The evolution of vascular tissue engineering and current state of the art.
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Concise review: therapeutic potential of adipose tissue-derived angiogenic cellsAdherence of Staphylococcus aureus to Dyneema Purity® Patches and to Clinically Used Cardiovascular ProsthesesSelf-organization and the self-assembling process in tissue engineeringThe Tissue-Engineered Vascular Graft-Past, Present, and Future.Construction of tissue-engineered small-diameter vascular grafts in fibrin scaffolds in 30 daysPreparation and characterization of small-diameter decellularized scaffolds for vascular tissue engineering in an animal model.Utilizing the Foreign Body Response to Grow Tissue Engineered Blood Vessels in Vivo.Imaging and characterization of bioengineered blood vessels within a bioreactor using free-space and catheter-based OCT.Effect of multiwall carbon nanotube reinforcement on coaxially extruded cellular vascular conduits.Development of small diameter nanofiber tissue engineered arterial grafts.Production of Human Endothelial Cells Free from Soluble Xenogeneic Antigens for Bioartificial Small Diameter Vascular Graft Endothelization.Self-assembled smooth muscle cell tissue rings exhibit greater tensile strength than cell-seeded fibrin or collagen gel rings.Mitigation of diabetes-related complications in implanted collagen and elastin scaffolds using matrix-binding polyphenol.The promise and perils of stem cell therapeutics.Fabrication of small-diameter vascular scaffolds by heparin-bonded P(LLA-CL) composite nanofibers to improve graft patency.The pharmacology of regenerative medicineVascular Tissue Engineering: Building Perfusable Vasculature for ImplantationStem cell and biomaterials research in dental tissue engineering and regenerationBack to the future: how biology and technology could change the role of PTFE grafts in vascular access management.Arterial tissue regeneration for pediatric applications: inspiration from up-to-date tissue-engineered vascular bypass grafts.Vascular access in haemodialysis: strengthening the Achilles' heel.Small-diameter vascular tissue engineering.Vascular tissue engineering: from in vitro to in situ.Biological and engineering design considerations for vascular tissue engineered blood vessels (TEBVs).Tissue engineering vascular grafts a fortiori: looking back and going forward.Future research directions to improve fistula maturation and reduce access failure.The Heart and Great Vessels.Dynamic Autologous Reendothelialization of Small-Caliber Arterial Extracellular Matrix: A Preclinical Large Animal StudyCompositions Including Synthetic and Natural Blends for Integration and Structural Integrity: Engineered for Different Vascular Graft Applications.Cell-free vascular grafts: Recent developments and clinical potential.Implantation of completely biological engineered grafts following decellularization into the sheep femoral artery.Construction of Small-Diameter Vascular Graft by Shape-Memory and Self-Rolling Bacterial Cellulose Membrane.Detergent-enzymatic decellularization of swine blood vessels: insight on mechanical properties for vascular tissue engineering.Hybrid scaffolds built from PET and collagen as a model for vascular graft architecture.Pulsatile perfusion bioreactor system for durability testing and compliance estimation of tissue engineered vascular grafts.Sub-Populations of Dermal Skin Fibroblasts Secrete Distinct Extracellular Matrix: Implications for Using Skin Substitutes in the Clinic.Improving in vivo outcomes of decellularized vascular grafts via incorporation of a novel extracellular matrix.Disruptive technological advances in vascular access for dialysis: an overview.Printing Non-Euclidean Solids.A short discourse on vascular tissue engineering.
P2860
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P2860
The evolution of vascular tissue engineering and current state of the art.
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article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
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artículo científico
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name
The evolution of vascular tissue engineering and current state of the art.
@en
The evolution of vascular tissue engineering and current state of the art.
@nl
type
label
The evolution of vascular tissue engineering and current state of the art.
@en
The evolution of vascular tissue engineering and current state of the art.
@nl
prefLabel
The evolution of vascular tissue engineering and current state of the art.
@en
The evolution of vascular tissue engineering and current state of the art.
@nl
P2093
P2860
P356
P1433
P1476
The evolution of vascular tissue engineering and current state of the art.
@en
P2093
David Gebhart
Marissa Peck
Nathalie Dusserre
Nicolas L'Heureux
Todd N McAllister
P2860
P304
P356
10.1159/000331406
P577
2011-10-13T00:00:00Z