Higher myocardial strain rates during isovolumic relaxation phase than during ejection characterize acutely ischemic myocardium

OBJECTIVES The aim of this study was to define an index that can differentiate normal from ischemic myocardial segments that exhibit postsystolic shortening (PSS). BACKGROUND Identification of ischemia based on the reduction of regional systolic function is sometimes challenging because other factors such as normal nonuniformity in contraction between segments, tethering effect, pharmacologic agents, or alterations in loading conditions can also cause reduction in regional systolic deformation. The PSS (contraction after the end of systole) is a sensitive marker of ischemia; however, inconsistent patterns have also been observed in presumed normal myocardium. METHODS Twenty-eight open-chest pigs underwent echocardiographic study before and during acute myocardial ischemia induced by coronary artery occlusion. Ultrasound-derived myocardial longitudinal strain rates were calculated during systole (S-SR), isovolumic relaxation (IVRSR), and rapid filling (E-SR) phases in both ischemic and normal myocardium. Systolic strain (epsilon(sys)) and postsystolic strain (epsilon(ps)) were calculated by integrating systolic and postsystolic strain rates, respectively. RESULTS During ischemia, S-SR, E-SR and epsilon(sys) in ischemic segments were significantly lower (in magnitude) than in nonischmic segments or at baseline. However, some overlap occurred between ischemic and normal values for all three parameters. At baseline, 18 of 28 animals had negative IVRSR (i.e., PSS) in at least one segment. During coronary artery occlusion, IVRSR became negative and larger in magnitude than S-SR in all ischemic segments. The IVRSR/S-SR and epsilon(PS) best differentiated ischemic from nonischemic segments. CONCLUSIONS In the presence of reduced regional systolic deformation, a higher rate of PSS than systolic shortening identifies acutely ischemic myocardium. (J Am Coll Cardiol 2002;40:1487-94) (C) 2002 by the American College of Cardiology Foundation.