Abstract
The effect of the left ventricular (LV) regional wall motion during isovolumetric relaxation period (IRP) were studied in 9 patients with old anteroseptal myocardial infarction (OMI) and 8 normal subjects (NOR). There were no significant differences in heart rate, peak LV systolic pressure and peak (+) dP/dt between the groups. LV cavity was divided into the anterior and inferior sides by a long axis, which was equally divided with 3 perpendicular lines, creating 4 areas in each side. The sums of the 2 middle areas in each side were defined as Aa and Ab, respectively. During IRP the pattern of (-)dP/dt at the upstroke phase was convex-downward in OMI, but convex-upward in NOR. Time constant (T) was significantly prolonged in OMI compared with NOR (50±9 vs 37±6 msec; p<0.01). On NOR, Aa increased significantly after 33.4 msec from peak (-) dP/dt, while Ab remained unchanged. In OMI, Ab increased after 50.1 msec from peak (-) dP/dt, anterior wall by the active expansion of the inferior. Such asynchronous LV wall motions during IRP might impair LV relaxation and influence the upstroke pattern of (-) dP/dt.
