PLoS ONE (Jan 2017)

The use of a novel signal analysis to identify the origin of idiopathic right ventricular outflow tract ventricular tachycardia during sinus rhythm: Simultaneous amplitude frequency electrogram transformation mapping.

  • Abigail Louise D Te,
  • Satoshi Higa,
  • Fa-Po Chung,
  • Chin-Yu Lin,
  • Men-Tzung Lo,
  • Che-An Liu,
  • Chen Lin,
  • Yi-Chung Chang,
  • Shih-Lin Chang,
  • Li-Wei Lo,
  • Yu-Feng Hu,
  • Ta-Chuan Tuan,
  • Tze-Fan Chao,
  • Jonan Liao,
  • Yao-Ting Chang,
  • Chung-Hsing Lin,
  • Yuan Hung,
  • Shinya Yamada,
  • Kuo-Li Pan,
  • Yenn-Jiang Lin,
  • Shih-Ann Chen

DOI
https://doi.org/10.1371/journal.pone.0173189
Journal volume & issue
Vol. 12, no. 3
p. e0173189

Abstract

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INTRODUCTION:The signal characteristics of intracardiac bipolar electrograms at the origin of idiopathic RVOT-VT during sinus rhythm remain unclear. OBJECTIVE:The study sought to develop a novel real-time/online technique, simultaneous amplitude frequency electrogram transformation (SAFE-T), to quantify and localize the diseased ventricular substrate in idiopathic RVOT-VT. METHODS:We retrospectively investigated the intracardiac bipolar recordings in 70 consecutive patients (26% male, mean age 42±12 years) who underwent successful radiofrequency catheter ablation of idiopathic RVOT-VT. We quantified the extent of the frequency fraction of ventricular potentials during sinus rhythm or ventricular pacing using a novel formula, the product of instantaneous amplitude and frequency, and showed that in a 3D geometry as an online SAFE-T map. RESULTS:The characteristics of the HHT spectra of electrograms derived from VT origins demonstrated high frequency components (>70 Hz), which were independent of the rhythm. The density of the abnormal potentials at the VT origins were higher (VT origins, 7.5±2.3 sites/cm2 vs. surrounding myocardium, 1.5±1.3 sites/cm2, p3.0 Hz·mV. CONCLUSION:The online SAFE-T map was feasible for quantifying the diseased ventricular substrate, irrespective of the rhythm of activation, and can be used to identify the optimal ablation targets for idiopathic RVOT-VT. We found a limited region of abnormal potentials where the RVOT-VT origins were successfully ablated.