2024
Vascular endothelial cells derived from transgene-free pig induced pluripotent stem cells for vascular tissue engineering
Batty L, Park J, Qin L, Riaz M, Lin Y, Xu Z, Gao X, Li X, Lopez C, Zhang W, Hoareau M, Fallon M, Huang Y, Luo H, Luo J, Ménoret S, Li P, Jiang Z, Smith P, Sachs D, Tellides G, Anegon I, Pober J, Liu P, Qyang Y. Vascular endothelial cells derived from transgene-free pig induced pluripotent stem cells for vascular tissue engineering. Acta Biomaterialia 2024, 193: 171-184. PMID: 39681154, PMCID: PMC12212065, DOI: 10.1016/j.actbio.2024.12.033.Peer-Reviewed Original ResearchThis study created transgene-free pig induced pluripotent stem cells for engineered blood vessels that prevent clots, opening new possibilities for modeling improved cardiovascular treatments.
2020
Efficient Differentiation of Human Induced Pluripotent Stem Cells into Endothelial Cells under Xenogeneic-free Conditions for Vascular Tissue Engineering
Luo J, Shi X, Lin Y, Yuan Y, Kural MH, Wang J, Ellis MW, Anderson CW, Zhang SM, Riaz M, Niklason LE, Qyang Y. Efficient Differentiation of Human Induced Pluripotent Stem Cells into Endothelial Cells under Xenogeneic-free Conditions for Vascular Tissue Engineering. Acta Biomaterialia 2020, 119: 184-196. PMID: 33166710, PMCID: PMC8133308, DOI: 10.1016/j.actbio.2020.11.007.Peer-Reviewed Original ResearchConceptsVascular tissue engineeringTissue engineeringSmall-diameter TEVGsDynamic bioreactor systemShear stressBioreactor systemCell alignmentVascular graftsXenogeneic-free conditionsEngineeringEndothelializationTEVGsApplicationsEndothelial cellsConditionsHuman induced pluripotent stem cellsAnimal-derived reagentsXenogeneic-free generation of vascular smooth muscle cells from human induced pluripotent stem cells for vascular tissue engineering
Luo J, Lin Y, Shi X, Li G, Kural MH, Anderson CW, Ellis MW, Riaz M, Tellides G, Niklason LE, Qyang Y. Xenogeneic-free generation of vascular smooth muscle cells from human induced pluripotent stem cells for vascular tissue engineering. Acta Biomaterialia 2020, 119: 155-168. PMID: 33130306, PMCID: PMC8168373, DOI: 10.1016/j.actbio.2020.10.042.Peer-Reviewed Original ResearchConceptsVascular tissue engineeringTissue-engineered vascular graftsTissue engineeringComparable mechanical strengthVascular smooth muscle cellsMechanical strengthSmooth muscle cellsPolyglycolic acid scaffoldsTechnology one stepBiodegradable polyglycolic acid (PGA) scaffoldsXenogeneic-free conditionsAnimal-derived reagentsMuscle cellsVSMC differentiationImmunodeficient mouse modelEngineeringVascular graftsOne-stepStem cellsPluripotent stem cellsMouse modelCollagen depositionComparable capacityBlood vesselsAcid scaffolds
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