Purpose: Strain and strain rate imaging have been shownto be useful for assessment of regional myocardial function. However, the mechanism of transition in myocardial contraction and relaxation remains unclear. In this study, we investigated the mechanismby measuring myocardial strain rate at high temporal resolution. Method: The RF data of two young males were acquired in a typical cross-sectional image(the transthoracic parasternal longitudinal-axis view)by scanning ultrasonic beams sparsely to improve temporal resolution. In the periods around the R-wave in electrocardiogram(ECG)and the second heart sound in phonocardiogram (PCG), the phased tracking method was applied to multiple points in the heart wall for estimation of the strain rate. Result: In the case of transition from contraction to relaxation around the second heart sound, the right ventricle(RV)side preceded theleft ventricle(LV)side by 15-30 ms in the interventricular septum(IVS), and the epicardium preceded the endocardium by 100-130 ms in the posterior wall. Furthermore, the spatial distribution of strain rate showed that there was a time lag between the apex side andbase side in contraction and relaxation. In particular, transition from the apex side to base side was found in the posterior wall. Conclusion: Myocardial strain rate was measured at high temporal resolution. In vivo experimental results showedthe possibility of using this method for elucidation of the mechanismin myocardial contraction and relaxation.
- frame rate
- in vivo experiments
- myocardial contraction/relaxation
- phased tracking method
- strain rate
ASJC Scopus subject areas
- Radiology Nuclear Medicine and imaging