Myocardial stiffness derived from end-systolic wall stress and logarithm of reciprocal of wall thickness. Contractility index independent of ventricular size.

Abstract

The slope of the end-systolic pressure-volume relation (ESPVR) is useful in assessing acute changes in contractile state. However, a limitation of ESPVR is that its slope decreases progressively as ventricular size increases without this change necessarily indicating a change in contractile state. In this respect, an index of contractile function that is independent of ventricular size would have an obvious advantage. The exponential constant (k) of the end-systolic relation between wall stress (sigma) and the natural logarithm of the reciprocal of wall thickness [ln(1/H)], sigma = Cekln(1/H), corresponds to the stiffness constant of the myocardium (kSM), a contractile index that should be independent of ventricular size and geometry. To examine the size independence of kSM, we studied left ventricular kSM during beta-blockade (to stabilize inotropic state) in 25 normal dogs with greatly differing ventricular sizes whose end-diastolic volumes ranged from 14 to 82 ml. The kSM was nearly constant (3.6 +/- 0...