Circulation, Vol 70, 233-241, Copyright © 1984 by American Heart Association
T Force, P Bloomfield, JE O'Boyle, SF Khuri, M Josa and AF Parisi
Regional left ventricular wall motion was evaluated by two-dimensional
echocardiographic techniques with fixed- and floating-axis analytical
algorithms in three groups of subjects: normal subjects (n = 15), patients
undergoing uncomplicated coronary artery bypass graft surgery (CABG) (n =
10), and patients suffering perioperative myocardial infarction (n = 27).
In patients undergoing uncomplicated CABG, fixed- axis analysis in the
apical four-chamber view produced septal hypokinesis indistinguishable from
the septal hypokinesis seen in patients with anterior myocardial
infarction. In addition, fixed-axis analysis enhanced lateral wall motion
so that patients with lateral myocardial infarction were classified as
normal. Floating-axis analysis corrected these limitations by (1) producing
regional left ventricular wall motion in the patients undergoing
uncomplicated CABG, which was identical to that in normal subjects, and (2)
producing regional left ventricular wall motion in patients with myocardial
infarction that was hypokinetic in segments corresponding to the
electrocardiographic area of involvement. In patients with new Q waves,
fixed-axis analysis detected abnormalities of regional left ventricular
wall motion in 24 of 34 (71%) electrocardiographically involved regions but
also classified 44 of 100 segments in uncomplicated patients as abnormal.
Floating-axis analysis detected regional left ventricular wall motion
abnormalities in 30 of 34 patients (88%; p less than .05 vs fixed-axis
analysis) and only 15 of 100 segments in patients undergoing uncomplicated
CABG were classified as abnormal (p less than .001 vs fixed-axis analysis).
We conclude that floating-axis analysis is a more accurate and clinically
relevant method of evaluating regional left ventricular wall motion in
patients undergoing CABG who suffer myocardial infarction as a
perioperative complication.
ARTICLES
Quantitative two-dimensional echocardiographic analysis of regional wall motion in patients with perioperative myocardial infarction
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