Coronary oxygen persufflation combined with HTK cardioplegia prolongs the preservation time in heart transplantation.

Background: One of the most restricting factors remaining in heart transplantation is the limited myocardial ischemia time. A new approach towards the prolongation of this time is the combination of primary cardioplegic arrest followed by continuous coronary oxygen persufflation (COP) with gaseous oxygen.

Methods: This technique was applied in pig hearts, which we transplanted orthotopically after cardioplegic arrest by original (n = 5) and modified (addition of hyaluronidase: n = 11) Bretschneider HTK solution and 14 h of hypothermic preservation. Depending on the different preservation techniques, we created four groups: (1), original HTK (HTK), n = 5; (2), modified HTK (mHTK), n = 5; (3), modified HTK solution plus COP (mHTK + COP), n = 6; and (4), as a control five hearts were transplanted after cardioplegic arrest by the original HTK solution and a cold ischemia time of 3 h comparable to clinical routine procedure.

Results: After 14 h of preservation and orthotopic transplantation, cardiac functional recovery in mHTK + COP hearts was similar to control hearts, and improved compared to hearts of both other groups. Hemodynamics were significantly better in hearts preserved by mHTK + COP and in the control group compared to the HTK-hearts (P < 0.05), not significant compared to mHTK hearts (dp/dt(max) in % of preoperative +/- standard error of mean (SEM): mHTK + COP, 85 +/- 9; control, 85 +/- 10.5; mHTK, 59 +/- 14; HTK, 50 +/- 4). The cardiac output (CO) in % of preoperative was: mHTK + COP, 68 +/- 5.4; control, 64 +/- 4; mHTK, 44 +/- 2.7; HTK, 25 +/- 11. The ATP of left ventricular myocardium in mHTK + COP hearts at 14.7 +/- 1 micromol/g dry weight (DW) and in the control at 14.59 +/- 1.8 was higher compared to that in mHTK at 12.2 +/- 2.8 (P is non-significant (n.s.) versus mHTK + COP and control) and in HTK-hearts at 7.0 +/- 0.5 (P < 0.05 versus mHTK + COP and control). CK-MB in percent of CK showed no increase in either group.

Conclusions: These data show that COP combined with a mHTK solution represents a potential alternative to complement currently used cold storage techniques for prolonged preservation periods.