoparticles for cancer associated glycan motifs
Sammanfattning : Sialic acids are an important family of monosaccharides that are typically found as terminal moieties of glycans. Aberrant sialylation has been proven to correlate with various diseases including cancer. Glycosylation analysis is complex due to high diversityof the glycan isomers and their low abundance. LÄS MER
30. Organic electronics for precise delivery of neurotransmitters
Sammanfattning : Organic electronic materials, that is, carbon-based compounds that conduct electricity, have emerged as candidates for improving the interface between conventional electronics and biological systems. The softness of these materials matches the elasticity of biological tissue better than conventional electronic conductors, allowing better contact to tissue, and the mixed ionic-electronic conductivity can improve the signal transduction between electronic devices and electrically excitable cells. LÄS MER