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Clinical characteristics of 30 Czech families with long QT syndrome and KCNQ1 and KCNH2 gene mutations: importance of exercise testing
Irena Andrsova, Tomas Novotny, Jitka Kadlecova, Alexandra Bittnerova, Pavel Vit, Alena Florianova, Martina Sisakova, Renata Gaillyova, Lenka Manouskova, Jindrich Spinar
Language English Country United States
Document type Journal Article, Research Support, Non-U.S. Gov't
Grant support
NS10429
MZ0
CEP Register
- MeSH
- Adult MeSH
- Ether-A-Go-Go Potassium Channels genetics MeSH
- Electrocardiography statistics & numerical data MeSH
- Genetic Predisposition to Disease epidemiology genetics MeSH
- Risk Assessment MeSH
- Polymorphism, Single Nucleotide genetics MeSH
- Humans MeSH
- Mutation genetics MeSH
- Prevalence MeSH
- Reproducibility of Results MeSH
- RNA, Long Noncoding genetics MeSH
- Sensitivity and Specificity MeSH
- Long QT Syndrome diagnosis epidemiology genetics MeSH
- Exercise Test statistics & numerical data MeSH
- Check Tag
- Adult MeSH
- Humans MeSH
- Male MeSH
- Female MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
- Geographicals
- Czech Republic MeSH
BACKGROUND: Classic symptoms of long QT syndrome (LQTS) include prolongation of QT interval on electrocardiograph, syncope, and cardiac arrest due to a distinctive form of polymorphic ventricular tachycardia, known as Torsade de Pointes. We assessed occurrence of LQTS signs in individuals from 30 Czech families with mutations in KCNQ1 and KCNH2 genes. METHODS AND RESULTS: One hundred five individuals from 30 Czech families with LQTS were genotyped for KCNQ1 and KCNH2. The occurrence of typical LQTS signs (pathologic prolongation of QT interval; syncope; cardiac arrest; Torsade de Pointes) was clinically assessed by exercise test with QT interval analysis. Family history of sudden cardiac death was taken. Statistical analysis was performed to determine correlation of clinical results and mutation status. KCNQ1 gene mutations were found in 23 families, and KCNH2 gene mutations in eight families. Only 46 (70%) of the 66 mutation carriers had at least two of the typical LQTS signs. The others were minimally or asymptomatic. From 39 noncarrier individuals, only 1 fulfilled the clinical criteria of LQTS diagnosis, another 4 had an intermediate probability of diagnosis. The exercise test had 92% sensitivity and 93% specificity for LQTS diagnosis. CONCLUSIONS: Incidence of classical signs of LQTS was not high in Czech carriers of KCNQ1 and KCNH2 mutations. Therefore, proper diagnosis relies on detection of symptoms at presentation. The exercise test may be beneficial owing to its high sensitivity and specificity for LQTS diagnosis.
References provided by Crossref.org
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- $a Andrsova, Irena $u Department of Internal Medicine and Cardiology, University Hospital and Faculty of Medicine of Masaryk University, Brno, Czech Republic $7 gn_A_00006740
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- $a BACKGROUND: Classic symptoms of long QT syndrome (LQTS) include prolongation of QT interval on electrocardiograph, syncope, and cardiac arrest due to a distinctive form of polymorphic ventricular tachycardia, known as Torsade de Pointes. We assessed occurrence of LQTS signs in individuals from 30 Czech families with mutations in KCNQ1 and KCNH2 genes. METHODS AND RESULTS: One hundred five individuals from 30 Czech families with LQTS were genotyped for KCNQ1 and KCNH2. The occurrence of typical LQTS signs (pathologic prolongation of QT interval; syncope; cardiac arrest; Torsade de Pointes) was clinically assessed by exercise test with QT interval analysis. Family history of sudden cardiac death was taken. Statistical analysis was performed to determine correlation of clinical results and mutation status. KCNQ1 gene mutations were found in 23 families, and KCNH2 gene mutations in eight families. Only 46 (70%) of the 66 mutation carriers had at least two of the typical LQTS signs. The others were minimally or asymptomatic. From 39 noncarrier individuals, only 1 fulfilled the clinical criteria of LQTS diagnosis, another 4 had an intermediate probability of diagnosis. The exercise test had 92% sensitivity and 93% specificity for LQTS diagnosis. CONCLUSIONS: Incidence of classical signs of LQTS was not high in Czech carriers of KCNQ1 and KCNH2 mutations. Therefore, proper diagnosis relies on detection of symptoms at presentation. The exercise test may be beneficial owing to its high sensitivity and specificity for LQTS diagnosis.
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