Aims: Various strain parameters and multiple imaging techniques are presently available including cardiovascular magnetic resonance (CMR) tagging (CMR-TAG), CMR feature tracking (CMR-FT), and speckle tracking echocardiography (STE). This study aims to compare predictive performance of different strain parameters and evaluate results per imaging technique to predict cardiac resynchronization therapy (CRT) response. Methods and results: Twenty-seven patients were prospectively enrolled and underwent CMR and echocardiographic examination before CRT implantation. Strain analysis was performed in circumferential (CMR-TAG, CMR-FT, and STE-circ) and longitudinal (STE-long) orientations. Regional strain values, parameters of dyssynchrony, and disco...
Parameters using myocardial strain analysis may predict response to cardiac resynchronization therap...
Parameters using myocardial strain analysis may predict response to cardiac resynchronization therap...
Parameters using myocardial strain analysis may predict response to cardiac resynchronization therap...
Aims: Various strain parameters and multiple imaging techniques are presently available including ca...
Aims: Various strain parameters and multiple imaging techniques are presently available including ca...
Aims: Various strain parameters and multiple imaging techniques are presently available including ca...
AIMS: Various strain parameters and multiple imaging techniques are presently available including ca...
Aims Various strain parameters and multiple imaging techniques are presently available including car...
Aims Various strain parameters and multiple imaging techniques are presently available including car...
Aims Various strain parameters and multiple imaging techniques are presently available including car...
Aims Various strain parameters and multiple imaging techniques are presently available including car...
AIMS: Various strain parameters and multiple imaging techniques are presently available including ca...
AIMS: Various strain parameters and multiple imaging techniques are presently available including ca...
AIMS: Various strain parameters and multiple imaging techniques are presently available including ca...
Parameters using myocardial strain analysis may predict response to cardiac resynchronization therap...
Parameters using myocardial strain analysis may predict response to cardiac resynchronization therap...
Parameters using myocardial strain analysis may predict response to cardiac resynchronization therap...
Parameters using myocardial strain analysis may predict response to cardiac resynchronization therap...
Aims: Various strain parameters and multiple imaging techniques are presently available including ca...
Aims: Various strain parameters and multiple imaging techniques are presently available including ca...
Aims: Various strain parameters and multiple imaging techniques are presently available including ca...
AIMS: Various strain parameters and multiple imaging techniques are presently available including ca...
Aims Various strain parameters and multiple imaging techniques are presently available including car...
Aims Various strain parameters and multiple imaging techniques are presently available including car...
Aims Various strain parameters and multiple imaging techniques are presently available including car...
Aims Various strain parameters and multiple imaging techniques are presently available including car...
AIMS: Various strain parameters and multiple imaging techniques are presently available including ca...
AIMS: Various strain parameters and multiple imaging techniques are presently available including ca...
AIMS: Various strain parameters and multiple imaging techniques are presently available including ca...
Parameters using myocardial strain analysis may predict response to cardiac resynchronization therap...
Parameters using myocardial strain analysis may predict response to cardiac resynchronization therap...
Parameters using myocardial strain analysis may predict response to cardiac resynchronization therap...
Parameters using myocardial strain analysis may predict response to cardiac resynchronization therap...