Higher relative infarct mass and degree of transmurality on ceCMR independently predicted appropriate ICD therapy or cardiac death in patients with chronic myocardial infarction (p=0.009).
Cohort (n=52)
Does ceCMR-derived infarct morphology predict appropriate ICD therapy or cardiac death in patients with chronic MI meeting MADIT criteria?
ceCMR-derived relative infarct mass and degree of transmurality independently predict the occurrence of ventricular arrhythmias requiring ICD therapy or cardiac death in patients with chronic MI.
p-value: p=0.009
Introduction: Prophylactic implantation of a cardioverter/ defibrillator (ICD) has been shown to reduce mortality in patients with chronic myocardial infarction (CMI) and an increased risk for life threatening ventricular arrhythmia (VA). The use of ICDs in this large patient population is still limited by high costs and possible adverse events including inappropriate discharges and progression of heart failure. VA is related to infarct size and seems to be related to infarct morphology. Contrast enhanced cardiovascular magnetic resonance imaging (ceCMR) can detect and quantify myocardial fibrosis in the setting of CMI and might therefore be a valuable tool for a more accurate risk stratification in this setting. Hypothesis: ceCMR can identify the subgroup developing VA in patients with prophylactic ICD implantation following MADIT criteria. Methods: We prospectively enrolled 52 patients (49 males, age 69 10 years) with CMI and clinical indication for ICD therapy following MADIT criteria. Prior to implantation (36 78 days) patients were investigated on a 1.5 T clinical scanner (Siemens Avanto , Germany) to assess left ventricular function (LVEF), LV end-diastolic volume (LVEDV) and LV mass (sequence parameters: GRE SSFP, matrix 256 192, short axis stack; full LV coverage, no gap; slice thickness 6 mm). For quantitative assessment of infarct morphology late gadolinium enhancement (LGE) was performed including measurement of total and relative infarct mass (related to LV mass) and the degree of transmurality (DT) as defined by the percentage of transmurality in each scar. (sequence parameters: inversion recovery gradient echo; matrix 256 148, imaging 10 min after 0.2 g/kg gadolinium DTPA; slice orientation equal to SSFP). MRI images were analysed using dedicated software (MASS , Medis, Netherlands). LGE was defined as myocardial areas with signal intensity above the average plus 5 SD of the remote myocardium. After implantation, patients were followed up including ICD readout after 3 and than every 6 months for a mean of 945 344 days. ICD data were evaluated by an experienced electrophysiologist. Primary endpoint was the occurrence of an appropriate discharge (DC), antitachycard pacing (ATP) or death from cardiac cause. Results: The endpoint occurred in 10 patients (3 DC, 6 ATP, 1 death). These patients had a higher relative infarct mass (28 7% vs. 22 11%, p = 0.03) as well as high degree of transmurality (64 22% vs. 44 25%, p = 0.05). Their LVEF (29 8% vs. 30 4%, p = 0.75), LV mass (148 29 g vs. 154 42 g, p = 0.60), LVEDV (270 133 ml vs. 275 83 ml, p = 0.90) or total infarct mass (43 19 g vs. 37 21 g, p = 0.43) were however not significant from the group with no events. In a cox proportional hazards regression model including LVEF, LVEDV, LV mass, DT and age, only degree of transmurality and relative infarct mass emerged as independent predictors of the primary end point (p = 0.009).
Chahal et al. (Thu,) conducted a cohort in Chronic myocardial infarction (CMI) (n=52). Contrast enhanced cardiovascular magnetic resonance imaging (ceCMR) was evaluated on Occurrence of an appropriate discharge (DC), antitachycard pacing (ATP) or death from cardiac cause (p=0.009). Higher relative infarct mass and degree of transmurality on ceCMR independently predicted appropriate ICD therapy or cardiac death in patients with chronic myocardial infarction (p=0.009).
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