2016
Impaired von Willebrand factor adhesion and platelet response in thrombospondin-2 knockout mice
Kristofik N, Calabro NE, Tian W, Meng A, MacLauchlan S, Wang Y, Breuer CK, Tellides G, Niklason LE, Kyriakides TR. Impaired von Willebrand factor adhesion and platelet response in thrombospondin-2 knockout mice. Blood 2016, 128: 1642-1650. PMID: 27471233, PMCID: PMC5034742, DOI: 10.1182/blood-2016-03-702845.Peer-Reviewed Original ResearchComparative biology of decellularized lung matrix: Implications of species mismatch in regenerative medicine
Balestrini JL, Gard AL, Gerhold KA, Wilcox EC, Liu A, Schwan J, Le AV, Baevova P, Dimitrievska S, Zhao L, Sundaram S, Sun H, Rittié L, Dyal R, Broekelmann TJ, Mecham RP, Schwartz MA, Niklason LE, White ES. Comparative biology of decellularized lung matrix: Implications of species mismatch in regenerative medicine. Biomaterials 2016, 102: 220-230. PMID: 27344365, PMCID: PMC4939101, DOI: 10.1016/j.biomaterials.2016.06.025.Peer-Reviewed Original ResearchConceptsHuman endothelial cellsCell-matrix interactionsLung regenerationEndothelial cellsKey matrix proteinsComparative biologyCell adhesion moleculeMatrix proteinsLung extracellular matrixCell healthExtracellular matrixResidual DNASpecies mismatchRat lung scaffoldsRegenerative medicineAdhesion moleculesLung scaffoldsPrimate tissuesCellsVascular cell adhesion moleculeLung engineeringLung matrixLess expressionPulmonary cellsProfound effectBiaxial Stretch Improves Elastic Fiber Maturation, Collagen Arrangement, and Mechanical Properties in Engineered Arteries
Huang AH, Balestrini JL, Udelsman BV, Zhou KC, Zhao L, Ferruzzi J, Starcher BC, Levene MJ, Humphrey JD, Niklason LE. Biaxial Stretch Improves Elastic Fiber Maturation, Collagen Arrangement, and Mechanical Properties in Engineered Arteries. Tissue Engineering Part C Methods 2016, 22: 524-533. PMID: 27108525, PMCID: PMC4921901, DOI: 10.1089/ten.tec.2015.0309.Peer-Reviewed Original ResearchConceptsTissue-engineered blood vesselsBiaxial loadingMechanical propertiesMechanical strengthFiber orientationMultiaxial loadingLoading conditionsMechanical integrityBiaxial stretchingCollagen undulationArtificial skinNovel bioreactorMechanical failureMatrix orientationBiaxial stretchLoadingAxial stretchCollagen fiber orientationSuture strengthNative arteriesTissue equivalentsStrengthPropertiesCircumferential stretchMatrix content
2014
Mesenchymal stromal cells form vascular tubes when placed in fibrin sealant and accelerate wound healing in vivo
Mendez JJ, Ghaedi M, Sivarapatna A, Dimitrievska S, Shao Z, Osuji CO, Steinbacher DM, Leffell DJ, Niklason LE. Mesenchymal stromal cells form vascular tubes when placed in fibrin sealant and accelerate wound healing in vivo. Biomaterials 2014, 40: 61-71. PMID: 25433608, PMCID: PMC4268422, DOI: 10.1016/j.biomaterials.2014.11.011.Peer-Reviewed Original ResearchMeSH KeywordsAdultAnimalsBiomarkersCollagenDisease Models, AnimalEnzyme-Linked Immunosorbent AssayFemaleFibrin Tissue AdhesiveFibroblast Growth Factor 2Flow CytometryHumansImmunohistochemistryMaleMesenchymal Stem CellsMice, Inbred C57BLMiddle AgedNeovascularization, PhysiologicReal-Time Polymerase Chain ReactionRheologySubcutaneous TissueWound HealingConceptsAdipose-derived mesenchymal stromal cellsMesenchymal stromal cellsGranulation tissueStromal cellsPericyte marker NG2VE-cadherinWound healingPublic health problemMarkers of endotheliumDays of healingSubcutaneous injectionPresence of bFGFFibrin gelAmount of bFGFHAT-MSCsFibrin sealantWound sizeHealth problemsChronic woundsConfocal imaging analysisInsufficient angiogenesis
2003
Decellularized native and engineered arterial scaffolds for transplantation.
Dahl S, Koh J, Prabhakar V, Niklason L. Decellularized native and engineered arterial scaffolds for transplantation. Cell Transplantation 2003, 12: 659-66. PMID: 14579934.Peer-Reviewed Original Research