The isovolumic index: A new noninvasive approach to the assessment of left ventricular function in man

Abstract

Both a high ratio of preejection period (PEP) to left ventricular ejection time (LVET) and a prolonged isovolumic relaxation time are associated with left ventricular dysfunction. In pilot studies in instrumented dogs, we measured a combined isovolumic index, defined as (isovolumic contraction + isovolumic relaxation time)/LVET and found an inverse correlation with changes in fractional shortening. To test the utility of this index in human subjects, we used the electrocardiogram, mitral valve (MV) echogram, and indirect carotid arterial tracing to calculate isovolumic index as (time from R wave to MV opening — LVET)/LVET × 100%. Normal subjects had isovolumic index values that averaged 24 ± 7% (standard deviation), in contrast to patients with cardiomyopathy who averaged 5 ±14% ( p < 0.001 versus normal values) and patients with coronary artery disease who averaged 40 ±15% (p < 0.001 versus normal values and patients with cardiomyopathy). All normal subjects had an isovolumic index of < 32% and all patients with cardiomyopathy had values >32%. Of patients with coronary artery disease, 72% (21 of 29) had an isovolumic index >32%. An isovolumic index >32% identified 20 of 22 patients (91%) with a reduced ejection fraction and 12 of 14 (86% ) with a segmental wall motion abnormality, and it was a more sensitive marker of these abnormalities than abnormal E point-septal separation. In 6 patients with coronary artery disease who had simultaneous echocardiograms and measurements of left ventricular pressure by micromanometer tip catheter, the time constants of isovolumic pressure decrease were uniformly increased in association with an isovolumic index >32%. In contrast, all had normal PEP/LVET ratios. The isovolumic index is thus a sensitive, potentially useful noninvasive marker of left ventricular dysfunction that is easily obtained from the routine echocardiogram.