The Evaluation of a Small-diameter Polysaccharide-based Arterial Graft in Rats

Overview

Journal Biomaterials

Specialty Biomedical Engineering

Date 2006 Jul 22

PMID 16857256

Citations 15

Authors

Marc Chaouat

Catherine Le Visage

Aude Autissier

Frederic Chaubet

Didier Letourneur

Affiliations

Soon will be listed here.

Abstract

Cardiovascular diseases may require surgery such as arterial bypasses that are usually performed with synthetic PTFE and Dacron grafts with diameter above 6mm. For smaller diameter replacement, healthy vascular tissue from the patient is not always available to carry out this type of graft. The purpose of this study was to evaluate the effectiveness of a small-diameter polysaccharide-based scaffold as an alternative arterial replacement. Tubular polysaccharide-based grafts of 2 mm internal diameter were prepared and moulded by a cross-linking technique. Fifteen Wistar adult rats underwent infrarenal aortic bypass with these grafts using microsurgical techniques. Grafts withstood aortic blood pressure and exhibited physiological blood flow, as evaluated with ultrasound techniques and angiographies at 4 and 8 weeks post-surgery. Harvested grafts were morphologically evaluated by light microscopy and immunohistochemistry. Neointima formation at 8 weeks was evidenced through collagen deposition and smooth muscle-like cells circumferential growth on the luminal surface without intimal hyperplasia or aneurysm formation. In conclusion, we described a 2mm polysaccharide-based arterial material being investigated in vivo and demonstrating patency for up to 8 weeks post-surgery with neointima formation and absence of intimal hyperplasia.

Citing Articles

Investigating the efficacy of uncrosslinked porcine collagen coated vascular grafts for neointima formation and endothelialization.

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Engineered human liver based on pullulan-dextran hydrogel promotes mice survival after liver failure.

Le Guilcher C, Merlen G, Dellaquila A, Labour M, Aid R, Tordjmann T Mater Today Bio. 2023; 19:100554.

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Tuning Physicochemical Properties of a Macroporous Polysaccharide-Based Scaffold for 3D Neuronal Culture.

Gerschenfeld G, Aid R, Simon-Yarza T, Lanouar S, Charnay P, Letourneur D Int J Mol Sci. 2021; 22(23).

PMID: 34884531 PMC: 8657966. DOI: 10.3390/ijms222312726.

Development of 3D Hepatic Constructs Within Polysaccharide-Based Scaffolds with Tunable Properties.

Labour M, Le Guilcher C, Aid-Launais R, El Samad N, Lanouar S, Simon-Yarza T Int J Mol Sci. 2020; 21(10).

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Astaxanthin Complexes to Attenuate Muscle Damage after In Vivo Femoral Ischemia-Reperfusion.

Zuluaga Tamayo M, Choudat L, Aid-Launais R, Thibaudeau O, Louedec L, Letourneur D Mar Drugs. 2019; 17(6).

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