• W Rudolph.
• Klinik für Herz- und Kreislauferkrankungen, Deutsches Herzzentrum, München.
• Herz. 1990 Jun 1;15(3):147-57.

AbstractVentricular dysfunction due to an abnormality of the heart which is associated with typical hemodynamic, renal and hormonal reactions, characterizes the clinical syndrome heart failure. The traditional definition of heart failure as the inability to pump an amount of blood sufficient to cover the metabolic needs of the body in the presence of adequate venous return, emphasizes mainly the reduction in cardiac output but not the increase in intracardiac pressures. Pressure or volume overload, decreased contractility, loss of muscle mass or restricted filling represent the most important pathological processes leading to heart failure. The disturbance of systolic ventricular function due to pressure or volume overload or diminished contractility is characterized by a decrease in the ejection fraction, the disturbance in diastolic ventricular function associated with restricted filling is characterized by elevated chamber stiffness. Decreased contractility is most commonly responsible for the development of heart failure. Impairment of diastolic ventricular function can only be regarded as the dominant mechanism leading to heart failure in the presence of a small noncompliant ventricle. Impairment of diastolic ventricular function in an enlarged heart is always associated with an impairment of systolic ventricular function and is, then, relegated to a subordinate role. Common causes of heart failure are coronary artery disease, hypertension, cardiomyopathies, valvular heart diseases and congenital heart diseases, for the incidence of which coronary artery disease is most frequently responsible. Most of these diseases lead to heart failure not via a single, but rather several of the specified pathophysiological processes. Possible mechanisms for loss of contractility include structural changes as well as alterations in excitation-contraction coupling. Possible mechanisms responsible for impaired diastolic ventricular function encompass, in addition to altered calcium flux, structural changes such as fibrosis and hypertrophy and factors such as asynchrony and abnormal loading conditions. With increasing derangement of cardiac function, there is recruitment of the compensatory mechanisms: hypertrophy of the cardiac muscle, Frank-Starling mechanism, activation of the sympathetic nervous system, the renin-angiotensin-aldosterone system and the arginine-vasopressin system. The goal is maintenance of adequate blood pressure and cardiac output whereby blood flow is redistributed in favor of the heart and brain and away from the skin, musculature and visceral organs. Activation of the neurohumoral system can lead to excessive vasoconstriction as well as sodium and water retention resulting in an undesired elevation of preload and afterload which, in turn, leads to further worsening of the heart failure.(ABSTRACT TRUNCATED AT 400 WORDS)

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