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Literature DB >> 1580331

Ionescu-Shiley bovine pericardial bioprostheses. Histologic and ultrastructural studies.

S L Hilbert¹, V J Ferrans, H A McAllister, D A Cooley.

Abstract

Studies were done on the structural changes that develop in Ionescu-Shiley valves that are used as replacement heart valves for 4 to 8 years. These changes were compared with those found in similarly used porcine aortic valve (PAV) bioprostheses. A variety of morphologic differences were observed between bovine pericardial valve (BPV) and PAV bioprostheses after orthotopic implantation including: primary tissue failure associated with the use of an alignment suture, thickening of valve leaflet, leaflet tissue delamination, leaflet calcification, and dystrophic alterations of collagen. These findings indicate that valve design criteria directly influence the durability of pericardial valves. However, other factors unique to pericardial tissue also affect the durability and performance of BPVs. These factors include the inability of pericardial tissue to accommodate dynamic stresses; the extensive insudation of plasma proteins and lipids; and the inability to reduce leaflet calcification using agents that effectively mitigate calcification in PAV bioprostheses.

Entities: Chemical Disease Species

Mesh：

Year: 1992 PMID： 1580331 PMCID： PMC1886526

Source DB: PubMed Journal: Am J Pathol ISSN： 0002-9440 Impact factor: 4.307

22 in total

1. Structural changes in glutaraldehyde-treated porcine heterografts used as substitute cardiac valves. Transmission and scanning electron microscopic observations in 12 patients.

Authors: V J Ferrans; T L Spray; M E Billingham; W C Roberts
Journal: Am J Cardiol Date: 1978-06 Impact factor: 2.778

2. Do heart valve bioprostheses degenerate for metabolic or mechanical reasons?

Authors: S Gabbay; P Kadam; S Factor; T K Cheung
Journal: J Thorac Cardiovasc Surg Date: 1988-02 Impact factor: 5.209

3. Degenerative pathologic findings after long-term implantation of bovine pericardial bioprosthetic heart valves.

Authors: F Nistal; V García-Martínez; D Fernández; E Artiñano; F Mazorra; I Gallo
Journal: J Thorac Cardiovasc Surg Date: 1988-10 Impact factor: 5.209

4. Optical methods for the nondestructive evaluation of collagen morphology in bioprosthetic heart valves.

Authors: S L Hilbert; V J Ferrans; W M Swanson
Journal: J Biomed Mater Res Date: 1986 Nov-Dec

5. In vitro hemodynamic characteristics of tissue bioprostheses in the aortic position.

Authors: A P Yoganathan; Y R Woo; H W Sung; F P Williams; R H Franch; M Jones
Journal: J Thorac Cardiovasc Surg Date: 1986-08 Impact factor: 5.209

6. Fatigue-induced failure of the Ionescu-Shiley pericardial xenograft in the mitral position. In vivo and in vitro correlation and a proposed classification.

Authors: S Gabbay; U Bortolotti; F Wasserman; S Factor; J Strom; R W Frater
Journal: J Thorac Cardiovasc Surg Date: 1984-06 Impact factor: 5.209

7. Structure and classification of cuspal tears and perforations in porcine bioprosthetic cardiac valves implanted in patients.

Authors: T Ishihara; V J Ferrans; S W Boyce; M Jones; W C Roberts
Journal: Am J Cardiol Date: 1981-10 Impact factor: 2.778

8. Modification by the Hancock T6 process of calcification of bioprosthetic cardiac valves implanted in sheep.

Authors: E Arbustini; M Jones; R D Moses; E E Eidbo; R J Carroll; V J Ferrans
Journal: Am J Cardiol Date: 1984-05-01 Impact factor: 2.778

9. Patterns of calcific deposits in operatively excised stenotic or purely regurgitant aortic valves and their relation to mechanical stress.

Authors: M J Thubrikar; J Aouad; S P Nolan
Journal: Am J Cardiol Date: 1986-08-01 Impact factor: 2.778