126 research outputs found

    Aortic valve cell seeding into decellularized animal pericardium by perfusion-assisted bioreactor

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    Animal-derived pericardium is the elective tissue employed in manufacturing heart valve prostheses. The preparation of this tissue for biological valves production consists in fixation with aldehydes, which reduces, but not eliminates, the xenoantigens and the donor cellular material. As a consequence, especially in patients below 65-70 years of age, the employment of pericardium containing valve substitutes is not indicated due to progressive calcification that causes tissue degeneration and recurrence of valve insufficiency. Decellularization with ionic/non-ionic detergents has been proposed as an alternative procedure to prepare aldehyde-/xenoantigen-free pericardium for biological valve manufacturing. In the present contribution we optimized a decellularization procedure that is permissive for seeding and culturing valve competent cells able to colonize and reconstitute a valve-like tissue. A high efficiency cellularization was achieved by forcing cell penetration inside the pericardium matrix using a perfusion bioreactor. Since the decellularization procedure was found not to alter the collagen composition of the pericardial matrix and cells seeded in the tissue constructs consistently grew and acquired the phenotype of 'quiescent' VICs, our investigation sets a novel standard in pericardium application for tissue engineering of 'living' valve implants

    Composite graft using an Edwards Intuity Elite rapid deployment bioprosthesis for aortic root replacement

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    We describe a technique using an Edwards Intuity Elite rapid deployment bioprosthesis to construct a composite graft for an aortic root replacement
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