Instantaneous pressure-volume relationship of right atrium during isovolumic contraction in canine heart.

We studied the contraction of the right atrium in an excised cross-circulated heart preparation. Atrial volume and instantaneous atrial pressure were measured in a water-filled balloon fitted in the spontaneously contracting right atrium. The relation of instantaneous pressure to volume was analyzed by collecting pressure data from multiple isovolumic contractions with different volumes but measured at multiple identical time points in the contraction cycle. The relation was found to be quasi-linear during most of atrial systole and diastole. A linear regression formula P(t) = K(t)[V- VD(t)] was therefore fitted to the data. K(t) and VD(t) of the regression formula are the slope and the volume axis intercept in the pressure-volume plane, respectively. When the atrium beat spontaneously at a regular sinus rhythm with no inotropic intervention. K(t) increased during systole and decreased during diastole, whereas VD(t) decreased during systole and increased during diastole. The average value of K was 13 +/- 1.7 (SE) mmHg . kg . ml-1 at the end of diastole and 33 +/- 0.02 (SE) mmHg . kg . ml-1 at the end of systole. The average value of VD was 0.303 +/- 0.017 (SE) ml . kg-1 at the end of diastole and 0.212 +/- .025 (SE) ml . kg-1 at the end of systole. Enhancement of contractility with epinephrine or Ca2+ significantly increased the value of K at the end of systole, but it did not significantly affect either K at the end of diastole or VD at the end of systole and diastole.