Force-length area is closely correlated with oxygen consumption (r = 0.94-0.98) in ferret papillary muscle, independent of the mode of contraction.
Force-length area correlates closely with oxygen consumption in ferret papillary muscle, suggesting it may be the best mechanical index for calculating regional oxygen consumption, though the time-varying elastance model may not fully describe cardiac muscle energetics during isometric contraction.
Estimación del efecto: r = 0.94-0.98
The ventricular systolic pressure-volume area correlates well with myocardial oxygen consumption. However, in isolated muscle preparations, there are experimental data based on both mechanical and energetic measurements that suggest that the pressure-volume area concept may not obtain. In the present study, force-length area, the analog of pressure-volume area for a linear muscle, was examined in the ferret papillary muscle preparation under a wide range of loading conditions. There were two major findings: first, force-length area is closely correlated with oxygen consumption (r = 0.94-0.98); this correlation is better than those for such other indexes as peak force and force-time integral. Furthermore, this relation of oxygen consumption with force-length area is independent of the mode of contraction (isometric or shortening), while the relations with the other indexes are not. Second, quick release imposed after end-systole during isometric contraction was found to curtail oxygen consumption. The first finding, the optimal correlation of force-length area with oxygen consumption, suggests both that the correlation of pressure-volume area with oxygen consumption on the ventricular level arises from a basic property of cardiac muscle and that force-length area may be the best mechanical index to use in calculating regional oxygen consumption for a ventricular segment. The second finding, however, suggests that the time-varying elastance model, on which the concepts of pressure-volume area and force-length area are based, may not provide a complete description of the mechanical basis of cardiac muscle energetics, especially during the isometric contraction.
Hisano et al. (Tue,) conducted a other in Cardiac muscle energetics. Force-length area measurement vs. Peak force and force-time integral was evaluated on Correlation with oxygen consumption (r = 0.94-0.98). Force-length area is closely correlated with oxygen consumption (r = 0.94-0.98) in ferret papillary muscle, independent of the mode of contraction.
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