Journal of Applied Physiology, Vol 55, Issue 2 569-577, Copyright © 1983 by American Physiological Society

ARTICLES

Regional left ventricular performance during normal and obstructed spontaneous respiration

J. L. Robotham, F. R. Badke, M. K. Kindred and M. K. Beaton

To clarify the effects of respiration on left ventricular (LV) dimensions and shortening, we studied chronically instrumented dogs with endocardial sonomicrometer crystals in the anterior-posterior (AP), septal to lateral (SL), and long axes (LA) following pericardiectomy. Ten anesthetized dogs were examined during spontaneous unobstructed respiration, partial inspiratory obstruction (PIO), and Mueller maneuvers (MM). During unobstructed inspiration, end-diastolic dimensions (EDD) demonstrated a significant increase in the AP and a similar decrease in the SL axis (i.e., noncongruent shape changes). During PIO only the SL EDD diminished significantly, while no significant changes occurred in any EDD during MM. Individual dogs also demonstrated noncongruent shape changes at end systole during inspiration. However, the end-systolic dimensions for the entire group demonstrated a significant increase in one dimension during each inspiratory mode with no significant changes in the other two axes suggesting an increased ventricular volume. Regional shortening declined only in the SL axis during both unobstructed respiration and PIO. Spontaneous sighs with large tidal volumes, yet smaller changes in pleural pressure than during the MM, were associated with marked noncongruent shape changes in both diastole and systole. We conclude that 1) estimates of LV volumes during respiration based on only one or two axes and assuming regional congruent shape changes may be misleading; and 2) lung volume changes can affect LV geometry independently of changes in pleural pressure.