Abstract
In humans, the isthmus in the low right atrium between the tricuspid annulus and the inferior vena cava or the coronary sinus ostium is a wellestablished target of catheter ablation of common atrial flutter. In the canine model of atrial flutter with a Y-shaped incision, the tricuspid annulus was thought to constitute the essential reentrant pathway. The present study was designed to determine whether the supravalvular tissue around the tricuspid annulus is essential to atrial flutter in the canine model with an intercaval obstacle on the basis of the results of radiofrequency ablation. Epicardial approach of radiofrequency ablation was tested in 4 groups of dogs. Group A (5 dogs): Single application of radiofrequency energy (20W) for 5sec to the mid right atrial free wall. Group B (9 dogs): One to two applications to the tricuspid annulus. A ligature was also placed encircling the tricuspid annulus from the supravalvular atrial tissue to the subvalvular ventricular tissue. Group C (9 dogs): Linear transverse applications to the mid right atrial free wall between the tricuspid annulus and the intercaval obstacle. Group D (10 dogs): The isthmus between the inferior vena cava and the tricuspid annulus was ablated. After the experiment, the heart was excised for anatomical and histological studies. Atrial flutter was never abolished in all dogs in Groups A and B. A ligature encircling the tricuspid annulus also failed to terminate atrial flutter in 2 dogs tested. In contrast, atrial flutter was successfully abolished in 6 dogs (67%) of Group C and in 7 dogs (70%) of Group D. Total energy delivered was significantly higher in Group C than in Group D (364±133 versus 139±65 joules, p<0.003). The total energy required for successful ablation was related to the cross sectional area of the ablation site (r=0.55, p<0.05). These results indicate that the tricuspid annulus is not an essential part of the reentrant pathway in the canine model of atrial flutter with an intercaval obstacle. The entire atrial tissue between the anatomical barriers could be involved in the reentrant pathway, and should therefore be ablated transmurally for successful ablation.
