TY - JOUR
T1 - Congenital short QT syndrome
T2 - A review focused on electrocardiographic features
AU - Pérez-Riera, Andrés Ricardo
AU - Barbosa-Barros, Raimundo
AU - da Silva Rocha, Mauricio
AU - Paixão-Almeida, Adail
AU - Daminello-Raimundo, Rodrigo
AU - de Abreu, Luiz Carlos
AU - Yanowitz, Frank
AU - Baranchuk, Adrian
AU - Nikus, Kjell
N1 - Publisher Copyright:
© 2023
PY - 2024/5/3
Y1 - 2024/5/3
N2 - Congenital short QT syndrome is a very low prevalence inherited primary arrhythmia syndrome first reported in 2000 by Gussak et al., who described two families with a short QT interval, syncope, and sudden cardiac death. In 2004, Ramon Brugada et al. identified the first genetic type of this entity. To date, a total of nine genotypes have been described. The diagnosis is easy from the electrocardiogram (ECG), not only due to the short QT duration, but also based on other aspects covered in this review. During 24-h Holter monitoring, paroxysmal atrial fibrillation spontaneously converting to sinus rhythm may be found. Even though the T wave may appear symmetric on the ECG, the T loop of the vectorcardiogram confirms that the T wave is constantly asymmetric due to the presence of dashes closer to each other in the efferent branch. In this review, we also describe the minus-plus T wave sign that we have described in a previously published article. In addition to congenital causes, we briefly highlight the existence of numerous acquired causes of short QT interval.
AB - Congenital short QT syndrome is a very low prevalence inherited primary arrhythmia syndrome first reported in 2000 by Gussak et al., who described two families with a short QT interval, syncope, and sudden cardiac death. In 2004, Ramon Brugada et al. identified the first genetic type of this entity. To date, a total of nine genotypes have been described. The diagnosis is easy from the electrocardiogram (ECG), not only due to the short QT duration, but also based on other aspects covered in this review. During 24-h Holter monitoring, paroxysmal atrial fibrillation spontaneously converting to sinus rhythm may be found. Even though the T wave may appear symmetric on the ECG, the T loop of the vectorcardiogram confirms that the T wave is constantly asymmetric due to the presence of dashes closer to each other in the efferent branch. In this review, we also describe the minus-plus T wave sign that we have described in a previously published article. In addition to congenital causes, we briefly highlight the existence of numerous acquired causes of short QT interval.
KW - 12‑lead electrocardiogram
KW - Acquired short QT syndrome
KW - Congenital short QT syndrome
KW - Short QT interval
KW - Vectorcardiogram
U2 - 10.1016/j.jelectrocard.2024.04.009
DO - 10.1016/j.jelectrocard.2024.04.009
M3 - Review Article
AN - SCOPUS:85192215209
SN - 0022-0736
JO - Journal of Electrocardiology
JF - Journal of Electrocardiology
ER -