Strain Rate Imaging for Assessment of Regional Myocardial Function: Results From a Clinical Model of Septal Ablation

doi:10.1161/01.CIR.0000013423.33806.77

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Circulation. 2002;105:1403-1406
Published online before print March 4, 2002, doi: 10.1161/01.CIR.0000013423.33806.77

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(Circulation. 2002;105:1403.)
© 2002 American Heart Association, Inc.

Strain Rate Imaging for Assessment of Regional Myocardial Function

Results From a Clinical Model of Septal Ablation

Theodore P. Abraham, MD; Rick A. Nishimura, MD; David R. Holmes, Jr, MD; Marek Belohlavek, MD PhD; James B. Seward, MD

From the Division of Cardiovascular Diseases, Mayo Clinic, Rochester, Minn.

Correspondence to Rick A. Nishimura, MD, Cardiovascular Diseases, Mayo Clinic, 200 First Street SW, Rochester MN 55905. E-mail rnishimura{at}mayo.edu

Background— Regional myocardial function assessment isessential in the management of coronary artery disease (CAD).Tissue Doppler imaging (TDI) by depicting local myocardial motioncan potentially quantify regional myocardial function. Strainrate imaging (SRI) that depicts regional deformation is lesssusceptible to cardiac translation and tethering and may besuperior to TDI for regional function analysis. We examinedregional myocardial function using TDI and SRI in a unique clinicalmodel of a small, discrete myocardial infarction.

Method and Results— Ten patients with severely symptomaticseptal hypertrophy underwent basal septal ablation via intracoronaryalcohol injection and had TDI and SRI pre- and postablation.Invasive hemodynamics showed no appreciable change in globalfunction. Peak systolic strain rate was significantly lowerpostablation versus preablation (-0.5 versus -1.2 s^-1, P<0.001)and when comparing infarct and noninfarct areas (-0.5 versus-1.5 s^-1, P<0.001). In contrast, peak systolic tissue velocitieswere similar pre- and postablation (3.9 versus 2.9 cm/s, P=0.16)and between infarct and noninfarct areas (2.9 versus 2.2 cm/s,P=0.13). SRI analysis demonstrated reduced systolic functionin the peri-infarct zone and preserved systolic function inthe remote nonischemic zone.

Conclusion— In the clinical setting of a small, discreteinfarct unaccompanied by changes in global function, SRI accuratelydepicted changes in regional function. These data suggest thatSRI may be the optimal method for objective, quantitative assessmentof regional myocardial dysfunction.

Key Words: imaging • tissue • myocardium

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