Varying external Ca2+ concentrations showed that tension redevelopment kinetics in intact rat cardiac muscle are influenced by Ca2+ activation, with a close relationship to tension (r=0.88; P<0.001).
In intact cardiac muscle, tension redevelopment kinetics are influenced by the level of Ca2+ activation, contrasting with previous findings and suggesting a role in myocardial tension rise during the cardiac cycle.
Effect estimate: r = 0.88
p-value: p=< 0.001
The goal of this study was to determine whether Ca2+ plays a role in regulating tension development kinetics in intact cardiac muscle. In cardiac muscle, this fundamental issue of Ca2+ regulation has been controversial. The approach was to induce steady-state tetanic contractions of intact right ventricular trabeculae from rat hearts at varying external Ca2+ concentrations (Ca2+) at 22 degreesC. During tetani, cross bridges were mechanically disrupted and the kinetics of tension redevelopment were assessed from the rate constant of exponential tension redevelopment (ktr). There was a relationship between ktr and external Ca2+ that was similar in form to the relationship between tension and Ca2+. Thus a close relationship also existed between ktr and tension (r = 0.88; P < 0. 001); whereas at maximal tetanic tension (saturating cytosolic Ca2+), ktr was 16.4 +/- 2.2 s-1 (mean +/- SE, n = 7), at zero tension (low cytosolic Ca2+), ktr extrapolated to 20% of maximum (3.3 +/- 0.7 s-1). Qualitatively similar results were obtained using different mechanical protocols to disrupt cross bridges. These data demonstrate that tension redevelopment kinetics in intact cardiac muscle are influenced by the level of Ca2+ activation. These findings contrast with the findings of one previous study of intact cardiac muscle. Activation dependence of tension development kinetics may play an important role in determining the rate and extent of myocardial tension rise during the cardiac cycle in vivo.
Baker et al. (Tue,) conducted a other in Intact cardiac muscle tension development (n=7). Varying external Ca2+ concentrations was evaluated on Kinetics of tension redevelopment (ktr) (r = 0.88, p=< 0.001). Varying external Ca2+ concentrations showed that tension redevelopment kinetics in intact rat cardiac muscle are influenced by Ca2+ activation, with a close relationship to tension (r=0.88; P<0.001).