The effects of left ventricular stretch versus cavity pressure on intramyocardial pressure

Objective: Since muscles, vessels and interstitial spaces are in close physical proximity in the heart wall, interstitial (i.e., intramyocardial) pressure (IMP) should be affected by the stresses of the vessels and/or the muscular tissue surrounding the interstitial spaces. Thus, we tested the hypothesis that increasing the stresses (or stiffness) of the surrounding tissues by muscle contraction or stretching-produced externally by stretching the LV cavity or internally by increasing coronary perfusion pressure-has a greater effect than LV cavity pressure per se on IMP. Methods: In isolated rabbit hearts we measured IMP with small (<10 mu m diam.) glass micropipettes while stretching the vessels (by changing coronary perfusion pressure) and the wall (by inflating a balloon in the left ventricle) during the passive state as well as during barium contracture. Results: With LV cavity pressure equal to 0 (balloon open to air) or equal to 30 mmHg, a 20 mmHg increase in perfusion pressure increased IMP by 3.6 and 5 mmHg, respectively, in the passive state and by 7.6 and 7.9 mmHg, respectively, in the contracted state. This 30 mmHg increase in LV pressure produced a significant but small (3-5 mmHg) increase in IMP in the passive state but no effect in the contracture stare. Conclusions: These results can be explained by a unifying concept in which stretching of the tissues surrounding the interstitial spaces-produced externally by increasing ventricular cavity size or internally by pressurizing vessels-but not LV cavity pressure per se is the major determinant of IMP. (C) 1997 Elsevier Science B.V.