BACKGROUND: Recently, a novel electroanatomic mapping system enabling rapid and automatic acquisition of high-resolution maps has been introduced. Previous reports focused on system use in combination with a mini-basket catheter. However, a novel system-specific, magnet-enabled ablation catheter eliminates the need for the mini-basket catheter and can potentially reduce procedure complexity and cost. Here we present our first experience from two consecutive case series using both procedural settings. METHODS: In 14 consecutive patients (67±9years, 5 male) with paroxysmal (n=10) or persistent AF (n=4) undergoing de-novo (n=8) or repeat (n=6) AF ablation, left atrial electroanatomical maps were acquired with a mini-basket and in 22 patients (64±9years, 17 male) with paroxysmal (n=4) or persistent AF (n=18) undergoing de-novo (n=12) or repeat (n=10) AF ablation with the new ablation catheter. RESULTS: Both complete (7.9 [IQR 4.5-16.2] vs 18.8 [IQR 12.0-25.5] minutes, p=0.005) and partial maps (3.0 [IQR 2.0-4.6] vs 4.5 [IQR 2.0-6.0] minutes, p=0.014) acquired with mini-basket required significantly shorter mapping time and had higher point density: 8832±4809 vs 4460±3914 (p=0.014) and 2483±1774 vs 1111±1926 data points (p=0.002) in partial maps. However, procedural (201±52 vs 159±29min, p=0.004) and fluoroscopy time (33±11 vs 25±6min, p=0.005) was significantly higher in the mini-basket group. Procedural endpoints and complications rates were similar in both groups. CONCLUSION: The high-density mapping system can successfully be used with both mini-basket catheters and ablation catheters employed for electro-anatomic reconstruction of the left atrium. While mapping is faster and point density higher with the mini-basket, procedure and fluoroscopy times are longer. The clinical significance of those findings needs to be investigated in future and larger studies.
BACKGROUND: Recently, a novel electroanatomic mapping system enabling rapid and automatic acquisition of high-resolution maps has been introduced. Previous reports focused on system use in combination with a mini-basket catheter. However, a novel system-specific, magnet-enabled ablation catheter eliminates the need for the mini-basket catheter and can potentially reduce procedure complexity and cost. Here we present our first experience from two consecutive case series using both procedural settings. METHODS: In 14 consecutive patients (67±9years, 5 male) with paroxysmal (n=10) or persistent AF (n=4) undergoing de-novo (n=8) or repeat (n=6) AF ablation, left atrial electroanatomical maps were acquired with a mini-basket and in 22 patients (64±9years, 17 male) with paroxysmal (n=4) or persistent AF (n=18) undergoing de-novo (n=12) or repeat (n=10) AF ablation with the new ablation catheter. RESULTS: Both complete (7.9 [IQR 4.5-16.2] vs 18.8 [IQR 12.0-25.5] minutes, p=0.005) and partial maps (3.0 [IQR 2.0-4.6] vs 4.5 [IQR 2.0-6.0] minutes, p=0.014) acquired with mini-basket required significantly shorter mapping time and had higher point density: 8832±4809 vs 4460±3914 (p=0.014) and 2483±1774 vs 1111±1926 data points (p=0.002) in partial maps. However, procedural (201±52 vs 159±29min, p=0.004) and fluoroscopy time (33±11 vs 25±6min, p=0.005) was significantly higher in the mini-basket group. Procedural endpoints and complications rates were similar in both groups. CONCLUSION: The high-density mapping system can successfully be used with both mini-basket catheters and ablation catheters employed for electro-anatomic reconstruction of the left atrium. While mapping is faster and point density higher with the mini-basket, procedure and fluoroscopy times are longer. The clinical significance of those findings needs to be investigated in future and larger studies.
Authors: Gerhard Hindricks; Stanislav Weiner; Tom McElderry; Pierre Jaïs; William Maddox; Jose Ignacio Garcia-Bolao; Sang Yong Ji; Frederic Sacher; Stephan Willems; John Mounsey; Philippe Maury; Andreas Bollmann; Elizabeth Duffy; Giovanni Raciti; Roderick Tung; Tom Wong Journal: Europace Date: 2019-04-01 Impact factor: 5.214