Far-field EGM voltages increased linearly with wall thickness (ρ=0.430; P<0.001), whereas near-field voltages showed poor correlation, with critical VT sites distributed in 1 to 4 mm thickness areas.
Observational (n=12)
Far-field EGM voltages correlate with wall thickness in chronic MI scars, while near-field voltages do not, and 3D mapping systems preferentially annotate near-field components in thinner scar areas.
Effect estimate: ρ = 0.430
p-value: p=<0.001
BACKGROUND: The relationship between the local electrograms (EGMs) and wall thickness (WT) heterogeneity within infarct scars has not been thoroughly described. The relationship between WT and voltages and substrates for ventricular tachycardia (VT) was examined. METHODS: In 12 consecutive patients with myocardial infarction and VT, WT, defined by a multidetector computed tomography, and voltage were compared. In multicomponent EGMs, amplitudes of both far- and near-field components were manually measured, and the performance of the three-dimensional-mapping system automatic voltage measurement was assessed. RESULTS: Of 15 748 points acquired, 2677 points within 5 mm of the endocardial surface were analyzed. In total, 909 (34.0%) multicomponent EGMs were identified; 785 (86.4%) and 883 (97.1%) were distributed in the WT less than 4 and 5 mm, respectively. Far-field EGM voltages increased linearly from 0.14 mV (0.08-0.28 mV) in the WT: 0 to 1 mm to 0.70 mV (0.43-2.62 mV) in the WT: 4 to 5 mm (ρ = 0.430; P < 0.001), and a significant difference was demonstrated between any two WT-groups (P ≤ 0.001). In contrast, near-field EGM voltages varied from 0.27 mV (0.11-0.44 mV) in the WT: 0 to 1 mm to 0.29 mV (0.17-0.53 mV) in the WT: 4 to 5 mm with a poorer correlation (ρ = 0.062, P = 0.04). The proportion of points where the system automatically measured the voltage on near-field EGMs increased from less than 10% in areas of WT: 4 to 5 mm to 50% in areas less than 2 mm. Of 21 VTs observed, seven hemodynamically stable VTs were mapped and terminated in WT: 1 to 4 mm area. CONCLUSIONS: Although far-field voltages gradually increase with the WT, near-field does not. The three-dimensional-mapping system preferentially annotates the near-field components in thinner areas (center of the scar) and the far-field component in thicker areas when building a voltage map. Critical sites of VT are distributed in WT: 1 to 4 mm areas.
Takigawa et al. (Sat,) conducted a observational in Myocardial infarction and ventricular tachycardia (n=12). Multidetector computed tomography and three-dimensional-mapping system was evaluated on Correlation between far-field EGM voltages and wall thickness (ρ = 0.430, p=<0.001). Far-field EGM voltages increased linearly with wall thickness (ρ=0.430; P<0.001), whereas near-field voltages showed poor correlation, with critical VT sites distributed in 1 to 4 mm thickness areas.
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