DOI: 10.19102/icrm.2021.120111S
CHIRAG R. BARBHAIYA, MD,1 KARA METCALF, BS,2 M. REED BONVISSUTO, BS,2 MICHAEL SPINELLI, MD,1 ANTHONY AIZER, MD, MSc,1 DOUGLAS HOLMES, MD,1 and LARRY A. CHINITZ, MD1
1Leon H. Charney Division of Cardiology, New York University Langone Health, New York, NY, USA
2Abbott Medical, Inc., Minneapolis, MN, USA
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KEYWORDS. Extracorporeal membrane oxygenation, high-density grid, ischemic cardiomyopathy, ventricular tachycardia storm.
Dr. Barbhaiya has received speaking fees/honoraria from Zoll Medical Corporation and served as a consultant for Abbott and Biosense Webster. Dr. Aizer has served as a consultant for Biosense Webster and received fellowship financial support from Abbott, Biotronik, Boston Scientific, and Medtronic. Dr. Chinitz has received speaking fees/honoraria from Abbott, Medtronic, Biotronik, and Biosense Webster and fellowship/research financial support from Medtronic, Biotronik, and Biosense Webster. Ms. Metcalf and Mr. Bonsivutto are employees of Abbott.
Address correspondence to: Chirag R. Barbhaiya, MD. Email: chirag.barbhaiya@nyulangone.org.
A 76-year-old man with a history of prior anterior-wall myocardial infarction, left ventricular ejection fraction of 25%, and primary-prevention implantable cardioverter-defibrillator placement presented with ventricular tachycardia storm and 17 ICD shocks. Extracorporeal membrane oxygenation (ECMO) was initiated due to incessant ventricular tachycardia (VT) and hemodynamic instability. The VT cycle length was 490 ms, with left bundle branch morphology in lead V1 and negative concordance throughout the precordium. He was brought in for urgent VT ablation and concurrent left ventricular, endocardial, high-density electroanatomic maps were created of the clinical arrhythmia and right ventricular pacing using the EnSite Precision™ cardiac mapping system and a multielectrode grid mapping catheter (Advisor™ HD Grid Mapping Catheter, Sensor Enabled™). A large low-voltage area of 95.7 cm2 was identified, within which the full diastolic pathway was visualized (Figure 1 and Video 1). The clinical arrhythmia terminated following two seconds of radiofrequency application at a site with early diastolic activation and was not again observed again.
Figure 1: High-density activation map of the clinical VT. |
Video 1: Rapid, high-density, multimodality mapping and catheter ablation of incessant ventricular tachycardia in ischemic cardiomyopathy. |
Following subsequent substrate modification guided by targeting of the crowding identified during sinus rhythm isochronal late-activation mapping and fractionation mapping, the patient was noninducible for any ventricular arrhythmia after programmed extrastimulation at two base cycle lengths and up to three extrastimuli. ECMO was decannulated on the second postoperative day and the patient was discharged on the fifth postoperative day. He remained free from recurrent arrhythmia at more than 45 days of follow-up.
The identification of critical locations for reentrant VTs related to large scars can be challenging and labor-intensive. In this case, high-density automated mapping using the Advisor™ HD Grid catheter facilitated rapid identification of the critical site of the clinical VT, while the ablation of areas of automatically identified ILAM crowding and fractionated electrograms rendered the patient noninducible for VT.
All published case image reviews within the print supplement and ePub version have been independently submitted and developed exclusively by the authors. Each published case image review within the print and ePub version has successfully undergone the double-blind peer-review process. The opinions presented herein are specific to the featured physicians and are for informational purposes only. The results from any case study may not be predictive of results for all patients. These case study reviews are not intended to provide medical advice or to take the place of written law or regulations. The distribution of the print supplement and ePub version is supported through a grant from: Abbott
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