2023
EphB4 monomer inhibits chronic graft vasculopathy in an aortic transplant model
Langford J, Gonzalez L, Taniguchi R, Brahmandam A, Zhang W, Dardik A. EphB4 monomer inhibits chronic graft vasculopathy in an aortic transplant model. JVS Vascular Science 2023, 4: 100109. PMID: 37519335, PMCID: PMC10372308, DOI: 10.1016/j.jvssci.2023.100109.Peer-Reviewed Original ResearchAortic transplant modelAllograft vasculopathyT cellsTransplant modelEphrin-B2Immune cell accumulationChronic graftCardiac transplantChronic rejectionTransplanted graftAortic allograftsNeointima formationCell accumulationTissue damageMonocyte adhesionLess neointima formationVasculopathyAdherent monocytesEndothelial surfaceReceptor EphB4MacrophagesGraftMonocytesImportant targetCells
2022
First-in-Human Implantation of Gutter-Free Design Stent-Graft in in situ Fenestration TEVAR for Aortic Arch Pathology
Li X, Shu C, Wang L, Li Q, Fang K, Luo M, Zhang W, Zhou Y, Zhou H. First-in-Human Implantation of Gutter-Free Design Stent-Graft in in situ Fenestration TEVAR for Aortic Arch Pathology. Frontiers In Cardiovascular Medicine 2022, 9: 911689. PMID: 35845060, PMCID: PMC9279855, DOI: 10.3389/fcvm.2022.911689.Peer-Reviewed Original ResearchThoracic endovascular aortic repairAortic stent graftStent graftPolytetrafluoroethylene coatingSkirt structurePrevention of endoleaksLeft subclavian arteryAortic arch aneurysmAortic arch pathologiesEndovascular aortic repairFuture multi-centre studiesMulti-center studyFabric structureStent graft fenestrationLocalized dissectionArch aneurysmArch pathologiesAortic repairSubclavian arteryLong-term evaluationGraft fenestrationGraftHuman implantationEndoleakEndograft