Two-dimensional echocardiography validated the presence of left ventricular torsion in intact dogs, yielding a shortening to torsion ratio of 2.31 ± 0.23 rad-1, closely matching the model's 2.4 rad-1.
Absolute Event Rate: 2.31% vs 2.4%
Torsion of the left ventricle (LV) is associated with rotation of the apex with respect to the base around the long axis of the LV. A mathematical model of LV mechanics, which relates torsion to transmural distribution of fibre shortening, was evaluated with two-dimensional echocardiography in nine anaesthetised closed-chest dogs. Torsion was calculated as the difference between the angles of rotation (radians) of echo-derived transverse cross-section projections of the LV obtained at the mitral valve and low papillary level, divided by the axial distance between these projections measured in a long-axis cross-section, and multiplied by the outer radius in a mid-papillary transverse projection of the LV. A shortening to torsion ratio (STR) was defined as the ratio of inner wall shortening to torsion occurring during ejection. In a series of 11 measurements, each based on frame-to-frame analysis of 15 cardiac cycles, STR was found to be 2.31 +/- 0.23 rad-1 (mean +/- SD), whereas the mathematical model predicted a STR value of 2.4 rad-1 over a wide range of preload, afterload and contractility levels. We conclude that two-dimensional echocardiography validates the presence of torsion in the normal canine left ventricle, as predicted by the model of left ventricular mechanics.
Arts et al. (Thu,) conducted a other in Normal canine left ventricle (n=9). Two-dimensional echocardiography vs. Mathematical model of LV mechanics was evaluated on Shortening to torsion ratio (STR). Two-dimensional echocardiography validated the presence of left ventricular torsion in intact dogs, yielding a shortening to torsion ratio of 2.31 ± 0.23 rad-1, closely matching the model's 2.4 rad-1.