AIMS: To clarify the mechanisms of electrocardiographic abnormalities in hypertrophic cardiomyopathy, 102 patients were examined with cardiac magnetic resonance. Distribution and magnitude of hypertrophy and late-enhancement were correlated with electrocardiographic abnormalities. METHODS AND RESULTS: Abnormal Q waves were associated with greater upper anterior septal thickness (22+/-7 mm vs. 18+/-5 mm, P=0.001) and increased ratios of upper anterior septum to mean inferolateral (P=0.01), anterolateral (P=0.002), apical (P=0.001), and right ventricular (P=0.001) wall thickness. There was no relation between abnormal Q waves and late-enhancement, except for Q waves >/=40 ms (P=0.02). Conduction disturbances and absent septal Q waves were associated with late-enhancement (89 vs. 45%, P=0.01 and 75 vs. 39%, P=0.002, respectively). The depth of negative T waves was related to an increased ratio of the mean thickness between apical and basal level (P=0.01), and to the presence of apical late-enhancement (P=0.03). CONCLUSION: Abnormal Q waves reflect the interrelation between upper anterior septal thickness and other regions of the left and right ventricles, and wider Q waves are associated with late-enhancement. Conduction disturbances and absent septal Q waves are associated with late-enhancement. The depth of negative T waves is related to craniocaudal asymmetry and apical late-enhancement.
AIMS: To clarify the mechanisms of electrocardiographic abnormalities in hypertrophic cardiomyopathy, 102 patients were examined with cardiac magnetic resonance. Distribution and magnitude of hypertrophy and late-enhancement were correlated with electrocardiographic abnormalities. METHODS AND RESULTS: Abnormal Q waves were associated with greater upper anterior septal thickness (22+/-7 mm vs. 18+/-5 mm, P=0.001) and increased ratios of upper anterior septum to mean inferolateral (P=0.01), anterolateral (P=0.002), apical (P=0.001), and right ventricular (P=0.001) wall thickness. There was no relation between abnormal Q waves and late-enhancement, except for Q waves >/=40 ms (P=0.02). Conduction disturbances and absent septal Q waves were associated with late-enhancement (89 vs. 45%, P=0.01 and 75 vs. 39%, P=0.002, respectively). The depth of negative T waves was related to an increased ratio of the mean thickness between apical and basal level (P=0.01), and to the presence of apical late-enhancement (P=0.03). CONCLUSION: Abnormal Q waves reflect the interrelation between upper anterior septal thickness and other regions of the left and right ventricles, and wider Q waves are associated with late-enhancement. Conduction disturbances and absent septal Q waves are associated with late-enhancement. The depth of negative T waves is related to craniocaudal asymmetry and apical late-enhancement.
Authors: Neal K Lakdawala; Jens Jakob Thune; Barry J Maron; Allison L Cirino; Ole Havndrup; Henning Bundgaard; Michael Christiansen; Christian M Carlsen; Jean-François Dorval; Raymond Y Kwong; Steven D Colan; Lars V Køber; Carolyn Y Ho Journal: Am J Cardiol Date: 2011-09-21 Impact factor: 2.778