THE HEMODYNAMIC MANIFESTATION OF NORMAL MYOCARDIAL RELAXATION - A FRAMEWORK FOR EXPERIMENTAL AND CLINICAL-EVALUATION

The hemodynamic manifestation of normal myocardial relaxation. A frame work for experimental and clinical evaluation - Myocardial relaxation clinically manifests itself as left ventricular pressure (LVP) fall. T he transition from contraction to relaxation is the precise moment at which 81-84% of peak isometric force has developed or the equivalent t iming early during ejection. Defining the completion of relaxation and distinguishing relaxation from diastole appears merely semantic. Dias tole is not a passive phase of the cardiac cycle. During diastole mech anical left ventricular properties still change due to incomplete rela xation, due to creep and stress relaxation, and due to autoregulation by preload and by nitric oxide. Description of timing and rate of LVP fall may provide useful information on underlying cardiac diseases suc h as ischaemia and hypertrophy. This information will however only be reliable if systolic cardiac function and systolic load are normal, an d in the absence of a significant degree of nonuniformity such as indu ced by conduction disturbances or by regional myocardial ischemia. The various effects of load and nonuniformity on myocardial relaxation in the normal heart are reviewed. Coupling of timing and rate of LVP fal l are explained in terms of cross-bridge mechanics. Specific effects o f systolic pressure on LVP fall and their relation to systolic cardiac function are emphasized. These data constitute a conceptual framework for the analysis of myocardial relaxation in cardiovascular research and in the cardiac patient. Comparison of clinical and experimental da ta during manipulation of afterload should lead to an improved underst anding of clinical relaxation disturbances and to a therapeutic approa ch, which is relevant from the physiopathological point of view. LVP f all may provide useful and quantitative information on systolic LV fun ction if measurements are performed under different conditions of syst olic load. This information is similar to systolic pressure-volume rel ations, but can be performed with the sole use of a micromanometer in the LV cavity.