Publikationen 31 bis 40 von 69 EinträgenRother, S.; Samsonov, S.A.; Hempel, U.; Vogel, S.; Moeller, S.; Blaszkiewicz, J.; Köhling, S.; Schnabelrauch, M.; Rademann, J.; Pisabarro, M.T.; Hintze, V.; Scharnweber, D.: Sulfated Hyaluronan Alters the Interaction Profile of TIMP-3 with the Endocytic Receptor LRP-1 Clusters II and IV and Increases the Extracellular TIMP-3 Level of Human Bone Marrow Stromal Cells. In: Biomacromolecules 17 (2016), Nr. 10Picke, A.-K.; Salbach-Hirsch, J.; Hintze, V.; Rother, S.; Rauner, M.; Kascholke, C.; Möller, S.; Bernhardt, R.; Rammelt, S.; Pisabarro, M.T.; Ruiz-Gomez, G.; Schnabelrauch, M.; Schulz-Siegmund, M.; Hacker, M.C.; Scharnweber, D.; Hofbauer, C.; Hofbauer, L.C.: Sulfated hyaluronan improves bone regeneration of diabetic rats by binding sclerostin and enhancing osteoblast function. In: Biomaterials 96 (2016)de Barros, R.R.M.; Novaes, A.B.; Korn, P.; Queiroz, A.; de Almeida, A.L.G.; Hintze, V.; Scharnweber, D.; Bierbaum, S.; Stadlinger, B.: Bone Formation in a Local Defect around Dental Implants Coated with Extracellular Matrix Components. In: Clinical Implant Dentistry and Related Research 17 (2015), Nr. 4Rother, S.; Salbach-Hirsch, J.; Moeller, S.; Seemann, T.; Schnabelrauch, M.; Hofbauer, L.C.; Hintze, V.; Scharnweber, D.: Bioinspired Collagen/Glycosaminoglycan-Based Cellular Microenvironments for Tuning Osteoclastogenesis. In: ACS Applied Materials and Interfaces 7 (2015), Nr. 42Salbach-Hirsch, J.; Samsonov, S.A.; Hintze, V.; Hofbauer, C.; Picke, A.-K.; Rauner, M.; Gehrcke, J.-P.; Moeller, S.; Schnabelrauch, M.; Scharnweber, D.; Pisabarro, M.T.; Hofbauer, L.C.: Structural and functional insights into sclerostin-glycosaminoglycan interactions in bone. In: Biomaterials 67 (2015)Scharnweber, D.; Hübner, L.; Rother, S.; Hempel, U.; Anderegg, U.; Samsonov, S.A.; Pisabarro, M.T.; Hofbauer, L.; Schnabelrauch, M.; Franz, S.; Simon, J.; Hintze, V.: Glycosaminoglycan derivatives: promising candidates for the design of functional biomaterials. In: Journal of Materials Science: Materials in Medicine 26 (2015), Nr. 9Hempel, U.; Matthäus, C.; Preissler, C.; Möller, S.; Hintze, V.; Dieter, P.: Artificial matrices with high-sulfated glycosaminoglycans and collagen are anti-inflammatory and pro-osteogenic for human mesenchymal stromal cells. In: Journal of Cellular Biochemistry 115 (2014), Nr. 9Hintze, V.; Miron, A.; Möller, S.; Schnabelrauch, M.; Heinemann, S.; Worch, H.; Scharnweber, D.: Artificial extracellular matrices of collagen and sulphated hyaluronan enhance the differentiation of human mesenchymal stem cells in the presence of dexamethasone. In: Journal of Tissue Engineering and Regenerative Medicine 8 (2014), Nr. 4Hempel, U.; Preissler, C.; Vogel, S.; Möller, S.; Hintze, V.; Becher, J.; Schnabelrauch, M.; Rauner, M.; Hofbauer, L.C.; Dieter, P.: Artificial extracellular matrices with oversulfated glycosaminoglycan derivatives promote the differentiation of osteoblast-precursor cells and premature osteoblasts. In: BioMed Research International 2014 (2014)Miron, A.; Rother, S.; Huebner, L.; Hempel, U.; Käppler, I.; Moeller, S.; Schnabelrauch, M.; Scharnweber, D.; Hintze, V.: Sulfated hyaluronan influences the formation of artificial extracellular matrices and the adhesion of osteogenic cells. In: Macromolecular Bioscience 14 (2014), Nr. 12Zurück 1 2 3 4 5 6 7 WeiterDiese Informationen werden vom Vorgängersystem FIS bereitgestellt.