Your search keyword '"Raiman, Michael"' showing total 3 results

1. Simultaneous Endocardial and Epicardial Delineation of 3D Reentrant Ventricular Tachycardia.

Author

Tung, Roderick, Raiman, Michael, Liao, Hongtao, Zhan, Xianzhang, Chung, Fa Po, Nagel, Rich, Hu, Hongde, Jian, Jiang, Shatz, Dalise Y., Besser, Stephanie A., Aziz, Zaid A., Beaser, Andrew D., Upadhyay, Gaurav A., Nayak, Hemal M., Nishimura, Takuro, Xue, Yumei, and Wu, Shulin

Subjects

*VENTRICULAR tachycardia, *BODY surface mapping, *MYOCARDIAL reperfusion, *CARDIAC patients, *COMPARATIVE studies, *HEART function tests, *RESEARCH methodology, *MEDICAL cooperation, *RESEARCH, *THREE-dimensional imaging, *EVALUATION research, *RETROSPECTIVE studies

Abstract

Background: Mechanisms of scar-related ventricular tachycardia (VT) are largely based on computational and animal models that portray a 2-dimensional view.Objectives: The authors sought to delineate the human VT circuit with a 3-dimensional perspective from recordings obtained by simultaneous endocardial and epicardial mapping.Methods: High-resolution mapping was performed during 97 procedures in 89 patients with structural heart disease. Circuits were characterized by systematic isochronal analysis to estimate the dimensions of the isthmus and extent of the exit region recorded on both myocardial surfaces.Results: A total of 151 VT morphologies were mapped, of which 83 underwent simultaneous endocardial and epicardial mapping; 17% of circuits activated in a 2-dimensional plane, restricted to 1 myocardial surface. Three-dimensional activation patterns with nonuniform transmural propagation were observed in 61% of circuits with only 4% showing transmurally uniform activation, and 18% exhibiting focal activation patterns consistent with mid-myocardial reentry. The dimensions of the central isthmus were 17 mm (12 to 28 mm) × 10 mm (9 to 19 mm) with 55% exhibiting a minimal dimension of <1.5 cm. QRS activation was transmural in 63% and located 43 mm (34 to 52 mm) from the central isthmus. On the basis of 6 proposed definitions for epicardial VT, the prevalence of an epicardial circuit ranged from 21% to 80% in ischemic cardiomyopathy and 28% to 77% in nonischemic cardiomyopathy.Conclusions: A 2D perspective oversimplifies the electrophysiological circuit responsible for reentrant human VT and simultaneous endocardial and epicardial mapping facilitates inferences about mid-myocardial activation. Intricate activation patterns are frequently observed on both myocardial surfaces, and the epicardium is functionally involved in the majority of circuits. Human reentry may exist within isthmus dimensions smaller than 1 cm, whereas QRS activation is often transmural and remote from the critical isthmus target. A 3-dimensional perspective of the VT circuit may enhance the precision of ablative therapy and may support a greater role for adjunctive strategies and technology to address arrhythmogenic tissue harbored in the mid-myocardium and subepicardium. [ABSTRACT FROM AUTHOR]

Published

2020

2. Feasibility and utility of intraoperative epicardial scar characterization during left ventricular assist device implantation.

Author

Moss, Joshua D., Oesterle, Adam, Raiman, Michael, Flatley, Erin E., Beaser, Andrew D., Jeevanandam, Valluvan, Klein, Liviu, Ota, Takeyoshi, Wieselthaler, Georg, Uriel, Nir, and Tung, Roderick

Subjects

SCARS, HEART function tests, IMPLANTABLE cardioverter-defibrillators, POSTOPERATIVE period, SURGICAL complications, VENTRICULAR tachycardia, TREATMENT effectiveness, HEART assist devices, VENTRICULAR arrhythmia, DIAGNOSIS

Abstract

Introduction: Ventricular arrhythmias (VA) after left ventricular assist device (LVAD) placement are associated with increased morbidity and mortality. We sought to assess epicardial voltage characteristics at the time of LVAD implantation and investigate relationships between scar burden and postimplant VA. Methods and Results: Consecutive patients underwent open chest epicardial electroanatomic mapping immediately before LVAD implantation. Areas of low voltage and sites with local abnormal potentials were identified. Patients were followed prospectively for postimplant VA and clinical outcomes. Between 2015 and 2017, 36 patients underwent high‐density intraoperative epicardial voltage mapping; 15 had complete maps suitable for analysis. Mapping required a median of 11.8 (interquartile range [IQR], 8.5‐12.7) minutes, with a median of 2650 (IQR, 2139‐3191) points sampled per patient. Over a median follow‐up of 311 (IQR, 168‐469) postoperative days, four patients (27%) experienced sustained VA. Patients with postimplant VA were more likely to have had preimplant implantable cardioverter defibrillator shocks (100% vs 27%; P = 0.03), ventricular tachycardia storm (75% vs 9%; P = 0.03), and lower ejection fraction (13.5 vs 19.0%, P = 0.05). Patients with postimplant VA also had a significantly higher burden of epicardial low bipolar voltage points: 55.4% vs 24.9% of points were less than 0.5 mV (P = 0.01), and 88.9% vs 63.7% of points less than 1.5 mV (P = 0.004). Conclusions: Intraoperative high‐density epicardial mapping during LVAD implantation is safe and efficient, facilitating characterization of a potentially arrhythmogenic substrate. An increased burden of the epicardial scar may be associated with a higher incidence of postimplant VA. The role of empiric intraoperative epicardial ablation to mitigate risk of postimplant VA requires further study. [ABSTRACT FROM AUTHOR]

Published

2019

3. Identification of Human Ventricular Tachycardia Demarcated by Fixed Lines of Conduction Block in a 3-Dimensional Hyperboloid Circuit.

Author

Takuro Nishimura, Shatz, Nathan, Weiss, J. Peter, Zawaneh, Michael, Rong Bai, Beaser, Andrew D., Upadhyay, Gaurav A., Aziz, Zaid A., Nayak, Hemal M., Shatz, Dalise Y., Shinsuke Miyazaki, Masahiko Goya, Tetsuo Sasano, Su, Wilber, Raiman, Michael, and Tung, Roderick

Subjects

*VENTRICULAR tachycardia, *HYPERBOLOID structures, *CATHETER ablation, *ACCELERATION (Mechanics)

Abstract

BACKGROUND: The circuit boundaries for reentrant ventricular tachycardia (VT) have been historically conceptualized within a 2-dimensional (2D) construct, with their fixed or functional nature unresolved. This study aimed to examine the correlation between localized lines of conduction block (LOB) evident during baseline rhythm with lateral isthmus boundaries that 3-dimensionally constrain the VT isthmus as a hyperboloid structure. METHODS: A total of 175 VT activation maps were correlated with isochronal late activation maps during baseline rhythm in 106 patients who underwent catheter ablation for scar-related VT from 3 centers (42% nonischemic cardiomyopathy). An overt LOB was defined by a deceleration zone with split potentials (≥20 ms isoelectric segment) during baseline rhythm. A novel application of pacing within deceleration zone (≥600 ms) was implemented to unmask a concealed LOB not evident during baseline rhythm. LOB identified during baseline rhythm or pacing were correlated with isthmus boundaries during VT. RESULTS: Among 202 deceleration zones analyzed during baseline rhythm, an overt LOB was evident in 47%. When differential pacing was performed in 38 deceleration zones without overt LOB, an underlying concealed LOB was exposed in 84%. In 152 VT activation maps (2D=53, 3-dimensional [3D]=99), 69% of lateral boundaries colocalized with an LOB in 2D activation patterns, and the depth boundary during 3D VT colocalized with an LOB in 79%. In VT circuits with isthmus regions that colocalized with a U-shaped LOB (n=28), the boundary invariably served as both lateral boundaries in 2D and 3D. Overall, 74% of isthmus boundaries were identifiable as fixed LOB during baseline rhythm or differential pacing. CONCLUSIONS: The majority of VT circuit boundaries can be identified as fixed LOB from intrinsic or paced activation during sinus rhythm. Analysis of activation while pacing within the scar substrate is a novel technique that may unmask concealed LOB, previously interpreted to be functional in nature. An LOB from the perspective of a myocardial surface is frequently associated with intramural conduction, supporting the existence of a 3D hyperboloid VT circuit structure. Catheter ablation may be simplified to targeting both sides around an identified LOB during sinus rhythm. [ABSTRACT FROM AUTHOR]

Published

2023