A tissue-engineered small-diameter arterial graft would be of benefit to patients requiring vascular reconstructive procedures. Our objective was to produce a tissue-engineered vascular graft with a high patency rate that could withstand arterial pressures. Rat arteries were acellularized with a series of detergent solutions, recellularized by incubation with a primary culture of endothelial cells, and implanted as interposition grafts in the common femoral artery. Acellular grafts that had not been recellularized were implanted in a separate group of control animals. No systemic anticoagulants were administered. Grafts were explanted at 4 weeks for definitive patency evaluation and histologic examination; 89% of the recellularized grafts a...
ObjectiveVarious types of natural and synthetic scaffolds with arterial tissue cells or differentiat...
Objective: Previous tissue engineering approaches to create small caliber vascular grafts have been ...
<div><p>The surgical repair of heart and vascular disease often requires implanting synthetic grafts...
BackgroundArterial bypass graft implantation remains the primary therapy for patients with advanced ...
Tissue engineering has emerged as a promising approach to viable small-diameter vascular grafts that...
Vascular bypass grafting is a commonly performed procedure for ischemic heart disease and peripheral...
Although artificial vessels are available for large diameter arteries, there are no artificial vesse...
ObjectiveVarious tissue-engineered vascular grafts have been studied to overcome the clinical disadv...
Abstract—Although the need for a functional arterial replacement is clear, the lower blood flow velo...
Limited autologous vascular graft availability and poor patency rates of synthetic grafts for bypass...
Vascular grafts for free flap transfers should be of very small diameter and remain patent for appro...
The gold standards for small diameter peripheral vascular graft replacement are autologous arteries ...
Objective: Previous tissue engineering approaches to create small caliber vascular grafts have been ...
There is a clinical need for tissue-engineered small-diameter (<6 mm) vascular grafts since clinical...
Abstract Background The development of a suitable extracellular matrix (ECM) scaffold is the first s...
ObjectiveVarious types of natural and synthetic scaffolds with arterial tissue cells or differentiat...
Objective: Previous tissue engineering approaches to create small caliber vascular grafts have been ...
<div><p>The surgical repair of heart and vascular disease often requires implanting synthetic grafts...
BackgroundArterial bypass graft implantation remains the primary therapy for patients with advanced ...
Tissue engineering has emerged as a promising approach to viable small-diameter vascular grafts that...
Vascular bypass grafting is a commonly performed procedure for ischemic heart disease and peripheral...
Although artificial vessels are available for large diameter arteries, there are no artificial vesse...
ObjectiveVarious tissue-engineered vascular grafts have been studied to overcome the clinical disadv...
Abstract—Although the need for a functional arterial replacement is clear, the lower blood flow velo...
Limited autologous vascular graft availability and poor patency rates of synthetic grafts for bypass...
Vascular grafts for free flap transfers should be of very small diameter and remain patent for appro...
The gold standards for small diameter peripheral vascular graft replacement are autologous arteries ...
Objective: Previous tissue engineering approaches to create small caliber vascular grafts have been ...
There is a clinical need for tissue-engineered small-diameter (<6 mm) vascular grafts since clinical...
Abstract Background The development of a suitable extracellular matrix (ECM) scaffold is the first s...
ObjectiveVarious types of natural and synthetic scaffolds with arterial tissue cells or differentiat...
Objective: Previous tissue engineering approaches to create small caliber vascular grafts have been ...
<div><p>The surgical repair of heart and vascular disease often requires implanting synthetic grafts...