Voltage gradient mapping guided ablation significantly decreased radiofrequency lesions to atrial flutter termination (P=0.001) and total radiofrequency time (P=0.001) compared to standard techniques.
Observational (n=46)
Does voltage gradient mapping-guided ablation improve procedural efficiency compared to standard linear ablation in patients with atrial flutter?
Voltage gradient mapping to target low-voltage bridges in the cavotricuspid isthmus significantly reduces radiofrequency lesions and ablation time compared to standard linear ablation for atrial flutter.
p-value: p=0.001
AIMS: To demonstrate that critical conduction within the cavotricuspid isthmus (CTI) can be directly visualized by voltage gradient mapping and facilitate efficient ablation compared to standard techniques. METHODS AND RESULTS: Group 1 (1 operator, n = 11) ablated based upon contact voltage measurements and voltage gradient mapping. Ablation targeted low-voltage bridges (LVBs) within the CTI. Repeat maps were obtained following ablation. Group 2 (operators 2, 3, and 4 n = 35) utilized electroanatomic navigation and ablated by the creation of linear lesions from the tricuspid valve to the inferior vena cava. Demonstration of bidirectional block (BDB) was required in both groups. LVB were associated with CTI conduction in all Group A patients. LVB ablation terminated flutter, or created BDB. Following ablation, CTI voltage connections were absent in all patients. Compared with Group B, Group A had less radiofrequency (RF) lesions to atrial flutter (AFL) termination (P = 0.001), less total RF lesions (P = 0.0001), and less total RF time (P = 0.001). Group 1 had no recurrent AFL whereas Group 2 had three recurrences. (follow-up median of 231 ± 181 days). CONCLUSION: (i) Voltage gradient mapping visualized regions of critical CTI conduction, (ii) ablation of LVB terminated AFL and resulted in BDB, (iii) repeat mapping confirmed the absence of trans-isthmus voltage, and (iv) Compared with standard ablation, voltage gradient mapping decreases total RF lesions, lesions to AFL termination, and total RF time. Use of voltage gradient mapping can facilitate successful AFL ablation.
Bailin et al. (Wed,) conducted a observational in Atrial flutter (n=46). Voltage gradient mapping guided ablation vs. Standard electroanatomic navigation and linear lesions was evaluated on Radiofrequency (RF) lesions to atrial flutter (AFL) termination (p=0.001). Voltage gradient mapping guided ablation significantly decreased radiofrequency lesions to atrial flutter termination (P=0.001) and total radiofrequency time (P=0.001) compared to standard techniques.