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The Journal of Thoracic and Cardiovascular Surgery, Vol 92, 238-246, Copyright © 1986 by The American Association for Thoracic Surgery and The Western Thoracic Surgical Association
JM Burt and JG Copeland
The orthotopically transplanted heart undergoes several steps between
harvest from the donor and reperfusion in the recipient: cardioplegic
arrest and cooling, ischemia during the operation, in most cases a
preservation or storage period of varying duration, and reperfusion. Each
of these steps represents a period during which damage to the heart can
occur. In this study we have quantified the degree of damage sustained by a
donor heart during each of these steps. This objective was achieved by
evaluating the function of rabbit hearts via Langendorff procedures
following (Group 1) cooling and reperfusion; (Group 2) cardioplegic arrest,
cooling, and reperfusion; (Group 3) arrest, cooling, 1 hour of ischemia (5
degrees or 25 degrees C), and reperfusion; (Group 4) arrest, cooling, 24
hours of preservation, and reperfusion; and (Group 5) arrest, cooling, 24
hours of preservation, 1 hour of ischemia (25 degrees C), and reperfusion.
Comparisons were made between groups and to control hearts. Cooling and
reperfusing the heart (Group 1) led to no loss of function, although
recovery to precooling function levels required approximately 25 minutes.
Hearts that were arrested before cooling (Group 2) regained full function
without the slow recovery time. Hearts that were arrested, cooled, and made
ischemic at 5 degrees C (Group 3) recovered 95% of preischemic contractile
function: maximum systolic pressure and the maximum positive derivative of
the systolic pressure curve. No change in diastolic compliance was
detected. Hearts that were arrested, cooled, and made ischemic at 25
degrees C (Group 3) recovered 89% of preischemic contractile function
(maximum systolic pressure and the maximum positive derivative of the
systolic pressure curve). Again, no change in diastolic compliance was
detected. Hearts that were arrested, cooled, preserved for 24 hours, and
reperfused (Group 4) recovered 84% of control contractile function (maximum
systolic pressure and the maximum positive derivative of the systolic
pressure curve), whereas hearts that had the additional hour of ischemia at
25 degrees C (Group 5) recovered only 75% of control contractile function.
In the latter two groups diastolic compliance was also compromised. Group 4
had a 20% decrease in the volume required to reach 10 mm Hg, and Group 5
had a 26% decrease. Pressure-volume curves suggest a loss of contractility
and a loss of compliance in these hearts. These data indicate that while
significant damage occurred as a result of ischemia and reperfusion, this
damage was masked by the larger decrease in function occurring as a result
of the preservation period.
ARTICLES
Myocardial function after preservation for 24 hours
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