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The Journal of Thoracic and Cardiovascular Surgery, Vol 105, 580-590, Copyright © 1993 by The American Association for Thoracic Surgery and The Western Thoracic Surgical Association
HH Sievers, U Storde, EB Rohwedder, PE Lange, DG Onnasch, PH Heintzen and A Bernhard
In an experimental study in pigs, the function of monocuspid and bicuspid
patches was compared to improve surgical reconstruction of a hypoplastic
pulmonary root. Segments from glutaraldehyde-treated porcine aortic roots
served as monocuspid and bicuspid patches. Their leaflets and commissures
were marked with radiopaque metal clips. Marker movements were recorded at
100 frames/sec. Quantification of pulmonary insufficiency, right
ventricular stroke volume, as well as pressures in the right ventricle,
pulmonary artery, and aorta was performed before and after patch plasty.
The cyclic motion of the leaflets showed a three-phase pattern in
monocuspid and bicuspid patches: (1) a rapid opening motion with a
significantly longer distance to be covered in monocuspid patches (7.5 mm
in monocuspid versus 4.9 mm in bicuspid patches); (2) a slow closing motion
that was significantly greater in monocuspid patches (31.5% of maximal
displacement in monocuspid versus 18.2% and 23.8% in bicuspid patches); (3)
a similar rapid closure motion in both types of patches. The commissural
expansion was less than 6% for monocuspid and bicuspid patches and began 10
to 20 msec before valve opening. Considerable irregularities in the
movement of the different leaflet markers, especially in monocuspid
patches, indicated leaflet buckling as a result of redundant leaflet
tissue. There was a significant pulmonary regurgitant fraction only in
monocuspid patches (19% in monocuspid versus 7% in bicuspid patches) that
occurred during early diastole. No pressure gradients were observed across
either type of patch. In monocuspid patches, a greater leaflet displacement
during rapid closure was correlated with an increased pulmonary
insufficiency (r = 0.8875). In conclusion, the function of a bicuspid patch
is superior to that of a monocuspid patch for repair of a hypoplastic
pulmonary root and allows the construction of a competent and stenosis-free
valve mechanism.
ARTICLES
Superior function of a bicuspid over a monocuspid patch for reconstruction of a hypoplastic pulmonary root in pigs
Department of Cardiovascular Surgery, University of Kiel, Germany.
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J. Iemura, H. Oku, M. Otaki, and H. Kitayama Expanded polytetrafluoroethylene monocuspid valve for right ventricular outflow tract reconstruction Ann. Thorac. Surg., November 1, 2000; 70(5): 1511 - 1514. [Abstract] [Full Text] [PDF]
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