ABSTRACT
Objective To investigate the consistency of omnidirectional M-mode echocardiography and two-dimensional strain in assessment of left ventricular (LV) radial systolic asynchrony. Methods Thirty patients with heart failure (HF) and 28 healthy volunteers underwent omnidirectional M-mode echocardiography and two-dimensional strain at the same time. The time to peak radial systolic movement (T_m) of LV in 12 segments were measured with omnidirectional M-mode echocardiography and its standard deviation (T_m-12-sd), and the maximum difference (T_m-12-dif) were calculated. The time to peak radial systolic strain (T_(SR)) of LV in 12 segments were measured with two-dimensional strain and its standard deviation (T_(SR)-12-sd), and the maximum difference (T_(SR)-12-dif) were calculated. The T_m-12-sd, T_m-12-dif, T_(SR)-12-sd and T_(SR)-12-dif were used as systolic asynchrony indicators. The value (-x)±2s in the control group was defined as the normal upper limit which represents 97.7% of the control group distribution. Any values above this limit in HF patients were classified as LV asynchrony. The results of two methods were analyzed with Kappa test. Results Compared with the controls, T_m-12-sd, T_m-12-dif, T_(SR)-12-sd and T_(SR)-12-dif were significantly higher in the HF group (P<0.001); there was consistency between T_m-12-sd and T_(SR)-12-sd, T_m-12-dif and T_(SR)-12-dif in detecting LV systolic asynchrony in HF group (Kappa=0.661, 0.733). Conclusion T_m-12-sd and T_m-12-dif of omnidirectional M-mode echocardiography have consistency with T_(SR)-12-sd and T_(SR)-12-dif of two-dimensional strain. These two technologies both have ability to evaluate LV radial systolic synchronicity.