Regional wall motion assessment in stress echocardiography by tissue Doppler bull's-eyes

Quantification of regional myocardial wall velocities is needed In stress echocardiography for transition from subjective to quantitative assessment. Tissue Doppler allows quantitation of wall velocities, but interpretation is difficult and angle-dependent, Calculating the ratios of velocities with similar angles to the beam map overcome angle dependency. We measured left ventricular wall velocities during stress echocardiography with tissue Doppler. Regional peak systolic and early (E) and late (A) diastolic velocities were constructed in a "bull's-eye" format. Regional stress/rest and E/A ratios were calculated. Bull's-eye map construction demanded only minimal manual interaction, and the maps showed the left ventricular velocity distribution, simplifying wall motion reading markedly. Still, apical velocities appeared lower as a result of Doppler angle-dependency. With velocity ratios, angle-dependency was no longer noted. In stress echocardiography, wall motion abnormalities at rest and contractility changes with dobutamine became readily apparent. Bull's-eye display of quantitative tissue Doppler velocity allows rapid. assessment of regional wall motion. Calculating the ratio of regional velocities circumvents the angle-dependency of Doppler. This novel technique has the potential for simplified and automated quantitative analysis in stress echocardiography.