Downsizing of valve allografts for use as right heart conduits

doi:10.1016/0003-4975(94)92204-7

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Downsizing of valve allografts for use as right heart conduits

Takeshi Hiramatsu, MD, Takuya Miura, MD, Joseph M. Forbess, MD, Christian Brizard, MD, Richard A. Jonas, MD^_*

Department of Cardiac Surgery, Children's Hospital, Boston, Massachusetts USA

^_* Address reprint requests to Dr Jonas, Department of Cardiac Surgery, Children's Hospital, 300 Longwood Ave, Boston, MA 02115.

In recent years, there has been a worsening shortage of smalland intermediate-sized aortic and pulmonary allografts for useas right ventricular-to-pulmonary artery conduits in infantsand children. However, there is a surfeit of large pulmonaryand aortic allografts from adult donors. The feasibility ofreducing a large allograft to a more useful size was examinedusing human pulmonary and aortic allografts. Eleven pulmonaryallografts (11 to 26 mm in diameter) and nine aortic allografts(5 to 27 mm in diameter) were studied. Valve competence beforedownsizing was tested with a column of saline to a static pressureequivalent to the normal pulmonary pressure (20 mm Hg). Regurgitantflow was measured for 15 minutes. One complete cusp of the valvewas excised, together with a longitudinal strip of the arterialwall. A bicuspid valved conduit was created by suturing theallograft longitudinally. The diameter of the bicuspid valvewas measured with a dilator. A nomogram was constructed thatpredicts the size of the bicuspid allograft based on the sizeof the original allograft. The competence of the bicuspid allograftwas tested and the regurgitant flow was compared with that ofthe original tricuspid allograft. The transvalvular systolicpressure gradient was measured with the bicuspid allograft placedin a pulsatile extracorporeal perfusion circuit at a flow raleof 1 L/min and a mean pressure of 20.5 ± 2.6 mm Hg. Theregurgitant Sow before and after downsizing was 242.9 ±297.9 mL/15 min and 7.3 ± 9.5 mL/15 min (p = 0.016),respectively, for pulmonary allografts and 113.6 ± 149.5mL/15 min and 1.5 ± 2.1 mL/15 min (p = 0.039), respectively,for aortic allografts. The pressure gradient after downsizingwas 1.1 ± 1.3 mm Hg for pulmonary allografts and 2.5± 2.1 mm Hg for aortic allografts. The diameter afterdownsizing ranged from 7 to 18 mm for pulmonary allografts andfrom 4 to 18 mm for aortic allografts. The linear regressionequation with respect to the diameter before downsizing wasY = 0.713X – 1.338 (r = 0.986) for pulmonary allograftsand Y = 0.640X + 0.460 (r = 0.995) for aortic allografts. Bicuspidallografts were found to be significantly more competent thanthe original allografts and to have minimal pressure gradientsin an in vitro system. We conclude that it is feasible to downsizeallografts for use as right ventricular-to-pulmonary arteryconduits.

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