S. Amorim
www.3bs.uminho.pt
0000-0002-6150-9412
Biomaterials Biodegradables and Biomimetics
52 papers found
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Fucoidan-Coated Silica Nanoparticles Promote the Differentiation of Human Mesenchymal Stem Cells into the Osteogenic Lineage
3d Model of the Glioblastoma Microenvironment: Impact of Hyaluronic Acid Molecular Weight on the Invasive Character of Glioma Cells
Forecast cancer: the importance of biomimetic 3D in vitro models in cancer drug testing/discovery and therapy
Hyaluronan-based hydrogels as modulators of cellular behaviour
Evaluation of osteogenic potential of sponge-derived biosilica for bone tissue engineering applications
Ácido hialurónico de baixo peso molecular induz o fenótipo invasivo “Hummingbird” em células cancerígenas gástricas
Hyaluronic acid hydrogels reinforced with laser spun bioactive glass micro- and nanofibres doped with lithium
Bioactivity of Biosilica Obtained From North Atlantic Deep-Sea Sponges
Fibronectin-Functionalized Fibrous Meshes as a Substrate to Support Cultures of Thymic Epithelial Cells
Hyaluronic Acid of Low Molecular Weight Triggers the Invasive “Hummingbird” Phenotype on Gastric Cancer Cells
Multilayer Platform to Model the Bioactivity of Hyaluronic Acid in Gastric Cancer
Tubular Fibrous Scaffolds Functionalized with Tropoelastin as a Small-Diameter Vascular Graft
Extracellular Matrix Mimics Using Hyaluronan-Based Biomaterials
3D hydrogel mimics of the tumor microenvironment: the interplay among hyaluronic acid, stem cells and cancer cells
Tunable layer-by-layer films containing hyaluronic acid and their interactions with CD44
Biomatrices that mimic the cancer extracellular environment
Adhesion and migration of AGS gastric cancer cell line via AKT pathway activation, influenced by the immobilized oligossacharide HA
Modified mesoporous silica nanoparticles improves BMP-2 loading and its release timeframe
"Immobilized oligosaccharides of Hyaluronic Acid induce the migration and proliferation of AGS gastric cancer cells through the activation of the AKT pathway
Development of mesoporous silica-based nanoparticles as BMP-2 controlled release systems
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