2017
Distal embolization during lower extremity endovascular interventions
Chaar C, Shebl F, Sumpio B, Dardik A, Indes J, Sarac T. Distal embolization during lower extremity endovascular interventions. Journal Of Vascular Surgery 2017, 66: 143-150. PMID: 28366300, DOI: 10.1016/j.jvs.2017.01.032.Peer-Reviewed Original ResearchMeSH KeywordsAgedAmputation, SurgicalAngioplasty, BalloonAtherectomyChi-Square DistributionCritical IllnessDatabases, FactualDisease-Free SurvivalEmbolismFemaleFemoral ArteryHumansIncidenceIntermittent ClaudicationIschemiaLimb SalvageLower ExtremityMaleMiddle AgedMultivariate AnalysisNew EnglandOdds RatioPeripheral Arterial DiseaseProportional Hazards ModelsRegistriesRetrospective StudiesRisk AssessmentRisk FactorsStentsTime FactorsTreatment OutcomeVascular PatencyConceptsLower extremity endovascular interventionsSuperficial femoral arteryCritical limb ischemiaDistal embolizationLoss of patencyEndovascular interventionBalloon angioplastyLimb ischemiaAdditional endovascular interventionArterial endovascular interventionUse of atherectomyVascular Study GroupLength of occlusionNew England databaseNumber of arteriesMajor amputationMost patientsPatient characteristicsFemoral arteryRisk factorsStudy groupMultivariable regressionLimb lossLower riskAngioplasty
2009
Prevention of Lesion Recurrence in Endovascular Devices
Rochier A, Sumpio B. Prevention of Lesion Recurrence in Endovascular Devices. 2009, 431-447. DOI: 10.1007/978-1-4419-1387-6_30.Peer-Reviewed Original ResearchIliac arteryAutogenous bypass graftsMulticenter trialBypass graftLesion recurrenceEndovascular methodsStent placementFemoral arteryAtherosclerotic obstructionDrug AdministrationUS FoodAdequate conduitArteryEndovascular devicesInvasive surgeryStentsHuman arteriesFavorable resultsOptimal techniqueSuitable riskAngioplastyIliacPatientsSurgeryRecurrence
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
1993
Control of smooth muscle cell proliferation by psoralen photochemotherapy.
Sumpio B, Phan S, Gasparro F, Deckelbaum L. Control of smooth muscle cell proliferation by psoralen photochemotherapy. Journal Of Vascular Surgery 1993, 17: 1010-6; discussion 1016-8. PMID: 8505779, DOI: 10.1067/mva.1993.45747.Peer-Reviewed Original ResearchConceptsSmooth muscle cell proliferationMuscle cell proliferationSMC proliferationPsoralen photochemotherapyPeripheral vascular diseaseLong-term therapyCell proliferationInhibits SMC proliferationTrypan blue exclusionBypass graftDistal anastomosisBalloon angioplastyUVA photochemotherapyVascular diseaseIntimal hyperplasiaGrowth of SMCsBlue exclusionPhotochemotherapySMC viabilityTime courseProliferationUVADNA synthesisDaysAngioplastyControl of smooth muscle cell proliferation by psoralen photochemotherapy
Sumpio B, Phan S, Gasparro F, Deckelbaum L. Control of smooth muscle cell proliferation by psoralen photochemotherapy. Journal Of Vascular Surgery 1993, 17: 1010-1018. DOI: 10.1016/0741-5214(93)90671-8.Peer-Reviewed Original ResearchConceptsSmooth muscle cell proliferationMuscle cell proliferationSMC proliferationPsoralen photochemotherapyPeripheral vascular diseaseLong-term therapyCell proliferationInhibits SMC proliferationTrypan blue exclusionBypass graftDistal anastomosisBalloon angioplastyUVA photochemotherapyVascular diseaseIntimal hyperplasiaGrowth of SMCsBlue exclusionPhotochemotherapySMC viabilityTime courseProliferationUVADNA synthesisDaysAngioplasty