Abstract
Calcification limits the long-term durability of xenograft glutaraldehyde-crosslinked heart valves. In this study, epoxy-crosslinked porcine aortic valve tissue was evaluated after subcutaneous implantation in weanling rats, Non-crosslinked valves and valves crosslinked with glutaraldehyde or carbodiimide functioned as control. Epoxy-crosslinked valves had somewhat lower shrinkage temperatures than the crosslinked controls, and within the series also some macroscopic and microscopic differences were obvious. After 8 weeks implantation, cusps from non-crosslinked valves were not retrieved. The matching walls were more degraded than the epoxy- and control-crosslinked walls. This was observed from the higher cellular ingrowth with fibroblasts, macrophages, and giant cells. Furthermore, non-crosslinked malls showed highest numbers of lymphocytes, which were most obvious in the capsules. Epoxy- and control-crosslinked cusps and walls induced lower reactions, Calcification, measured by von Kossa-staining and by Ca-analysis, was always observed. Crosslinked cusps calcified more than walls, Of all mall samples, the non-crosslinked walls showed the highest calcification. It is concluded that epoxy-crosslinked valve tissue induced a foreign body and calcification reaction similar to the two crosslinked controls, Therefore, epoxy-crosslinking does not represent a solution for the calcification problem of heart valve bioprostheses, (C) 2000 John Wiley & Sons, Inc.
Original language | English |
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Pages (from-to) | 18-27 |
Number of pages | 10 |
Journal | Journal of Biomedical Materials Research |
Volume | 53 |
Issue number | 1 |
Publication status | Published - Feb-2000 |
Keywords
- prosthesis
- heart valve
- crosslinking
- epoxy
- calcification
- DERMAL SHEEP COLLAGEN
- CROSS-LINKING
- BIOPROSTHETIC VALVES
- CALCIFICATION
- GLUTARALDEHYDE
- CYTOTOXICITY
- BIOMATERIAL
- PREVENTION
- PROSTHESES