ROTATIONAL DEFORMATION OF THE CANINE LEFT-VENTRICLE MEASURED BY MAGNETIC-RESONANCE TAGGING - EFFECTS OF CATECHOLAMINES, ISCHEMIA, AND PACING

Objective: The aim was to investigate the generation of rotation of th e left ventricular apex with respect to the base by magnetic resonance tagging, a non-invasive method of labelling the myocardium, in a cani ne model. Methods: 18 dogs were imaged at baseline and during: (1) ino tropic stimulation with dobutamine; (2) chronotropic stimulation with atrial pacing; (3) anterior wall ischaemia; (4) posterior wall ischaem ia; and (5) varying left ventricular activation site; six dogs underwe nt each intervention. Apical rotation of the apex (torsion) was quanti fied. The epicardium and the endocardium were considered separately, a s were the anterior and posterior walls. Results: Mean torsion of the epicardium [anterior 3.1(SEM 1.2)degrees, posterior 9.9(1.0)degrees] w as less than that of the endocardium [anterior 8.1(2.6)degrees, poster ior 14.9(2.0)degrees, p<0.05 for both]. Anterior torsion was less than posterior torsion for both the epicardium, p<0.05, and the endocardiu m, p<0.05. Dobutamine increased torsion of both the epicardium [anteri or 13.3(2.2)degrees, posterior 12.6(1.7)degrees, p<0.05 for both] and the endocardium [anterior 24.6(2.3)degrees, posterior 16.5(2.1)degrees , p<0.05 for both]. Atrial pacing at 160% baseline rate increased tors ion of both the anterior wall [epicardium 6.6(1.0)degrees, endocardium 11.3(1.2)degrees, p<0.05] and the posterior wall [epicardium 13.0(1.3 )degrees, endocardium 19.4(1.9)degrees, p<0.05]. Anterior wall ischaem ia reduced torsion of the anterior wall only [epicardium -2.0(1.0)degr ees, endocardium 6.7(2.3)degrees, both p<0.05]. Posterior wall ischaem ia reduced torsion of the posterior wall of the epicardium only [7.1(1 .2)degrees, p<0.05] but also reduced torsion of the anterior wall [epi cardium 0.7(1.0)degrees, endocardium 2.4(1.6)degrees, p<0.05 for both] . Altering the pattern of left ventricular activation by atrioventricu lar pacing reduced torsion of the posterior wall of the epicardium [6. 6(1.2)degrees, p<0.05] and of the anterior [3.6(1.9)degrees, p<0.05] a nd posterior [7.1(1.6)degrees, p<0.05] walls of the endocardium. Concl usions: Rotational deformation of the left ventricle is dependent on t he pattern of left ventricular activation and the contractile state. T hat a decrease in the contractile state in one area (by ischaemia) can cause a decrease in rotation in another suggests that this rotation d epends on the complex fiber arrangement of the whole ventricle.