PMID: 15387944Sep 25, 2004Paper

Decellularized human tissue engineering aortic valves conduit

Zhonghua yi xue za zhi
Bin CuiSong Wu

Abstract

To explore the suitable method to create a decellularized human tissue engineering homograft aortic valves conduit and to study its biologic, immol/Lunological, and biomechanical properties. Human homograft aortic valves conduits donated by healthy adult males undergoing brain death preserved in liquid nitrogen were treated with pH 8.0 hypotonic Tris buffer for 12 hours; then pH 8.0 isotonic buffer with 0.5% DOA, 1% DOA or 1% Triton for 12 hours-24 h; l and then pH 7.6 isotonic buffer with DNAase 200 micro g/ml, RNAase 20 micro g/ml for 2 hours. the histology, HLA-DR antigen, water content, thinkness, denaturation temperature, DNA content, Collagen Contents, stress-strain, destroying stress were examined. In comparison with the standard cryopreserved human homograft aortic valves conduit, the valves, wall and muscle of the homograft aorta treated by 1% DOA for 24 hours were decellularized completely, and the 3-dimensional network structure of elastic fibers and collagenous fibers remained intact. Immol/Lunohistochemistry showed a remarkable decrease of expression of tissue genome DNA contents, a decrease by 91.14% in the valves, and by 91.53% in the wall, and a remarkable decrease of the expression of HLA-DR antigens. However, ...Continue Reading

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