[Feasibility of combination mapping utilizing a duo-decapolar electrode catheter and the CARTO system for incisional reentrant atrial tachycardia with cycle length alternation: a case report].

A 43-year-old woman had undergone patch closure operation for atrial septal defect 27 years ago. She was referred to our hospital for evaluation of frequent palpitations since 1 year ago. Electrophysiological study was performed with recording of the coronary sinus, His bundle, and low lateral right free wall electrography utilizing a steerable duo-decapolar electrode catheter(Livewire, Daig). Supraventricular tachycardia with cycle length alternation of 300 and 320 msec similar to atrial flutter was reproducibly provoked by burst pacing from the coronary sinus. During the supraventricular tachycardia, abnormal atrial potentials occurred in the low lateral right free wall region with very low amplitude and splitting potentials. The cycle length alternation of the supraventricular tachycardia depended on the occurrence of the splitting potentials, that is, the splitting potentials were present during the supraventricular tachycardia with a long cycle and the splitting potentials were absent during the supraventricular tachycardia with a short cycle. This phenomenon suggested that the splitting potentials resulted from 2:1 functional intra-atrial local conduction block. In addition, during sinus rhythm the abnormal electrograms revealed fractionated activity. Thus, these findings strongly imply that the supraventricular tachycardia is due to a macro-reentrant right atrial tachycardia utilizing an anatomical obstacle caused by the atrial septal defect operation as a central area, namely incisional reentrant atrial tachycardia. Three-dimensional electroanatomical mapping using the CARTO system(Biosense-Webster) was conducted to investigate whether the low lateral right free wall area possessed the critical isthmus essential to the reentry circuit. Electroanatomical mapping revealed that the very low amplitude potentials and the splitting potentials corresponded to the scars and the functional conduction block area detected by mapping using the multipolar catheter, respectively. According to the propagation mapping, the incisional reentrant atrial tachycardia slowly conducted the channel created by multiple neighboring scars clockwise and the alternation of the tachycardia cycle length was dependent on the development of the functional local intra-atrial conduction block within the channel. An approximately 1.5 cm successful linear lesion was created by radiofrequency catheter ablation to transect the isthmus based on the electroanatomical mapping findings. Afterwards, the incisional reentrant atrial tachycardia could not be induced by burst stimuli from the coronary sinus even under administration of isoproterenol. The use of three dimensional electroanatomical mapping(CARTO system) to evaluate the reentry circuit after the detection of abnormal potentials by using multipolar catheter in advance is a very useful method to determine optimal target site of ablation for a patient with incisional reentrant atrial tachycardia.