1. Real-time assessment of myocardial viability in the catheterization laboratory using the intracoronary electrograms recorded by the PTCA guidewire in patients with left ventricular dysfunction: comparison with delayed-enhancement magnetic resonance imaging
- Author
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Ettore, Petrucci, Vruyr, Balian, and Andrea, Bocchieri
- Subjects
Male ,Tissue Survival ,Cardiac Catheterization ,Myocardium ,Myocardial Infarction ,Action Potentials ,Contrast Media ,Magnetic Resonance Imaging, Cine ,Stroke Volume ,Equipment Design ,Middle Aged ,Coronary Angiography ,Laboratories, Hospital ,Cardiac Catheters ,Ventricular Function, Left ,Ventricular Dysfunction, Left ,ROC Curve ,Predictive Value of Tests ,Area Under Curve ,Humans ,Female ,Cardiology Service, Hospital ,Angioplasty, Balloon, Coronary ,Electrophysiologic Techniques, Cardiac ,Aged - Abstract
This study aimed to determine whether the intracoronary electrograms (IC-EGMs) recorded using a standard percutaneous coronary intervention guidewire could provide myocardial viability information.The revascularization of dysfunctional but viable myocardium may confer prognostic benefits compared with medical therapy in patients with post-ischemic heart failure. However, knowledge of myocardial viability is often unavailable at the time of the procedure.The peak-to-peak voltage of 317 IC-EGMs recordings from 25 patients with a previous myocardial infarction and systolic dysfunction were matched with corresponding delayed-enhancement magnetic resonance imaging sites using a 17-segment model of the left ventricle.Sixty-seven recordings were obtained from segments classified as complete scar on delayed-enhancement magnetic resonance imaging (group A), 162 from partially viable segments (group B), and 88 from fully viable segments (group C). Three high-pass (HP) filters (0.5, 30, and 100 Hz) were applied to the signals to modulate their spatial resolution. For all filters, the peak-to-peak voltage significantly decreased from group C to group B to group A (p 0.001 for all comparisons). When receiver-operating characteristic analysis was used to compare nonviable (group A) with viable (group B + C) segments, the optimal discriminating voltages were 4.6, 2.2, and 0.78 mV for, respectively, HP-0.5, HP-30, and HP-100 filters, with a sensitivity of 92%, 94%, and 99% and a specificity of 70%, 79%, and 69%.The amplitude of the IC-EGMs discriminates viable from nonviable left ventricular segments. Because this technique is simple and inexpensive and provides real-time results, it is potentially useful to aid decision making in the catheterization laboratory.
- Published
- 2013