UMLS:C0042510 - FACTA Search

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Query: UMLS:C0042510 (ventricular fibrillation)
10,091 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Brugada syndrome is characterized by an ECG pattern of right bundle branch block and ST-segment elevation in right precordial leads, and sudden death caused by ventricular fibrillation(VF). The cellular basis for the syndrome is thought to be due to an outward shift in the ionic current active during phase 1 of the right ventricular epicardial action potential. Mutations of the cardiac sodium channel gene, SCN5A, have been identified as the genesis of the syndrome. This ECG pattern, which appears intermittently in most patients, is accentuated just before and after episodes of VF and is unmasked by class IA and IC antiarrhythmic agents. Development of VF is associated with an increase in vagal activity, and it occurs frequently during sleep. Implantable-cardioverter defibrillator is the effective therapy for prevention from sudden death.
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PMID:[Brugada syndrome]. 1213 22

A 51-year-old man was admitted for evaluation of palpitation and syncope. Electrocardiography showed right bundle branch block with ST segment elevation. Intravenous administration of pilsicainide(50 mg) converted the saddle-back type into coved type ST elevation. Ventricular fibrillation was induced with double extrastimuli applied to the right ventricular outflow tract. His identical younger twin had neither symptoms nor abnormality by electrocardiography. Intravenous administration of pilsicainide(50 mg) induced no significant changes in the younger twin. Although SCN5A mutation is considered to be associated with Brugada syndrome, the present results suggest that the genetic factor is not the only factor responsible for the pathogenesis of Brugada syndrome.
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PMID:[Brugada syndrome occurring in an identical twin: a case report]. 1232 60

Cardiac arrhythmias cause 400 000 sudden deaths annually in the United States alone. Mutations in the cardiac sodium channel gene SCN5A on chromosome 3p21 cause cardiac arrhythmias and sudden death. In this study, we define an SCN5A mutation, S1103Y, in a white family associated with syncope, ventricular fibrillation, and sudden death. A very recent study reported the same mutation in 13.2% of African Americans, but not in the white population. Our study shows that mutation S1103Y does exist in the white population, and it is associated with a considerable risk of syncope, ventricular arrhythmia, ventricular fibrillation, and sudden death in this population.
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PMID:SNP S1103Y in the cardiac sodium channel gene SCN5A is associated with cardiac arrhythmias and sudden death in a white family. 1247 Dec 5

The mutations of the SCN5A gene have been implicated to play a pathogenetic role in Brugada syndrome, which causes ventricular fibrillation. To determine the Brugada-associated mutations in Japanese patients, facilitate pre-symptomatic diagnosis, and allow genotype-phenotype studies, we screened unrelated patients with Brugada syndrome for mutations. DNAs from 6 Japanese patients were obtained and the sequence in the translated region of SCN5A was determined. We could not find the mutations reported previously, but found 17 sites of nucleotide change, consisting of 7 synonymous and 10 non-synonymous nucleotide changes in our patients. Among them, two non-synonymous nucleotide changes (G1663A and G5227A) are specific to our patients and these changes were not found in 53 healthy controls. In 4 patients out of 6, no specific nucleotide change for Brugada syndrome could be detected. Our findings demonstrating no patient-specific change in the translated region of the SCN5A gene among two thirds of the small number of patients examined here imply that another gene other than the SCN5A may be associated with this disease, supporting previous investigations in Japan and other countries.
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PMID:Nucleotide changes in the translated region of SCN5A from Japanese patients with Brugada syndrome and control subjects. 1263 4

Mutations in the SCN5A gene can lead to the Brugada syndrome, a genetically inherited form of idiopathic ventricular fibrillation that has a characteristic ECG phenotype usually restricted to precordial leads V1-V3. We identified a novel G752R SCN5A missense mutation leading to various degrees of the Brugada ECG phenotype in members of a French family. In the proband, the G752R mutation produced ST segment elevation and prominent J wave in leads II, III, and aVF. In four other relatives, ST segment elevation in the right precordial but not in the inferior leads was observed either spontaneously or under flecainide challenge. Recombinant G752R mutant exhibited a markedly reduced Na+ current amplitude and a voltage shift in both activation and inactivation curves. The mutant was found in all affected but not in nonaffected family members. One additional gene-carrier had an almost normal ECG (silent gene-carrier). We provide genetic demonstration that Brugada ECG anomalies related to a unique SCN5A mutation can be observed either in the inferior or the right precordial leads.
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PMID:Novel brugada SCN5A mutation leading to ST segment elevation in the inferior or the right precordial leads. 1269 6

Febrile illness has been rarely reported to modulate ST segment elevation in right precordial leads on ECG or even precipitate ventricular fibrillation in patients with Brugada syndrome. We report the case of a patient whose Brugada ECG pattern was unmasked by hyperthermia secondary to acute cholangitis. Serial ECGs showed progressive attenuation of ST segment elevation as body temperature gradually returned to normal. Structural heart disease was ruled out. Intravenous flecainide injection reproduced a less remarkable ST segment elevation. Genetic screening demonstrated a single amino acid substitution (H681P) in the SCN5A gene, thus confirming the diagnosis of Brugada syndrome. In vitro expression of this newly characterized genetic defect revealed novel biophysical abnormalities consisting of a shift in both steady-state activation and inactivation, resulting in a 60% reduction of sodium window current. Thus, SCN5A-H681P mutation induces a significant loss of transmembrane current and is clinically associated with a pathologic phenotype that is elicited by hyperthermia. Overall the observed clinical features are in agreement with previous observations and strongly suggest that fever may be an environmental modifier among Brugada syndrome patients with a detrimental (and possibly arrhythmogenic) effect on cardiac repolarization.
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PMID:A newly characterized SCN5A mutation underlying Brugada syndrome unmasked by hyperthermia. 1467 48

The clinical and genetic characteristics of inherited arrhythmic disorders in Japan are briefly summarized. The incidence of hereditary long QT syndrome (LQTS) in Japan seems comparable to that in western countries. The genotypes are mainly LQT1 and LQT2; LQT3 and other types are rare. Mutations found in Japanese LQTS families are mostly novel compared to mutations reported in other countries and in different ethnic populations. Functional assays of the mutants in heterologous expression systems have disclosed novel mechanisms of current suppression in LQT1 and LQT2, and of gain of function in LQT3. Mutations in KCNJ2 may provide a new genotype (LQT7) of LQTS. In addition, mutations or single nucleotide polymorphisms in the channel genes responsible for LQTS (KvLQT1, HERG, and SCN5A) may predispose to drug-induced LQTS. A relatively high prevalence of Brugada syndrome is suspected in the Japanese population, and 1 of approximately 2,000 asymptomatic individuals present Brugada-type ECG changes upon annual examination. Genetic screening of the symptomatic Brugada syndrome and suspected cases has revealed SCN5A mutations in only approximately 12%. Therefore, the genetic basis of the majority of cases is not known. The expressed Na+ current of SCN5A mutant channels showed the phenotype of decreased channel function commonly seen in Brugada mutations. A case of idiopathic ventricular fibrillation was found to have a novel mutation in SCN5A, in which the expressed current showed marked suppression of channel function.
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PMID:Inherited arrhythmic disorders in Japan. 1274 19

The congenital long QT syndrome (LQTS) is a variable clinical and genetic entity characterised by prolongation of the QT interval on the ECG associated with the risk of serious ventricular arrhythmias (torsades de pointe, ventricular fibrillation) which may cause syncope and sudden death in patients with otherwise normal hearts. To date, 6 loci have been identified with the genes responsible for the forms LQT1, LQT2, LQT5 and LQT6, coding for the potassium channels (KCNQ1, HERG, KCNE1 and KCNE2, respectively) which, in the heterozygote state, are responsible for the main forms of LQTS without deafness and, in the homozygote state (KCNQ1 and KCNE1) for the recessive forms of LQTS with or without deafness. The gene for the LQT3 form codes for the cardiac sodium channel (SCN5A). The genetic variability observed in the LQTS corresponds to the diversity of cardiac ionic channels implicated in the genesis of the action potential, so making the LQTS a disease of the ionic channels or a "channelopathy". The potential severity of the prognosis justifies testing of subjects with long QT intervals on the ECG and Holter recording. In order to identify subjects with the genetic abnormality who are asymptomatic, these investigations associated with genetic testing should be made in all close members of the family of an affected person. The major problem remains the evaluation of the risk of sudden death in asymptomatic subjects with a genetic abnormality. At present, in the absence of clearly proven prognostic factors and in the knowledge that effective treatment without major secondary effects is available, all patients should be given prophylactic betablocker therapy.
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PMID:[Value of genetic testing in the management of the congenital long QT syndrome]. 1283 49

Since 1992, the Brugada syndrome has been increasingly recognized worldwide, although its incidence and distribution remain unclear. In Asia, several cases have been reported in Japan, Thailand, Singapore, and Vietnam. However, little information is available from the Chinese population. Since June 1997, we have identified 10 patients with the diagnosis of the Brugada syndrome from six hospitals in Taiwan. All patients were male with the mean age of 46 +/- 7 years (range 36-61). They all had a normal chemistry profile, coronary angiography and echocardiography. Clinical presentations varied from seizure and syncope to sudden cardiac death. MRI and ultrafast CT of the heart did not show any abnormalities. Sustained ventricular tachycardia/ventricular fibrillation (VF) was induced in 7 of 8 patients who underwent an electrophysiologic study. The pharmacological provocation test was positive in 4 of 5 patients. One of the 4 patients who had a genetic study showed SCN5A gene mutation. An implantable cardioverter defibrillator (ICD) was implanted in 8 patients. During a mean follow-up of 29 +/- 17 months (range 2-54), 3 of 8 patients who had an ICD received appropriate ICD discharges after implantation. These 3 patients who were subsequently treated with antiarrhythmic agents have had no further recurrent ICD discharges. Two patients who refused ICD implantation are alive and well without taking antiarrhythmic agents. Our study showed that the clinical characteristics of our patients are similar to those described in the literature and that ICD is an effective treatment modality for patients with recurrent VF. However, antiarrhythmic agents may be beneficial for suppressing arrhythmia recurrences in selected patients.
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PMID:Characteristics of Chinese patients with symptomatic Brugada syndrome in Taiwan. 1284 44

Mutations in the cardiac Na+ channel gene SCN5A are responsible for multiple lethal ventricular arrhythmias including Brugada syndrome and congenital long QT syndrome. Here we report a case of Brugada syndrome with ST elevation in the right precordial and inferior leads accompanied by atrial standstill and spontaneous ventricular fibrillation. Atrial standstill and J wave elevation were provoked by procainamide. Genetic analysis revealed a missense mutation (R367H) in SCN5A. The resultant mutant Na+ channel was nonfunctional when expressed heterologously in Xenopus oocytes. Our study suggests that genetic defects in SCN5A may be associated with atrial standstill in combination with ventricular arrhythmias.
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PMID:A cardiac sodium channel mutation identified in Brugada syndrome associated with atrial standstill. 1468 50

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