Transformation of metallo-elastomer grafts in a carotid artery interposition model over a year

Transformation of metallo-elastomer grafts in a carotid artery interposition model over a year

Current vascular grafts, primarily Gore-Tex® and Dacron®, don't integrate with the host and have low patency in small-diameter vessels (90 % of the synthetic polymer is degraded by 12 months. Extensive cell infiltration leads to a positive host remodeling. The remodeled grafts feature a fully e...

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Veröffentlicht in:Biomaterials 2024-09, Vol.309, p.122598, Article 122598
Hauptverfasser: Chen, Ying Grace, Dombaxe, Catia, D'Amato, Anthony Richard, Van Herck, Simon, Welch, Halle, Fu, Qin, Zhang, Sheng, Wang, Yadong
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Artery tissue engineering
Biocompatible Materials - chemistry
Biodegradable elastomer
Bioinformatics
Blood Vessel Prosthesis
Carotid Arteries
Carotid artery
Elastomers - chemistry
Male
Materials Testing
Metal-ligand chelation
Polymers - chemistry
Rats
Rats, Sprague-Dawley
Vascular graft
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Zusammenfassung:Current vascular grafts, primarily Gore-Tex® and Dacron®, don't integrate with the host and have low patency in small-diameter vessels (90 % of the synthetic polymer is degraded by 12 months. Extensive cell infiltration leads to a positive host remodeling. The remodeled grafts feature a fully endothelialized lumen. Circumferentially organized smooth muscle cells, elastin fibers, and widespread mature collagen give the neoarteries mechanical properties similar to native arteries. Proteomic analysis further reveals the presence of important vascular proteins in the neoarteries. Evidence suggests that Cu-PAS is a promising material for engineering small blood vessels. Figures generated with BioRender (https://biorender.com/). [Display omitted]
ISSN:0142-9612
1878-5905
1878-5905
DOI:10.1016/j.biomaterials.2024.122598