Abstract
BackgroundSubstrate mapping has highlighted the importance of targeting diastolic conduction channels and late potentials during ventricular tachycardia (VT) ablation. State-of-the-art multipolar mapping catheters have enhanced mapping capabilities. The purpose of this study was to investigate whether long-term outcomes were improved with the use of a HD Grid mapping catheter combining complementary mapping strategies in patients with structural heart disease VT.MethodsConsecutive patients underwent VT ablation assigned to either HD Grid, Pentaray, Duodeca, or point-by-point (PbyP) RF mapping catheters. Clinical endpoints included recurrent anti-tachycardia pacing (ATP), appropriate shock, asymptomatic non-sustained VT, or all-cause death.ResultsSeventy-three procedures were performed (33 HD Grid, 22 Pentaray, 12 Duodeca, and 6 PbyP) with no significant difference in baseline characteristics. Substrate mapping was performed in 97% of cases. Activation maps were generated in 82% of HD Grid cases (Pentaray 64%; Duodeca 92%; PbyP 33% (p = 0.025)) with similar trends in entrainment and pace mapping. Elimination of all VTs occurred in 79% of HD Grid cases (Pentaray 55%; Duodeca 83%; PbyP 33% (p = 0.04)). With a mean follow-up of 372 ± 234 days, freedom from recurrent ATP and shock was 97% and 100% respectively in the HD Grid group (Pentaray 64%, 82%; Duodeca 58%, 83%; PbyP 33%, 33% (log rank p = 0.0042, p = 0.0002)).ConclusionsThis study highlights a step-wise improvement in survival free from ICD therapies as the density of mapping capability increases. By using a high-density mapping catheter and combining complementary mapping strategies in a strict procedural workflow, long-term clinical outcomes are improved.
Highlights
Ventricular tachycardia (VT) ablation strategies for scardependent monomorphic ventricular tachycardia (VT) have evolved from traditionalPrerequisites of substrate-guided approaches include detailed scar definition and mapping for near field low bipolar voltage fractionated signals with relatively slow conduction velocities, that help to define the VT site of origin and conduction channels (CC) [8,9,10]
We have previously shown in the Omnimapping study that the unique electrode and spacing configuration of the Advisor HD Grid mapping catheter provides greater VT substrate definition of the BZ at the low-voltage range
A total of 33 procedures were performed with the HD Grid mapping catheter, 22 Pentaray, 12 Duodeca, and 6 PbyP mapping cases
Summary
Ventricular tachycardia (VT) ablation strategies for scardependent monomorphic VT have evolved from traditionalPrerequisites of substrate-guided approaches include detailed scar definition and mapping for near field low bipolar voltage fractionated signals with relatively slow conduction velocities, that help to define the VT site of origin and CCs [8,9,10]. We have previously shown in the Omnimapping study that the unique electrode and spacing configuration of the Advisor HD Grid mapping catheter provides greater VT substrate definition of the BZ at the low-voltage range. This greater resolution within the lowvoltage range facilitates CC definition and quantification, essential in guiding ablation strategy [6].
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