Biomedical Engineering Reference
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[13] A.V. Hill, The heat of shortening and the dynamic constants of muscle, Proc. R. Soc. London (Biol.) 126
(1939) 136.
[14] J.D. Humphrey, F.C. Yin, A new constitutive formulation for characterizing the mechanical behavior of soft
tissues, Biophys. J. 52 (1987) 563.
[15] J.D. Humphrey, F.C. Yin, Biaxial mechanical behavior of excised epicardium, J. Biomech. Eng. 110 (1988) 349.
[16] J.D. Humphrey, F.C. Yin, Biomechanical experiments on excised myocardium: theoretical considerations,
J. Biomech. 22 (1989) 377.
[17] J.D. Humphrey, R.K. Strumpf, F.C. Yin, Determination of a constitutive relation for passive myocardium:
II. Parameter estimation, J. Biomech. Eng. 112 (1990) 340.
[18] J.D. Humphrey, R.K. Strumpf, F.C. Yin, Determination of a constitutive relation for passive myocardium:
I. A new functional form, J. Biomech. Eng. 112 (1990) 333.
[19] J.D. Humphrey, R.K. Strumpf, F.C. Yin, Biaxial mechanical behavior of excised ventricular epicardium, Am.
J. Physiol. 259 (1990) H101.
[20] W.C. Hunter, J.S. Janicki, K.T. Weber, A. Noordergraaf, Systolic mechanical properties of the left ventricle.
Effects of volume and contractile state, Circ. Res. 52 (1983) 319.
[21] C.S.F. Lee, L. Talbot, A fluid mechanical study on the closure of heart valves, J. Fluid Mech. 91 (1979) 41.
[22] R.B. Panerai, A model of cardiac muscle mechanics and energetics, J. Biomech. 13 (1980) 929.
[23] C.S. Peskin, Numerical analysis of blood flow in the heart, J. Comp. Phys. 25 (1977) 220.
[24] C.S. Peskin, A.W. Wolfe, The aortic sinus vortex, Fed. Proc. 37 (1978) 2784.
[25] J.G. Pinto, Y.C. Fung, Mechanical properties of the heart muscle in the passive state, J. Biomech. 6 (1973) 597.
[26] H. Suga, K. Sagawa, Mathematical interrelationship between instantaneous ventricular pressure-volume ratio
and myocardial force-velocity relation, Ann. Biomed. Eng. 1 (1972) 160.
[27] H. Suga, K. Sagawa, A.A. Shoukas, Load independence of the instantaneous pressure-volume ratio of the
canine left ventricle and effects of epinephrine and heart rate on the ratio, Circ. Res. 32 (1973) 314.
[28] H. Suga, K. Sagawa, Instantaneous pressure-volume relationships and their ratio in the excised, supported
canine left ventricle, Circ. Res. 35 (1974) 117.
[29] H. Suga, A. Kitabatake, K. Sagawa, End-systolic pressure determines stroke volume from fixed end-diastolic
volume in the isolated canine left ventricle under a constant contractile state, Circ. Res. 44 (1979) 238.
[30] S. Winegrad, Calcium release from cardiac sarcoplasmic reticulum, Annu. Rev. Physiol. 44 (1982) 451.
[31] S. Winegrad, Mechanism of contraction in cardiac muscle, Int. Rev. Physiol. 26 (1982) 87.
[32] S. Winegrad, Endothelial cell regulation of contractility of the heart, Annu. Rev. Physiol. 59 (1997) 505.
[33] A.Y. Wong, P.M. Rautaharju, Stress distribution within the left ventricular wall approximated as a thick
ellipsoidal shell, Am. Heart J. 75 (1968) 649.
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