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lüll Heart failure and Starling s Law of the heart ter Keurs HECan J Cardiol 1996[Oct]; 12 (10): 1047-57Coronary artery disease and ischemic myocardial damage form the most common cause of failure of the heart to pump enough blood for oxygenation of the body at a healthy blood pressure and at a low pressure in the veins. This paper gives an overview of the mechanisms involved in excitation-contraction coupling which are important to control of the force of the heartbeat. The inability of the heart in failure to eject a sufficient amount of blood in order to meet the needs of the body is thought to result from molecular changes in cardiac cells causing decreased active (systolic) force and impaired (diastolic) relaxation together with a greater stiffness of the remodelled ventricular wall. The failure to generate a forceful contraction is in part a consequence of derailment of the processes in the failing cardiac cells to manipulate calcium ions, despite the increased stimulus from nervous and hormone systems to enhance cardiac performance. By lack of adequate release and uptake of calcium ions, the amount of mechanical work that can be put out by the heart muscle is diminished and the heart may fail. Uptake of calcium ions by the intracellular store-the sarcoplasmic reticulum-is impaired in congestive heart failure probably as result of inadequate gene expression. In consequence, the amount of calcium that is released during each heartbeat is less than normal, thus force is reduced; in addition, the positive response of force to increased heart rate is lost. In normal heart muscle, the response of the contractile filaments to calcium ions depends strongly on sarcomere length thus explaining Starling's Law of the heart. Recent evidence suggests that this sensitivity is largely lost in congestive heart failure thereby reducing the effectiveness of stretch of cardiac cells on the mechanical output. The reduction of the maximal velocity of shortening of the cardiac sarcomere in heart failure is not well understood, but may in part be related to changes in the internal load as a result of changes in visco-elastic components of the myocardium Lastly, the effect of longstanding sympathetic drive to the heart during the development of heart failure induces a loss of sensitivity of the myocardium to catecholamines by loss of beta 1 receptors and partial uncoupling of the beta receptors from production of cyclic AMP; hence the effect of sympathetic activation is diminished and the heart has to rely more on Starling's Law. Increase of the filling pressure of the left ventricle may in part accommodate the ongoing demands of the body. However, in the case of a stenosed coronary arterial system, the increased end-diastolic pressure carries the substantial risk of aggravating pre-existent myocardial ischemia.|Calcium/physiology[MESH]|Heart Failure/*physiopathology[MESH]|Humans[MESH]|Models, Cardiovascular[MESH]|Myocardial Contraction/*physiology[MESH]|Sarcomeres/physiology[MESH] |