2025
Development and deployment of a functional 3D-bioprinted blood vessel
Dell A, Maresca J, Davis B, Isaji T, Dardik A, Geibel J. Development and deployment of a functional 3D-bioprinted blood vessel. Scientific Reports 2025, 15: 11668. PMID: 40188212, PMCID: PMC11972400, DOI: 10.1038/s41598-025-93276-y.Peer-Reviewed Original Research
2020
Glycocalyx‐Like Hydrogel Coatings for Small Diameter Vascular Grafts
Dimitrievska S, Wang J, Lin T, Weyers A, Bai H, Qin L, Li G, Cai C, Kypson A, Kristofik N, Gard A, Sundaram S, Yamamoto K, Wu W, Zhao L, Kural M, Yuan Y, Madri J, Kyriakides T, Linhardt R, Niklason L. Glycocalyx‐Like Hydrogel Coatings for Small Diameter Vascular Grafts. Advanced Functional Materials 2020, 30 DOI: 10.1002/adfm.201908963.Peer-Reviewed Original ResearchTissue-Engineered Vascular Grafts with Advanced Mechanical Strength from Human iPSCs
Luo J, Qin L, Zhao L, Gui L, Ellis MW, Huang Y, Kural MH, Clark JA, Ono S, Wang J, Yuan Y, Zhang SM, Cong X, Li G, Riaz M, Lopez C, Hotta A, Campbell S, Tellides G, Dardik A, Niklason LE, Qyang Y. Tissue-Engineered Vascular Grafts with Advanced Mechanical Strength from Human iPSCs. Cell Stem Cell 2020, 26: 251-261.e8. PMID: 31956039, PMCID: PMC7021512, DOI: 10.1016/j.stem.2019.12.012.Peer-Reviewed Original Research
2018
Generating vascular conduits: from tissue engineering to three-dimensional bioprinting
Maina RM, Barahona MJ, Finotti M, Lysyy T, Geibel P, D’Amico F, Mulligan D, Geibel JP. Generating vascular conduits: from tissue engineering to three-dimensional bioprinting. Innovative Surgical Sciences 2018, 3: 203-213. PMID: 31579784, PMCID: PMC6604577, DOI: 10.1515/iss-2018-0016.Peer-Reviewed Original ResearchArtery diseaseVascular conduitsVascular diseaseAutologous graftsNative vesselsSuitable vascular conduitInternal mammary arteryPeripheral vascular diseaseRat vascular smooth muscle cellsThird of patientsCoronary artery diseaseCarotid artery diseaseVascular smooth muscle cellsStandard of careLimb-saving procedureSmooth muscle cellsMultivessel diseaseDonor graftsMammary arteryPoor outcomeSaphenous veinLeading causeVascular interventionsGraftMuscle cells
2017
Improving in vivo outcomes of decellularized vascular grafts via incorporation of a novel extracellular matrix
Kristofik NJ, Qin L, Calabro NE, Dimitrievska S, Li G, Tellides G, Niklason LE, Kyriakides TR. Improving in vivo outcomes of decellularized vascular grafts via incorporation of a novel extracellular matrix. Biomaterials 2017, 141: 63-73. PMID: 28667900, PMCID: PMC5918415, DOI: 10.1016/j.biomaterials.2017.06.025.Peer-Reviewed Original ResearchConceptsUnmodified graftsVascular graftsCoronary bypass proceduresMechanical propertiesMural cell recruitmentBypass proceduresRat aortaMMP levelsCell recruitmentDecreased failure rateGraftPlatelet studiesGraft mechanical propertiesNative vesselsShelf vascular graftsSmall-diameter vascular graftsTime pointsExtracellular matrixDiameter vascular graftsTensile strengthYoung's modulusWT cellsPresent studySuture retentionFailure rate
2010
Serial Angiography and Intravascular Ultrasound: Results of the SISC Registry (Stents In Small Coronaries)
Chamié D, Costa J, Abizaid A, Feres F, Staico R, Devito F, Costa R, Abizaid A, Tanajura L, Sousa A, Fitzgerald P, Whitbourn R, Sousa J. Serial Angiography and Intravascular Ultrasound: Results of the SISC Registry (Stents In Small Coronaries). JACC Cardiovascular Interventions 2010, 3: 191-202. PMID: 20170877, DOI: 10.1016/j.jcin.2009.11.014.Peer-Reviewed Original ResearchConceptsPercutaneous coronary interventionIH volumeSmall vessel percutaneous coronary interventionIntravascular ultrasoundBalloon-expandable stentsChronic expansionClinical characteristicsLate lossLumen lossCoronary interventionSerial angiographyStentSelf-ExpandingNitinol stentsShort lesionsIntimal hyperplasiaPatientsObstructionLesionsCohortNative vesselsUltrasoundNeoformed tissueGroupVessels
2005
Angiographic and clinical outcomes at 8 months of cutting balloon angioplasty and β‐brachytherapy for native vessel in‐stent restenosis (BETACUT): Results from a stopped randomized controlled trial
Schlüter M, Tübler T, Lansky AJ, Kähler S, Berger J, Mathey DG, Schofer J. Angiographic and clinical outcomes at 8 months of cutting balloon angioplasty and β‐brachytherapy for native vessel in‐stent restenosis (BETACUT): Results from a stopped randomized controlled trial. Catheterization And Cardiovascular Interventions 2005, 66: 320-326. PMID: 16216024, DOI: 10.1002/ccd.20517.Peer-Reviewed Original ResearchConceptsStandard balloonClinical outcomesCB angioplastyBalloon angioplastyStent restenosisInterim analysisMajor adverse cardiac eventsNative vesselsAdverse cardiac eventsOverall patient populationImmediate angiographic outcomeTreatment of choiceQuantitative coronary angiographyΒ-brachytherapyAngiographic restenosisBeta-radiation treatmentLesion revascularizationAngiographic outcomesCardiac eventsConsecutive patientsCoronary angiographyStudy armsIntracoronary brachytherapyPatient populationTreatment modalities
1997
Rat arterial wall retains myointimal hyperplastic potential long after arterial injury.
Sirois M, Simons M, Kuter D, Rosenberg R, Edelman E. Rat arterial wall retains myointimal hyperplastic potential long after arterial injury. Circulation 1997, 96: 1291-8. PMID: 9286961, DOI: 10.1161/01.cir.96.4.1291.Peer-Reviewed Original ResearchConceptsSmooth muscle cellsVascular diseaseNeointimal hyperplasiaMuscle cellsMedial smooth muscle cellsBlood vesselsAccelerated vascular diseaseSingle-dose therapyPDGFR-beta expressionVascular smooth muscle cellsPlatelet-derived growth factorProliferative vascular diseasesPeriod of thrombocytopeniaArterial injuryEndothelial denudationVascular injuryPlatelet depletionIntimal hyperplasiaPharmacological modalitiesVascular healingArterial wallHyperplasiaGrowth factorNative vesselsInjury
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply