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The Journal of Thoracic and Cardiovascular Surgery, Vol 98, 498-505, Copyright © 1989 by The American Association for Thoracic Surgery and The Western Thoracic Surgical Association
HL Lazar, JF Plehn, EM Schick, D Dobnick and RJ Shemin
Although coronary artery bypass grafting effectively reduces the symptoms
of myocardial ischemia, its immediate effect on regional wall motion
dysfunction is not well defined. This intraoperative study was undertaken
to determine whether bypass grafting improves regional wall motion in areas
of preoperative ischemic dysfunction. In 17 patients undergoing coronary
bypass, short-axis echocardiograms were obtained with the chest open 30
minutes before and after cardiopulmonary bypass. Regional wall motion was
calculated quantitatively as the percent increase in segmental wall
thickness during systole, with 40% thickening or less defined as indicating
ischemic dysfunction. Qualitatively, it was evaluated by visual changes in
endocardial wall motion according to a graded score (0 = normal to 4 =
dyskinesia). Of the 136 segments studied, 44 (32%) had evidence of ischemic
dysfunction before coronary bypass. When regional wall motion was analyzed
in all 136 segments after coronary bypass, there was no significant change
in either quantitative indices (62% +/- 7% before grafting versus 58% +/-
6% after grafting) or qualitative indices (0.19 +/- 0.06 versus 0.17 +/-
0.06). However, in those segments with ischemic dysfunction before
grafting, there was a significant increase in quantitative indices of
regional wall motion after grafting (24% +/- 2% versus 50% +/- 5%; p less
than 0.02). By contrast, qualitative indices continued to show no
significant improvement (1.3 +/- 0.1 versus 1.05 +/- 0.2). We conclude that
coronary artery bypass grafting significantly improves areas of ischemic
regional wall dysfunction. These changes can be difficult to detect with
visual qualitative methods and are best analyzed by techniques assessing
changes in segmental wall thickness.
ARTICLES
Effects of coronary revascularization on regional wall motion. An intraoperative two-dimensional echocardiographic study
Department of Cardiothoracic Surgery, Boston University Medical Center, Mass.
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