Circulation, Vol 73, 268-275, Copyright © 1986 by American Heart Association
LE Ginzton, R Conant, M Brizendine, T Thigpen and MM Laks
Twenty-five healthy adults underwent subcostal-view, four-chamber two-
dimensional echocardiographic examination while upright at rest and at the
peak of maximal bicycle exercise. The purpose of the study was to determine
whether the variability in regional left ventricular endocardial motion,
previously demonstrated to be present at rest, persisted at peak exercise.
The rest and exercise end-diastolic and end- systolic endocardial contours
were visually identified, digitized, and divided into 32 radial segments
after realignment by the computer. At rest there was similar percent
segmental area reduction for the septum (segments 1 to 12) (54 +/- 4%, mean
+/- 1 SD), apex (segments 13 to 20) (67 +/- 3%), and lateral wall (segments
21 to 32) (67 +/- 8%). At peak exercise the percent area reduction
increased significantly: septum 84 +/- 5%, apex 88 +/- 2%, lateral wall 83
+/- 6% (p less than .001 compared with rest for all areas). However, there
was considerable variability in percent area reduction between different
radial segments in the same individual. At rest the difference between
minimal and maximal percent area reduction within the same individual was
49 +/- 17 percentage units (range 21 to 83) and that at peak exercise was
32 +/- 17 percentage units (range 0 to 66). It is concluded that, because
the range of standard deviation of normal endocardial motion and the degree
of variability between radial segments in the same healthy individual are
significant, qualitatively determined "hypokinesis," as commonly assessed
clinically, may be a normal event. However, segmental akinesis or
dyskinesis, which occurred rarely at rest and never at peak exercise, must
be considered abnormal events.
ARTICLES
Quantitative analysis of segmental wall motion during maximal upright dynamic exercise: variability in normal adults
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