2007
Role of Ligand-Specific Integrins in Endothelial Cell Alignment and Elongation Induced by Cyclic Strain
Hirayama Y, Sumpio BE. Role of Ligand-Specific Integrins in Endothelial Cell Alignment and Elongation Induced by Cyclic Strain. Endothelium 2007, 14: 275-283. PMID: 18080865, DOI: 10.1080/10623320701746248.Peer-Reviewed Original ResearchConceptsEndothelial cellsP38 MAPKAnti-alpha2 integrin antibodyMorphological changesP38 mitogen-activated protein kinase (MAPK) pathwayCycles/minIntegrin-blocking antibodiesP38 MAPK pathwayMitogen-activated protein kinase pathwayAlpha 5Integrin antibodyProtein kinase pathwayMAPK pathwayAntibodiesKinase pathwayMAPKMultiple biological processesActivationIntegrinsCritical roleCyclic strainPathway
2005
In–Vitro Model for Evaluation of the Effects of Supercooling and Re-warming on Vascular Cells
Yiu W, Aruny J, Cheng S, Sumpio B. In–Vitro Model for Evaluation of the Effects of Supercooling and Re-warming on Vascular Cells. International Journal Of Angiology 2005, 14: 237-241. DOI: 10.1007/s00547-005-2055-5.Peer-Reviewed Original ResearchInitial technical success rateEndothelial cellsRe-warming phasePeripheral vascular diseaseTransluminal balloon angioplastyRate of restenosisTechnical success rateTUNEL-positive cellsSmooth muscle cellsBalloon angioplastyVascular diseaseEndothelial cell survivalMuscle cellsVascular cellsVitro modelVessel wallSuccess rateUnderlying mechanismRestenosisCell survivalCellsCellular responsesCritical roleAngioplastyIn–Vitro model for evaluation of the effects of supercooling and re-warming on vascular cells
Yiu W, Aruny J, Cheng S, Sumpio B. In–Vitro model for evaluation of the effects of supercooling and re-warming on vascular cells. International Journal Of Angiology 2005, 237-241. DOI: 10.1055/s-0031-1276516.Peer-Reviewed Original ResearchInitial technical success rateEndothelial cellsRe-warming phasePeripheral vascular diseaseTransluminal balloon angioplastyRate of restenosisTechnical success rateTUNEL-positive cellsSmooth muscle cellsBalloon angioplastyVascular diseaseEndothelial cell survivalMuscle cellsVascular cellsVitro modelVessel wallSuccess rateUnderlying mechanismRestenosisCell survivalCellsCellular responsesCritical roleAngioplasty