Sindrome de brugada inducido.

 Abstract

Brugada syndrome is an inherited cardiac condition with the potential for development of life-threatening arrhythmias in relatively young individuals without significant structural cardiac abnormalities. The condition is characterized by a distinct coved-type ST segment elevation in the right precordial leads (V1-V3). This hallmark pattern (type 1) is often dynamic and sometimes concealed, and may be unmasked in certain conditions or under the effect of certain agents, which include variation of sympathovagal balance, hormones, metabolic factors and drugs. These factors may not only modulate electrocardiographic morphology and induce the characteristic type 1 pattern, but also predispose to ventricular arrhythmias. The risk of malignant arrhythmias in acute events with induced type 1 pattern may be imminent, particularly if the patient in fact has Brugada syndrome. The physician should be aware of the modulating factors that may underlie a Brugada pattern, and be able to recognize, identify and promptly correct them. The mechanisms responsible for the type 1 pattern and possible associated ventricular arrhythmias induced by these modulating factors have attracted growing attention and interest. Furthermore, not all induced Brugada ECG patterns are observed in patients with Brugada syndrome, existing the possibility for acquired Brugada patterns/syndrome and Brugada phenocopies. This paper reviews the modulating factors associated with induced type 1 pattern as possible causes of arrhythmogenesis, particularly in Brugada syndrome patients, describes some of the probable underlying mechanisms, and discusses the concepts of acquired Brugada syndrome and Brugada phenocopies.

Keywords: Arritmia ventricular; Brugada phenocopy; Brugada syndrome; Exercise; Exercício; Febre; Fenocópias; Fever; Iatrogenia farmacológica; Iatrogenic drugs; Síndrome de Brugada; Ventricular arrhythmia.

Copyright © 2017 Sociedade Portuguesa de Cardiologia. Publicado por Elsevier España, S.L.U. All rights reserved. *1

Abstract

When an ECG shows (or is suspicious for) a Brugada pattern, i.e., the association of a positive terminal deflection and ST segment elevation in the right precordial leads, the cardiologist often faces several problems. Three important questions are raised by this ECG pattern: (1) is this really a Brugada ECG pattern? (2) How can be determined whether this patient is at risk for sudden death? and (3) Should this patient receive an implantable cardioverter-defibrillator (ICD)? The term "Brugada syndrome" should be restricted to patients who have diagnostic ECG changes, as well as a history of symptoms. Asymptomatic subjects, in contrast, should be categorized as having a "Brugada ECG pattern" rather than the syndrome. Diagnostic ECG (type 1) is characterized by a J wave (a terminal positive wave) whose amplitude is > or =2 mm, and a "coved" type ST segment elevation located in the right precordial leads. These signs are usually present in leads V1 and/or V2 (lead V3 is more rarely involved, and is never the only affected one), but occasionally also can be observed in some of the limb leads. Types 2 and 3 ECGs, which are not truly diagnostic of Brugada pattern, are characterized by a "saddle back" ST segment elevation, that is > or =1 mm in type 2 and <1 mm in type 3. In Brugada ECG pattern, the QRS complex characteristically shows a positive terminal deflection that mimics an r' prime wave (the wave occurring in right bundle branch block), in the right precordial leads. Actually, it is a J wave that is very similar to the "Osborn" one observed during hypothermia. The J wave of Brugada ECG pattern is generated by a voltage gradient across the myocardial wall of the right ventricular outflow tract. This abnormal potential can be recorded only by electrodes located very close to the site where that phenomenon is originating. Displacement of the right precordial leads electrodes one or two intercostal spaces above their normal positions may, at times, disclose the diagnostic pattern when conventional leads, recorded at the fourth intercostal space, are non-diagnostic or even normal. High right precordial leads should be recorded whenever standard V1-V3 leads raise the suspicion of Brugada pattern. For example, when a relatively large positive terminal wave, even of low amplitude, is recorded, placing high right precordial leads is an option that should be considered. The ECG may show a marked variation over time, ranging from the typical pattern to a completely normal ECG and back again. In subjects with a non-diagnostic ECG, a pharmacological test with sodium channel blockers may disclose the typical Brugada pattern. In order to establish the diagnosis, several conditions that can mimic Brugada pattern must be excluded. These include right bundle branch block, early repolarization, acute myocardial ischemia, pericarditis, hypercalcemia, hyperkalemia, hypothermia and primary right ventricular diseases, particularly arrhythmogenic right ventricular dysplasia. Some drugs (e.g., some antiarrhythmic drugs, psychotropic agents or antihistamines), hyperthermia and enhanced vagal tone, as it occurs after a full meal, may render Brugada pattern more evident on the ECG. Typical ventricular arrhythmia in Brugada syndrome is a polymorphic ventricular tachycardia, that can evolve into ventricular fibrillation; its mechanism is assumed to be phase 2 reentry. Monomorphic ventricular tachycardia is rarely seen. Atrial fibrillation occurs more frequently in patients with the Brugada ECG pattern than in the general population. A mutation in the SCN5A gene, which encodes the alpha subunit of the cardiac sodium channel, is found in about 20% of the subjects with Brugada pattern; mutations in other genes have less frequently been described. Genetic testing is not very helpful in formulating the diagnosis, but when a mutation is found it could be useful to extend testing to first degree relatives, enabling early detection of abnormal gene carriers. Patients who have experienced an aborted sudden death have a high risk of recurrence and should receive an ICD. A history of syncope, spontaneous type 1 ECG and male sex, not family history of sudden death, are independent risk factors. The role of programmed ventricular stimulation in risk stratification remains the subject of debate. Asymptomatic patients with a Brugada ECG pattern should: (1) receive adequate information on current knowledge concerning this topic, (2) be given the list of forbidden drugs, (3) be informed to promptly treat hyperthermia, (4) be informed that clinical evaluation should be extended to their first degree relatives, 5) undergo regular cardiology follow-up. Also in this group the role of programmed ventricular stimulation in risk stratification is debated. Subjects showing a Brugada pattern after a pharmacological challenge should be followed-up with ECG and 12-lead Holter monitoring, if available, to identify the appearance of spontaneous type 1 ECG. Symptoms should be promptly reported.*2

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Abstract

Objectives: We examined the modulatory effects of autonomic nervous system and antiarrhythmic drugs on the ST segment in patients with Brugada syndrome to gain an insight into the mechanism of ST segment elevation.

Background: Right bundle branch block, ST segment elevation and ventricular tachyarrhythmias define a distinct clinical and electrocardiographic (ECG) syndrome (Brugada syndrome). However, the mechanism of ST segment elevation and the causes of this syndrome are unknown.

Methods: The study included four patients in whom structural heart or coronary artery disease was excluded by noninvasive and invasive tests. High take-off ST segment elevation of either the coved or saddle-back type in precordial leads V1, V2 and V3 was seen in all patients. Three patients experienced recurrent episodes of syncope or aborted sudden cardiac death, and the remaining patient had palpitation. Autonomic receptor stimulation and blockade and intravenous administration of antiarrhythmic drugs were performed during sinus rhythm while the 12-lead ECG was recorded. Metaiodobenzylguanidine (MIBG) scanning and Holter monitoring were also performed.

Results: Beta-adrenoceptor stimulation by intravenous isoproterenol consistently reduced (> or = 0.1 mV) ST segment elevation at or 80 ms after the J point in all four patients. Selective alpha-adrenoceptor stimulation by intravenous norepinephrine in the presence of propranolol or by intravenous methoxamine consistently augmented, whereas alpha-adrenoceptor blockade reduced, ST segment elevation in three patients. Intracoronary acetylcholine or intravenous edrophonium or neostigmine augmented ST segment elevation without inducing coronary spasm in three of four patients. Class IA antiarrhythmic drugs also consistently augmented (three patients), whereas class IB drugs had no effect on (two patients) ST segment elevation. No abnormality was found on MIBG imaging or heart rate variability in three patients, suggesting that autonomic dysfunction is not a primary disease process. Class IA drugs had no effect on ST segment in three control patients, suggesting that the ST segment elevation seen in patients with Brugada syndrome in response to the drugs is not a nonspecific response.

Conclusions: ST segment elevation in patients with Brugada syndrome was augmented by selective stimulation of alpha-adrenoceptors or muscarinic receptors or by class IA drugs but was mitigated by beta-adrenoceptor stimulation or alpha-adrenoceptor blockade. These responses might be explained by postulating the presence of an area of early repolarization or a local "depolarized" area in the ventricle causing ST segment elevation in this syndrome. Because only a small number of patients were studied, these possibilities need further evaluation.*3

Abstract

In 1992 a new syndrome was described consisting of syncopal episodes and/or sudden death in patients with a structurally normal heart and an electrocardiogram (ECG) characteristic of right bundle branch block with ST segment elevation in leads V1 to V3. The disease is genetically determined, with an autosomal dominant pattern of transmission. Three different mutations that affect the structure and function of the cardiac sodium channel gene SCN5A have been identified. Two mutations result in total loss of function of the sodium channel. The other mutation results in acceleration of the recovery of the sodium channel from inactivation. The incidence of the disease is difficult to estimate, but it causes 4 to 10 sudden deaths per 10000 inhabitants per year in areas like Thailand and Laos. In these countries, the disease represents the most frequent cause of death in young adults. Up to 50% of the yearly sudden deaths in patients with a structurally normal heart are caused by this syndrome. The diagnosis is easily made by means of the ECG. The presence of concealed and intermittent forms, however, make the diagnosis difficult in some patients. The ECG can be modulated by changes in autonomic balance and the administration of antiarrhythmic drugs. Beta-adrenergic stimulation normalizes the ECG, while intravenous ajmaline, flecainide or procainamide accentuate ST segment elevation and are capable of unmasking concealed and intermittent forms of the disease. Recent data suggest that loss of the action potential dome in the right ventricular epicardium but not the endocardium underlies ST segment elevation seen in the Brugada syndrome. Also, electrical heterogeneity within the right ventricular epicardium leads to the development of closely coupled extrasystoles via a phase 2 reentrant mechanism, which then precipitates ventricular tachycardia-ventricular fibrillation. Right ventricular epicardium is preferentially affected because of the predominance of transient outward current in this tissue. Antiarrhythmic drugs like amiodarone and beta-blockers do not prevent sudden death in symptomatic or asymptomatic individuals. Gene therapy may offer a cure in future years. Implantation of an automatic cardioverter-defibrillator is the only currently proven effective therapy.*4

Abstract

In 1992 we described a new syndrome characterized by syncopal or sudden death episodes in patients with a structurally normal heart and a characteristic electrocardiogram 9 showing a pattern of right bundle branch block and ST segment elevation in right precordial leads V1 to V3. The disease is genetically determined with and autosomic dominant pattern of transmission. Until now three mutations and one polymorphism in the sodium cardiac channel gene have been identified in two families and one sporadic patient. As in many other genetically determined diseases, the disease is heterogeneous, caused by more than one gene. The syndrome has been identified in almost all countries in the world. Its incidence is difficult to evaluate, but it seems to be responsible for 4 to 10 sudden deaths per year per 10,000 inhabitants in areas like Laos or Thailand, and it represents the most frequent cause of death in young male adults in these countries. Up to 50% of all sudden deaths in patients with structurally normal heart are caused by the disease. The diagnosis can be easily made thanks to the characteristic electrocardiographic pattern. In some patients, the presence of concealed and intermittent forms might make the diagnosis more difficult. The electrocardiogram can be modulated by autonomic changes and administration of antiarrhythmic drugs. Beta-adrenergic stimulation normalizes the electrocardiogram, whereas ajmaline, flecainide or procainamide administration increase ST segment elevation. These drugs allow the unmasking of concealed or intermittent forms of the disease. Prognosis of patients with the syndrome is poor without an implantable defibrillator and antiarrhythmic drugs like amiodarone or betablockers do not protect against sudden death. The poor prognosis is similar in patients with a history of aborted sudden death or syncope and in asymptomatic patients in whom the abnormal electrocardiogram characteristic of the syndrome, was identified during a routine examination.*5

*1Induced Brugada syndrome: Possible sources of arrhythmogenesis

[Article in English, Portuguese]

Gonçalo Tomé et al. Rev Port Cardiol. 2017 Dec.

*2Doubts of the cardiologist regarding an electrocardiogram presenting QRS V1-V2 complexes with positive terminal wave and ST segment elevation. Consensus Conference promoted by the Italian Cardiology Society

[Article in Italian]

Giuseppe Oreto et al. G Ital Cardiol (Rome). 2010 Nov.

*3Autonomic and antiarrhythmic drug modulation of ST segment elevation in patients with Brugada syndrome.

T Miyazaki et al. J Am Coll Cardiol. 1996 Apr.

*4The syndrome of right bundle branch block ST segment elevation in V1 to V3 and sudden death--the Brugada syndrome

J Brugada et al. Europace. 1999 Jul.

*5 Sudden death (VI). The Brugada syndrome and right myocardiopathies as a cause of sudden death. The differences and similarities]

[Article in Spanish]

J Brugada et al. Rev Esp Cardiol. 2000 Feb.