Comparison of the tissue Doppler-derived left ventricular Tei index to that obtained by pulse Doppler in patients with congenital and acquired heart disease

We compared the left ventricular Tei index measured by tissue Doppler imaging (TDI) to that obtained by pulsed Doppler (PW) in patients with congenital heart disease. In 40 consecutive patients with a variety of congenital and acquired heart diseases, the left ventricular (LV) PW Doppler-derived Tei index was assessed on-line as previously described. TDI-derived anatomic curved M-mode and the unprocessed velocity trace from the basal septum were used to time the opening and closure of the mitral and aortic valves in one cardiac cycle, respectively. The TDI Tei index was calculated off-line according to the equation (isovolumetric relaxation time + isovolumetric contraction time)/ ejection time. The Tei index calculated from TDI correlated significantly with that measured by pulsed Doppler (r = 0.92, p 0.001). The mean difference (range) between pulsed Doppler-derived Tei index and TDI-derived Tei index was 0.005 (-0.07-0.06), which was within the limits of agreements. Interobserver variability for the TDI-derived Tei index was 5 3%. The TDI Tei index can be used to assess the global LV function in patients with congenital heart disease. In contrast to the PW Doppler-derived Tei index, the TDI-derived Tei index obtained from the same cardiac cycle may help to differentiate systolic from diastolic dysfunction by providing specific information on the isovolumetric intervals.