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The present study investigated the application of echocardiography to evaluation of cardiac dyssynchrony in patients with congestive heart failure(CHF). A total of 348 consecutive CHF patients who were admitted for cardiac resynchronization(CRT) and presented with low ejection fraction(EF) and wide QRS duration were enrolled in this study, along with 388 healthy individuals. Dyssynchrony was assessed based on filling time ratio(FT/RR), left ventricular pre-ejection delay(PED), interventricular mechanical delay(IVMD), longitudinal opposing wall delay(LOWD) and radial septal to posterior wall delay(RSPWD). Response to CRT was defined as a ≥15% increase in EF. The results showed that FT/RR was decreased while PED, IVMD, LOWD and RSPWD were increased in the CHF group compared with the control group(P<0.01). In the CHF group, FT/RR was negatively correlated with the QRS duration, LV end-diastolic diameter(LVESd), LV end-diastolic volume(LVEDV) and LV end-systolic volume(LVESV)(P<0.01), but positively with the LVEF(P<0.01). Additionally, PED, IVMD, LOWD and RSPWD were positively correlated with the QRS duration, LVESd, LVEDV and LVESV(P<0.01), but negatively with the LVEF(P<0.01). The CHF group was divided into three subgroups according to the varying degrees of LVEF. FT/RR decreased successively from the LVEF-1 group to the LVEF-2 group to the LVEF-3 group, while the PED, IVMD, LOWD and RSPWD successively increased in the same order(P<0.01). The CHF group was divided into three subgroups according to the varying degrees of QRS duration, and FT/RR decreased successively in a sequence from the QRS-1 group to the QRS-2 group to the QRS-3 group, while the PED, IVMD, LOWD and RSPWD successively increased in the same order(P<0.01). Speckle tracking radial dyssynchrony ≥130 ms was predictive of an EF response in patients in QRS-1 group(78% sensitivity, 83% specificity), those in QRS-2 group(83% sensitivity, 77% specificity) and in QRS-3 group(89% sensitivity, 79% specificity). In conclusion, echocardiography is a convenient and sensitive method for evaluating cardiac dyssynchrony in patients with CHF.
The present study investigated the application of echocardiography to evaluating cardiac dyssynchrony in patients with congestive heart failure (CHF). A total of 348 consecutive CHF patients who were admitted for cardiac resynchronization (CRT) and presented with low ejection fraction (EF) and wide QRS duration were enrolled in this study, along with 388 healthy individuals. Dyssynchrony was assessed based on filling time ratio (FT / RR), left ventricular pre-ejection delay (PED), interventricular mechanical delay (IVMD) Response to CRT was defined as a ≥15% increase in EF. The results showed that FT / RR was decreased while PED, IVMD, LOWD and RSPWD were increased in the CHF group In the CHF group, FT / RR was negatively correlated with the QRS duration, LV end-diastolic diameter (LVESd), LV end-diastolic volume (LVEDV) and LV end-systolic volume (LVESV) (P <0.01), bu (P <0.01). However, PED, IVMD, LOWD and RSPWD were positively correlated with the QRS duration, LVESd, LVEDV and LVESV (P <0.01), but negatively with the LVEF (P <0.01). The CHF group was divided into three subgroups according to the varying degrees of LVEF. FT / RR decreased successively from the LVEF-1 group to the LVEF-2 group to the LVEF-3 group, while the PED, IVMD, LOWD and RSPWD successively increased in the same order (P <0.01). The CHF group was divided into three subgroups according to the varying degrees of QRS duration, and FT / RR decreased successively in a sequence from the QRS-1 group to the QRS-2 group to The QRS-3 group, while the PED, IVMD, LOWD and RSPWD successively increased in the same order (P <0.01). Speckle tracking radial dyssynchrony ≥130 ms was predictive of an EF response in patients in QRS-1 group sensitivity of 83% specificity), those in QRS-2 group (83% sensitivity, 77% specificity) and in QRS-3 group y).In conclusion, echocardiography is a convenient and sensitive method for evaluating cardiac dyssynchrony in patients with CHF.