During acute volume loading in open-chest dogs, the percent increase in left atrial appendage dimensions was significantly greater than that of the atrial body dimension (p<0.05).
Does volume loading alter the dimensions and function of the left atrial appendage compared to the left atrial body in open-chest dogs?
The left atrial appendage has greater compliance than the atrial body and assists left ventricular filling during atrial contraction via a Frank-Starling mechanism.
p-value: p=<0.05
Although the left atrial appendage has a quite unique structure, its function remains unclear. To clarify the function of the left atrial appendage, changes in its anteroposterior, transverse and longitudinal dimensions, and in the anteroposterior dimension of the left atrial body were measured by a sonomicrometer during volume loading in open chest dogs. In the control state, fractional shortening of the transverse dimension of the appendage was greater than that of the atrial body. After dextran infusion, each dimension of the appendage and body, measured just before atrial contraction, increased curvilinearly. The percent increase in appendage dimensions was greater than that of the atrial body dimension (p < 0.05). Systolic shortenings of the appendage increased until mean left atrial pressure reached approximately 15 mmHg but after further pressure elevation, it decreased. In postmortem isolated hearts, the appendage volume was 17.2 +/- 4.4% of the whole left atrial volume. These findings indicate that the appendage has a considerable volume with a greater compliance and assists left ventricular filling during atrial contraction by a Frank-Starling mechanism.
Hondo et al. (Sun,) conducted a other in Normal (experimental volume loading) (n=10). Volume loading (6% dextran solution) vs. Control state (baseline before infusion) was evaluated on Percent increase in left atrial appendage dimensions versus left atrial body dimension just before atrial contraction (p=<0.05). During acute volume loading in open-chest dogs, the percent increase in left atrial appendage dimensions was significantly greater than that of the atrial body dimension (p<0.05).