Detection of left ventricular dysfunction by Doppler tissue imaging in patients with complete recovery of visual wall motion abnormalities 6 months after a first ST-elevation myocardial infarction.

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Detection of left ventricular dysfunction by Doppler tissue imaging in patients with complete recovery of visual wall motion abnormalities 6 months after a first ST-elevation myocardial infarction.

Witt N, Samad BA, Frick M, Alam M

Department of Cardiology, Karolinska Institute at South Hospital (Södersjukhuset), 118 83 Stockholm, Sweden. nils.witt@sodersjukhuset.se

AIMS: The aim of this study was to assess left ventricular (LV) systolic and diastolic function, using Doppler tissue imaging (DTI), in patients with complete recovery of visual wall motion abnormalities six months after a first ST-elevation myocardial infarction (STEMI). METHODS: Out of 90 patients presenting with a STEMI, 68 patients without a history of heart disease were examined by echocardiography before discharge and after 6 months. The patients were compared to 41 age matched healthy subjects (HS). LV function was assessed by visual wall motion and mitral annular velocities using pulsed wave DTI. RESULTS: Sixty-eight patients had visual wall motion abnormalities at baseline. Of these, 19 patients showed complete recovery of wall motion at 6-months follow-up. Patients with complete recovery of wall motion abnormalities had significantly reduced peak systolic and peak early diastolic mitral annular velocities compared to HS at 6 months (8.3 cm s(-1) versus 9.9 cm s(-1), P<0.001 for systolic velocity and 9.3 cm s(-1) versus 13.1 cm s(-1), P<0.001 for diastolic velocity, respectively). CONCLUSION: In patients presenting with a first STEMI, mitral annular systolic and early diastolic velocities assessed by DTI at 6-months follow-up are significantly reduced compared to HS, despite normal standard echocardiographic parameters of LV function. This probably reflects a residual subendocardial damage not detected by conventional echocardiographic methods.

Published 16 August 2007 in Clin Physiol Funct Imaging, 27(5): 305-8.
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