Effects of pericardial constraint on left ventricular mechanoreceptor activity in cats.

BACKGROUND: The purpose of this study was to assess the effect of pericardial constraint on the activity of left ventricular (LV) mechanoreceptors with nonmyelinated vagal afferents. METHODS AND RESULTS: Single-unit activity of cervical vagal afferents (conduction velocity, 1.6 +/- 0.5 m/s) was recorded in six cats anesthetized with alpha-chloralose. Discharge frequency during diastole (DFdiastole) and systole (DFsystole) was determined after correction for conduction delay of the nerve action potential. When the pericardium was closed and LV end-diastolic pressure (LVEDP) was approximately 5 mm Hg, DFdiastole and DFsystole were 1.3 +/- 1.0 and 0.3 +/- 0.1 impulses per second, respectively. Volume expansion increased LVEDP, LV transmural LVEDP, and segment length and was associated with a significant increase in DFdiastole. At a given LVEDP, DFdiastole was significantly greater in the absence of the pericardium than with the pericardium closed. Removal of the pericardium increased the slope of the relation between DFdiastole and intracavitary LVEDP but did not alter the slope of the relations between DFdiastole and transmural LVEDP and LV segment length. CONCLUSIONS: These results suggest that, rather than the absolute value of intracavitary LVEDP, transmural LVEDP and distension appear to be more important determinants of diastolic LV mechanoreceptor activity and that pericardial constraint may attenuate mechanoreceptor activity by limiting cardiac distension.

Regional left ventricular systolic function in relation to the cavity geometry in patients with chronic right ventricular pressure overload. A three-dimensional tagged magnetic resonance imaging study.

BACKGROUND: Distortion of the left ventricular (LV) cavity in patients with right ventricular pressure overload (RVPO) is well known. However, no direct measurements of regional myocardial function in terms of myocardial shortening and wall thickening are available; therefore, exactly how RVPO disturbs LV regional performance remains unclear. By using three-dimensional (3D) tagged magnetic resonance imaging, we were able to measure regional systolic function directly. Our objective was to study the relation between the distortion of the LV circular shape and regional LV function. METHODS AND RESULTS: In nine patients with RVPO and six healthy volunteers, four parallel short-axis images (with 12 radial tags) and two mutually orthogonal long-axis images (with four parallel tags) were generated, and endocardial and epicardial borders were manually traced. By integration of the short- and long-axis images, 3D reconstruction of the LV tracking points from end diastole to end systole was obtained. Data from the midventricular two short-axis image slices were analyzed. These were then divided into anterior, lateral, posterior, and septal regions. Circumferential and longitudinal shortening were then calculated from the endocardial and epicardial tag intersection points. Wall thickness and thickening were calculated by the 3D volume-element approach. An eccentricity index (EI), the ratio of septum-to-free-wall to anteroposterior diameters, was used to describe the shape of the LV cavity. The regional curvature was also measured. The RVPO group was characterized by flattening of the septum and LV lateral wall, decreased EI reflecting the distorted LV shape, altered distribution of endocardial circumferential shortening, and preserved ejection fraction. Changes in EI closely correlated with the septal curvature. The EI was smaller at end systole, reflecting further shape distortion relative to end diastole. Reduced myocardial performance, as measured by wall thickening and circumferential and longitudinal shortening fractions, was observed for the septum. A reduction in endocardial circumferential shortening of the septal and lateral walls was directly related to the end-systolic EI. In addition, whereas for healthy subjects a linear relation between area ejection fraction and endocardial circumferential shortening was observed, in RVPO patients a curvilinear (quadratic) relation was observed. CONCLUSIONS: In patients with RVPO, compared with healthy subjects, the septal function was reduced, as evidenced by reduced thickening and shortening fractions. The distortion in LV cavity at end systole due to the flattening of the septum contributes to preserved systolic ventricular function and nonuniform distribution in endocardial circumferential shortening.

The dependence of the time constant of left ventricular isovolumic relaxation (tau) on pericardial pressure.

The purpose of this study was to investigate the dependence of tau, the time constant of left ventricular (LV) isovolumic relaxation, on pericardial pressure and to compare values of tau as determined by the methods of previous investigators and by a standard exponential curve fit. All of the more recent methods involve an additional parameter--the pressure to which the exponential relaxation finally declines (PB, the pressure intercept in the method of Craig and Murgo and the asymptote in the exponential fits). An additional purpose of the study was to determine the relation of these parameters to pericardial pressure. In eight closed-chest anesthetized dogs, tau was calculated from intracavitary (Plv) and transmural LV pressure (Plv = Plv-Pper) by each method as pericardial (Pper) and LV end-diastolic pressure were changed by pericardial infusion and intravenous volume loading. The time constant determined by the method of Weiss et al was dependent on pericardial pressure; the time constants determined by the other methods were not. PB and the asymptotes were found to be similar and to increase almost equally with pericardial pressure. When pericardial pressure was zero, these values were approximately -20 mm Hg. Thus, both these parameters seem to indicate the same baseline pressure, a pressure that increases pari passu with pericardial pressure. Reported changes in the value of tau calculated from intracavitary LV pressure by the method of Weiss et al may reflect factors other than changes in LV diastolic function.