Electromechanical coupling in patients with the short QT syndrome: further insights into the mechanoelectrical hypothesis of the U wave.

BACKGROUND

Patients with a short QT syndrome (SQTS) are at risk of sudden cardiac death (SCD). It is not known whether abbreviation of cardiac repolarization alters mechanical function in SQTS. Controversies persist regarding whether the U wave is a purely electrical or mechanoelectrical phenomenon.

OBJECTIVE

The present study uses echocardiographic measurements to discriminate between the hypotheses for the origin of the U wave.

METHODS

Diagnostic work-up including echocardiography and electrocardiogram was performed in 5 SQTS patients (39 +/- 19 years old) from 2 unrelated families with a history of SCD and 5 age-matched and gender-matched control subjects.

RESULTS

QT intervals were 268 +/- 18 ms (QTc 285 +/- 28 ms) in SQTS versus 386 +/- 20 ms (QTc 420 +/- 22 ms) in control subjects (P < .005). In SQTS patients, the end of the T wave preceded aortic valve closure by 111 +/- 30 ms versus -12 +/- 11 ms in control subjects (P < .005). The interval from aortic valve closure to the beginning of the U wave was 8 +/- 4 ms in patients and 15 +/- 11 ms in control subjects (P = .25). Thus, the inscription of the U wave in SQTS patients coincided with aortic valve closure and isovolumic relaxation, supporting the hypothesis that the U wave is related to mechanical stretch.

CONCLUSION

Our data show for the first time a significant dissociation between the ventricular repolarization and the end of mechanical systole in SQTS patients. Coincidence of the U wave with termination of mechanical systole provides support for the mechanoelectrical hypothesis for the origin of the U wave.