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European Journal of Cardio-Thoracic Surgery, Vol 3, 65-74, Copyright © 1989 by European Association for Cardio-thoracic Surgery
G Thiene, F Laborde, M Valente, P Gallix, E Talenti, F Calabrese and A Piwnica
A long-term experimental morphological study was carried out in 22 adult
sheep to evaluate a new pericardial valve prosthesis (Pericarbon), which
had been implanted in the tricuspid or mitral position. This prosthetic
device differs substantially from others in that its construction design
consists of two sheets of glutaraldehyde- fixed bovine pericardium and a
low-profile flexible plastic stent (Delrin) covered by a pyrolytic carbon
coated dacron fabric; one pericardium sheet forms the three cusp valve and
is sutured to the second, which lines the inner surface of the plastic
stent. Twenty animals were sacrificed at fixed intervals, while 2 are still
living at about 3 years post-surgery. Tricuspid explants (mean duration,
295 days) showed significant fibrous sheathing and a mean calcium X-ray
score of 1.75. Mitral medium-term explants (mean duration, 325 days) had
fairly well preserved pliability and a mean calcium X-ray score of 2.5.
Long-term explants (mean duration, 467 days) were all stiffened by
calcification (mean score, 3.75). None of the explants had tears or
perforations. Medium or long-term mechanical failure was not observed. A
significant host tissue reaction took place in the tricuspid but not in the
mitral position. Calcification mainly involved the collagen fibres and
increased progressively with time. Ultrastructural studies invariably
disclosed fair preservation of graft tissue structures, surface
reendothelization and initial nuclei of calcification within the collagen
fibres. These morphological findings confirm the potential advantages of
this new prosthetic device and warrant long-term clinical trials to test
its actual durability.
ARTICLES
Morphological survey of a new pericardial valve prosthesis (Pericarbon): long-term animal experimental model [published erratum appears in Eur J Cardiothorac Surg 1989 May;3(3):281]
Department of Pathology and Radiology, University of Padua, Italy.
This article has been cited by other articles:
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  T. A. Folliguet, E. Le Bret, J. Bachet, and F. Laborde Pericarbon pericardial bioprosthesis: an experience based on the lessons of the past Ann. Thorac. Surg., May 1, 2001; 71 (2007): S289 - S292. [Abstract] [Full Text] [PDF]
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 E. Pettenazzo, M. Deiwick, G. Thiene, G. Molin, B. Glasmacher, F. Martignago, T. Bottio, H. Reul, and M. Valente Dynamic in vitro calcification of bioprosthetic porcine valves: Evidence of apatite crystallization J. Thorac. Cardiovasc. Surg., March 1, 2001; 121(3): 500 - 509. [Abstract] [Full Text] [PDF]
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 T. Le Tourneau, C. Savoye, E. P. McFadden, D. Grandmougin, H.-F. Carton, J.-L. Hennequin, A. Dubar, G. Fayad, and H. Warembourg Mid-Term Comparative Follow-Up After Aortic Valve Replacement with Carpentier-Edwards and Pericarbon Pericardial Prostheses Circulation, November 9, 1999; 100(90002): II-11 - 16. [Abstract] [Full Text] [PDF]
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 P. Herijgers, S. Ozaki, E. Verbeken, A. Van Lommel, R. Racz, M. Zietkiewicz, B. Perek, and W. Flameng Calcification characteristics of porcine stentless valves in juvenile sheep Eur. J. Cardiothorac. Surg., February 1, 1999; 15(2): 134 - 142. [Abstract] [Full Text] [PDF]
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 J. W. Borowiec, T. W. Dubiel, H.-E. Hansson, J. Landelius, S.-O. Nystrom, and J. W. Borowiec Pericarbon Pericardial Valve Prosthesis: Midterm Results of the Aortic Valve Replacement Angiology, January 1, 1998; 49(1): 1 - 11. [Abstract] [PDF]
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