
doi: 10.1007/bf02476872
pmid: 5513383
The preload of the indiviuual myocardial fibers of the left ventricle, that is, the stress exerted upon the myocardial fibers at end-diastole, is calculated by means of a set of equations. The development of the equations was based on anatomical data referring to the shape of the left ventricle and the orientation of the myocardial fibers, as well as some assumptions of minor importance. Numerical solution of the equations shows that in general, the preload increases as one advances from the apex to the equator of the left ventricle and then it decreases as one advances toward the base. The preload also changes as one advances from the epicardium to the endocardium in such a way that one can distinguish three zones: one outer, or epicardial, with low preloads, one middle with high preloads and one inner, or endocardial, with low preloads. The physiological significance of the findings as well as the validity of the assumptions on which the theory was based are discussed.
Myofibrils, Heart Rate, Pressure, Ventricular Function, Stress, Mechanical, Models, Biological, Mathematics, Muscle Contraction
Myofibrils, Heart Rate, Pressure, Ventricular Function, Stress, Mechanical, Models, Biological, Mathematics, Muscle Contraction
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