The Journal of heart and lung transplantation : the official publication of the International Society for Heart Transplantation
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J. Heart Lung Transplant. · May 1996
Comparative StudyLung retrieval from cadaver donors with nonbeating hearts: optimal preservation solution.
We have previously studied the time course of pulmonary cell viability, ultrastructural damage, and adenine nucleotide metabolites after circulatory arrest in a rat model to investigate the feasibility of lung retrieval for transplantation from cadavers. This study was designed to investigate the effect of hypothermic flush and subsequent 4-hour storage with either modified Euro-Collins or University of Wisconsin solution on lungs retrieved 4 hours after death. ⋯ Four hours of circulatory arrest before 4 hours of hypothermic storage had no additional adverse impact on lung viability compared with lungs subjected to 4 hours of hypothermic storage alone, provided nonperfused lungs were ventilated with 100% oxygen. Adenine nucleotide levels were well maintained in oxygen-ventilated cadaver lungs, more so in University of Wisconsin solution-flushed lungs compared with Euro-Collins solution-flushed lungs.
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J. Heart Lung Transplant. · May 1996
Low doses of inhaled nitric oxide in heart transplant recipients.
The purpose of this study was to assess the hemodynamic effects of low doses of inhaled nitric oxide in patients after orthotopic heart transplantation. ⋯ The beneficial effects observed by inhaled nitric oxide in the pulmonary vascular resistance index/systemic vascular resistance index ratio, transpulmonary gradient, and cardiac index suggest that nitric oxide acts mainly in pulmonary territory and could be a possible pulmonary vasodilator agent used to control central hemodynamics after heart transplantation.
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J. Heart Lung Transplant. · May 1996
Comparative StudyPoststorage diastolic abnormalities of heart transplants: is vascular dysfunction or myocardial contracture the culprit?
Vascular dysfunction and myocardial contracture can both contribute to posttransplantation diastolic abnormalities commonly exhibited by heart transplants, but their respective importance remains incompletely elucidated. To address this issue, we assessed the effects of supplementing a new heart preservation solution, Celsior, with a nitric oxide precursor (L-arginine) and a compound known to uncouple excitation from contraction (2, 3-butanedione monoxime). ⋯ Our results suggest that myocardial contracture plays a major role in posttransplantation diastolic abnormalities shown by cardiac allografts. Alleviation of contracture significantly improves the responsiveness of coronary smooth muscles but does not affect that of the vascular endothelium which needs to be handled by separate interventions.
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J. Heart Lung Transplant. · May 1996
Efficacy of oxygenated University of Wisconsin solution containing endothelin-A receptor antagonist in twenty-four-hour heart preservation.
The University of Wisconsin solution has been proven to be effective for prolonged heart preservation. However, 24-hour heart preservation by simple cold immersion in University of Wisconsin solution has been disappointing. We have performed hypothermic low-pressure continuous coronary perfusion with oxygenated University of Wisconsin solution for experimental prolonged heart preservation. However, the high potassium concentration of University of Wisconsin solution combined with prolonged ischemia has detrimental effects on endothelial function, which increases coronary tone during preservation and after reperfusion. The severe vasoconstriction and tissue edema result in damage to the coronary microcirculation. The purpose of this study was to determine whether hypothermic low-pressure continuous coronary perfusion technique with oxygenated University of Wisconsin solution containing a selective endothelin-A receptor antagonist (FR139317) would increase the effectiveness of the perfusion technique and improve postischemic cardiac function, both minimizing tissue edema and suppressing vasoconstriction. ⋯ We concluded that hypothermic low-pressure continuous coronary perfusion technique with oxygenated UW solution containing endothelin-A receptor antagonist (FR139317) maintained coronary circulation by suppressing tissue edema and vasoconstriction during preservation, which improved postischemic functional recovery.