2018
Decellularized materials derived from TSP2-KO mice promote enhanced neovascularization and integration in diabetic wounds
Morris AH, Stamer DK, Kunkemoeller B, Chang J, Xing H, Kyriakides TR. Decellularized materials derived from TSP2-KO mice promote enhanced neovascularization and integration in diabetic wounds. Biomaterials 2018, 169: 61-71. PMID: 29631168, PMCID: PMC5933884, DOI: 10.1016/j.biomaterials.2018.03.049.Peer-Reviewed Original ResearchConceptsUltimate tensile strengthECM-based materialsTensile strengthMechanical testingDecellularized materialsElastic modulusSynthetic biomaterialsIntact slabsMatrix propertiesExtracellular matrix propertiesCell-derived ECMBiologic scaffoldsElectron microscopyEngineering controlsMaterialsWtEfficient integrationEnhanced vascularizationModulusPromigratory propertiesScaffoldsPropertiesBiomaterialsEnhanced remodelingGreater cell migration
2009
Bulk metallic glasses for biomedical applications
Schroers J, Kumar G, Hodges T, Chan S, Kyriakides T. Bulk metallic glasses for biomedical applications. JOM 2009, 61: 21-29. DOI: 10.1007/s11837-009-0128-1.Peer-Reviewed Original ResearchBulk metallic glassMetallic glassesBiomedical applicationsField of biomaterialsMetallic biomaterialsImplant applicationsExcellent combinationMaterial propertiesSuperior propertiesComplex implantsSurface topographyDesirable biological responsesForeign body responseBiomaterialsProcessing capabilitiesFlexible chemistryGlassPropertiesAtomic structureApplicationsBiocompatibilityBody responseDevicesMaterials