Bioengineered human blood vessels

Bioengineered human blood vessels

Since the advent of the vascular anastomosis by Alexis Carrel in the early 20th century, the repair and replacement of blood vessels have been key to treating acute injuries, as well as chronic atherosclerotic disease. Arteries serve diverse mechanical and biological functions, such as conducting bl...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2020-10, Vol.370 (6513), p.185, Article 8682
Hauptverfasser: Niklason, Laura E., Lawson, Jeffrey H.
Format: Artikel
Sprache:eng
Schlagworte:
Accident Prevention
Activation
Additives
Anastomosis
Arteries
Arteriosclerosis
Atherosclerosis
Biodegradation
Bioengineering
Biological evolution
Biology
Biotechnology
Blood coagulation
Blood flow
Blood pressure
Blood vessels
Cell fusion
Clinical trials
Coagulation
Collagen
Collagen (type I)
Connective tissues
Creep rupture strength
Crosslinking
Cytology
Design criteria
Engineering
Extracellular matrix
Fabrics
Feasibility studies
Flow resistance
Heart
Heart surgery
Hemodialysis
Human tissues
Immunosuppression
Low pressure
Medical treatment
Multidisciplinary Sciences
Organs
Patients
Pediatrics
Physiology
Polymers
Recognition
Science & Technology
Science & Technology - Other Topics
Substrates
Surgery
Thromboembolism
Thrombosis
Tissue engineering
Trauma
Vascular diseases
Veins & arteries
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Beschreibung
Zusammenfassung:Since the advent of the vascular anastomosis by Alexis Carrel in the early 20th century, the repair and replacement of blood vessels have been key to treating acute injuries, as well as chronic atherosclerotic disease. Arteries serve diverse mechanical and biological functions, such as conducting blood to tissues, interacting with the coagulation system, and modulating resistance to blood flow. Early approaches for arterial replacement used artificial materials, which were supplanted by polymer fabrics in recent decades. With recent advances in the engineering of connective tissues, including arteries, we are on the cusp of seeing engineered human arteries become mainstays of surgical therapy for vascular disease. Progress in our understanding of physiology, cell biology, and biomanufacturing over the past several decades has made these advances possible.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aaw8682