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Dynamic myocardial contractile parameters from left ventricular pressure-volume measurements

¹Department of Veterinary and Comparative Anatomy, Pharmacology, and Physiology, College of Veterinary Medicine, Washington State University, Pullman, Washington; and ²Department of Bioengineering, University of Pittsburgh, Pennsylvania

Submitted 10 October 2004 ; accepted in final form 8 December 2004

A new dynamic model of left ventricular (LV) pressure-volume relationships in beating heart was developed by mathematically linking chamber pressure-volume dynamics with cardiac muscle force-length dynamics. The dynamic LV model accounted for >80% of the measured variation in pressure caused by small-amplitude volume perturbation in an otherwise isovolumically beating, isolated rat heart. The dynamic LV model produced good fits to pressure responses to volume perturbations, but there existed some systematic features in the residual errors of the fits. The issue was whether these residual errors would be damaging to an application where the dynamic LV model was used with LV pressure and volume measurements to estimate myocardial contractile parameters. Good agreement among myocardial parameters responsible for response magnitude was found between those derived by geometric transformations of parameters of the dynamic LV model estimated in beating heart and those found by direct measurement in constantly activated, isolated muscle fibers. Good agreement was also found among myocardial kinetic parameters estimated in each of the two preparations. Thus the small systematic residual errors from fitting the LV model to the dynamic pressure-volume measurements do not interfere with use of the dynamic LV model to estimate contractile parameters of myocardium. Dynamic contractile behavior of cardiac muscle can now be obtained from a beating heart by judicious application of the dynamic LV model to information-rich pressure and volume signals. This provides for the first time a bridge between the dynamics of cardiac muscle function and the dynamics of heart function and allows a beating heart to be used in studies where the relevance of myofilament contractile behavior to cardiovascular system function may be investigated.

heart function; muscle; mathematical model; cardiac fiber; force

This article has been cited by other articles:

				K. B. Campbell, A. M. Simpson, S. G. Campbell, H. L. Granzier, and B. K. Slinker Dynamic left ventricular elastance: a model for integrating cardiac muscle contraction into ventricular pressure-volume relationships J Appl Physiol, April 1, 2008; 104(4): 958 - 975. [Abstract] [Full Text] [PDF]