Functional Refractory Period of Cardiac Tissues

Abstract

In dogs anesthetized with pentobarbital, with the heart denervated, the adrenals ligated, and the S.A. node crushed, pairs of stimuli ( S₁– S₂) were applied to the auricle or ventricle, varying the delay between S₁ and S₂. When the auricle was stimulated, the following relations were measured: S₁– S₂: A₁– A₂; A₁– A₂; A₂– V₂; A₁– A₂; V₁– V₂. The corresponding curves for ventricular stimulation were also plotted. Calling R₁ and R₂ the responses at a given site, the S₁– S₁: R₁– R₂ curves usually showed a horizontal branch. This branch indicates that impulses stimulated at different moments in the refractory cycle may reach the recording site at the same moment of the cycle. A theorem is demonstrated which proves that the constancy of the R₁– R₂ interval cannot be explained merely on the basis of slowed conduction rate of R₂, but implies that the impulse stops at some point in the conducting path. For A-A or V-V propagation this stop is due to delay in the initiation. For A-V or V-A propagation, the stop occurs at some site in the intermediate conducting tissues. The stop in these cases is due to the existence of a prolonged functional refractory period (F.R.P.).