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Myocardial dysfunction in Takotsubo syndrome: More than meets the eye?
Portuguese Journal of Cardiology : An Official Journal of the Portuguese Society of Cardiology 2019 May 17
INTRODUCTION: Takotsubo syndrome (TTS) is characterized by transient left ventricular (LV) dysfunction, typically mimicking an anterior wall myocardial infarction (MI), without obstructive coronary artery disease. In the few published reports assessing myocardial deformation in TTS and MI, no consistent differences have been described between the two entities. We sought to characterize global and regional function in TTS and to compare it with a population with MI.
METHODS: Clinical data, including echocardiography, were gathered from 17 TTS patients and 20 anterior wall ST-segment elevation myocardial infarction (STEMI) controls. Peak systolic longitudinal strain was determined for each LV segment using speckle tracking imaging, and global and mean apical, midventricular and basal longitudinal strain were calculated from these.
RESULTS: Both TTS and STEMI patients presented significant LV systolic dysfunction, and there were no significant differences in ejection fraction or global longitudinal strain. Regional longitudinal strain was more severely impaired in basal inferolateral and mid anterolateral segments in the TTS group and in apical anteroseptal segments in the STEMI group. Mean longitudinal strain was worse in the basal segments of TTS patients (-9.8±2.9 vs. -12.4±4.1%, p=0.010), with no significant differences in mid and apical segments. The basal/apical ratio was significantly lower in this group as well (1.51±0.86 vs. 2.94±1.88, p=0.006).
CONCLUSIONS: While both TTS and STEMI feature significantly impaired global systolic function, we found a regional pattern of worse basal longitudinal strain and a lower basal/apical ratio in the former. These suggest generalized myocardial impairment in TTS, providing new clues about its pathophysiology and possible specific echocardiographic changes.
METHODS: Clinical data, including echocardiography, were gathered from 17 TTS patients and 20 anterior wall ST-segment elevation myocardial infarction (STEMI) controls. Peak systolic longitudinal strain was determined for each LV segment using speckle tracking imaging, and global and mean apical, midventricular and basal longitudinal strain were calculated from these.
RESULTS: Both TTS and STEMI patients presented significant LV systolic dysfunction, and there were no significant differences in ejection fraction or global longitudinal strain. Regional longitudinal strain was more severely impaired in basal inferolateral and mid anterolateral segments in the TTS group and in apical anteroseptal segments in the STEMI group. Mean longitudinal strain was worse in the basal segments of TTS patients (-9.8±2.9 vs. -12.4±4.1%, p=0.010), with no significant differences in mid and apical segments. The basal/apical ratio was significantly lower in this group as well (1.51±0.86 vs. 2.94±1.88, p=0.006).
CONCLUSIONS: While both TTS and STEMI feature significantly impaired global systolic function, we found a regional pattern of worse basal longitudinal strain and a lower basal/apical ratio in the former. These suggest generalized myocardial impairment in TTS, providing new clues about its pathophysiology and possible specific echocardiographic changes.
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