Even after 16 min of warm ischemia followed by 3.3 h of preservation with gaseous oxygen persufflation, orthotopic transplantation, and reperfusion the endothelium derived coronary dilatation was unchanged from physiologic values and similar to the controls without COP. Blockage of NO production by L-NNA resulted in equal values of EDR with or without COP, while blockage of NO production by iNOS did not influence the EDR reaction. Thus COP preservation, which has been shown to allow excellent recovery of preserved NHBD hearts, caused no damage to the coronary EDR mechanisms.
Even in an NHBD with more than 15 min of in situ ischemia, the use of COP in combination with mBHTK solution for 3.3-hr storage of the heart allows excellent recovery of transplanted hearts and normal weaning from the heart-lung machine. This indicates that COP combined with mBHTK may be an optimal preservation technique for use with NHBD hearts.
Coronary oxygen persufflation may serve as a means to improve storage conditions and organ preservation time for cardiac transplantation. We examined whether coronary oxygen persufflation and prolonged preservation time alter the endothelium-dependent relaxation of isolated coronary arteries. Isolated rabbit hearts were subjected to four different protocols: control (no preservation), 3 h cold storage in Bretschneider's solution, 18 h cold storage in Bretschneider's or University of Wisconsin solution, combined with coronary oxygen persufflation. After 2 h parabiotic reperfusion, intramural segments of coronary arteries were isolated and isometric tension was recorded using a small-vessel myograph. Endothelial function was examined using carbachol and substance P, applied after vessel constriction using high (30 mmol/l) K(+) or U 46.619, a thromboxane receptor agonist. In another series, coronary flow was measured after Bretschneider's +/-18 h coronary oxygen persufflation, or in freshly isolated, retrogradely perfused Langendorff hearts. Flow responses to substance P, acetylcholine or bradykinin were recorded. In saline-reperfused intact hearts no change in the normal effects of endothelium-dependent relaxants was detected after 18 h, irrespective of coronary oxygen persufflation. However, after isolation of the resistance vessels endothelium-dependent relaxation was abolished after long-term preservation and persufflation. Similar results were obtained after mechanical removal of the endothelium using control hearts. Short-term preservation without persufflation resulted in relaxations similar to those in non-preserved control hearts. Long-term preservation of rabbit heart including coronary oxygen persufflation results in unchanged endothelium-dependent relaxation in intact heart, but abolishes the endothelium-dependent relaxation after isolation of the vessels.
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