Voltage-guided ablation targeting discrete bundles with large amplitude atrial electrograms reduced ablation time and recurrences for cavotricuspid isthmus-dependent atrial flutter.
Does voltage-guided ablation targeting discrete bundles improve efficiency and reduce recurrences compared to traditional continuous line ablation in patients with cavotricuspid isthmus-dependent atrial flutter?
Voltage-guided ablation targeting discrete bundles with large amplitude electrograms offers an efficient alternative to continuous line ablation for cavotricuspid isthmus-dependent atrial flutter.
Ablation of the cavotricuspid isthmus has become first-line therapy for "isthmus-dependent" atrial flutter. The goal of ablation is to produce bidirectional cavotricuspid isthmus block. Traditionally, this has been obtained by creation of a complete ablation line across the isthmus from the ventricular end to the inferior vena cava. This article describes an alternative method used in our laboratory. There is substantial evidence that conduction across the isthmus occurs preferentially over discrete separate bundles of tissue. Consequently, voltage-guided ablation targeting only these bundles with large amplitude atrial electrograms results in a highly efficient alternate method for the interruption of conduction across the cavotricuspid isthmus. Understanding the bundle structure of conduction over the isthmus facilitates more flexible approaches to its ablation and targeting maximum voltages in our hands has resulted in reduction of ablation time and fewer recurrences.
Jacobsen et al. (Thu,) conducted a review in isthmus-dependent atrial flutter. Voltage-guided ablation vs. Traditional complete ablation line was evaluated. Voltage-guided ablation targeting discrete bundles with large amplitude atrial electrograms reduced ablation time and recurrences for cavotricuspid isthmus-dependent atrial flutter.
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