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The Journal of Thoracic and Cardiovascular Surgery, Vol 93, 324-336, Copyright © 1987 by The American Association for Thoracic Surgery and The Western Thoracic Surgical Association
PO Daily, TA Pfeffer, JB Wisniewski, TA Steinke, TB Kinney, WY Moores and WP Dembitsky
Currently, numerous methods are in use for myocardial hypothermia as a
myocardial preservation modality for cardiac operations. During cardiac
ischemia we have compared myocardial surface cooling with topical cold
saline (Group I, N = 9), crystalloid cardioplegia plus topical cold saline
(Group II, N = 8) and cardioplegia with a specially designed cooling jacket
(Group III, N = 8) in patients undergoing aortic or mitral valve
replacement, or both. Temperatures were assessed and recorded continuously
in standardized locations for the right and left ventricular epicardium and
endocardium. In Group I the rate of cooling was significantly slower than
in the other two groups. Also, excessive gradients were developed across
the left and right ventricular walls. In Group II the rate and depth of
cooling were adequate and initial temperature gradients were eliminated.
However, over the period of ischemia, significant rewarming occurred. In
Group III temperatures were reduced rapidly and uniformly and maintained at
or below 10 degrees C for the duration of the ischemic period. These
differences are statistically significant (p less than 0.05). For optimal
myocardial hypothermia, we recommend the following: separate cannulation of
the superior and inferior venae cavae with caval snares; venting of the
pulmonary artery (if inadequate, pulmonary vein occlusion or direct left
atrial venting); induction of myocardial hypothermia with crystalloid or
cold blood cardioplegia; and maintenance of hypothermia by the cooling
jacket described herein. It is also desirable to continuously monitor
temperatures of the right and left ventricular endocardial and epicardial
surfaces.
ARTICLES
Clinical comparisons of methods of myocardial protection
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