Flecainide Test in Brugada Syndrome: A Reproducible but Risky Tool

Gasparini, Maurizio; Priori, Silvia G.; Mantica, Massimo; Napolitano, Carlo; Galimberti, Paola; Ceriotti, Carlo; Simonini, Stefano

doi:10.1046/j.1460-9592.2003.00045.x

Cited by 84 publications

(51 citation statements)

References 12 publications

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“…The challenge test with the administration of a class IC drug could induce lethal ventricular arrhythmias. 2,10) Incessant and monomorphic VT is well known as a proarrhythmia induced by a strong slowing effect of intraventricular conduction due to class IC antiarrhythmic agents. 11) Although we could not identify their wide QRS tachyacardia as ventricular in origin, we speculate that their incessant tachyacardia may be VT as a proarrhythmic effect due to intoxication of IC drugs.…”

Section: Discussionmentioning

confidence: 99%

Two Cases of Pilsicainide Intoxication showing the Brugada-type Electrocardiographic Findings and Incessant Wide QRS Tachycardia

et al. 2008

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We have experienced two patients with the Brugada-type electrocardiographic abnormalities and incessant wide QRS tachycardia (presumed ventricular tachycardia) induced by intoxication of a class IC antiarrhythmic drug pilsicainide. They were elderly men with impaired renal function. Plasma concentration of pilsicainide was elevated to a toxic level in both patients. After cessation of pilsicainide, incessant wide QRS tachycardia spontaneously subsided and intraventricular conduction delay with coved type ST segment elevation in V1 and V2 disappeared. In the elderly or patients with renal dysfunction, we should be very careful regarding dose adjustment of pilsicainide or it may be better to avoid using this drug. Pilsicainide, classified as a class IC drug, has a strong sodium channel blocking effect which depresses conduction in various regions of the heart. 1) Pilsicainide can unmask or aggravate the Brugadatype electrocardiogram (ECG) in patients with latent Brugada syndrome. 2,3) We have experienced 2 patients with the Brugada-type ECG abnormalities and incessant wide QRS tachycardia, presumed ventricular tachycardia (VT), induced by intoxication of pilsicainide. Case PresentationCase 1: A 73-year-old man was referred to our hospital for loss of consciousness. He had suffered from hypertension and diabetes since he was 30-year-old, and he had blood dialysis regularly in a local clinic for chronic renal failure since he was 65. He had been taking flecainide (50 mg per day) for 3 years because of paroxysmal atrial fibrillation (AF). However, two months ago, another clinic gave him an additional prescription of pilsicainide 150 mg per day (50 mg t.i.d.) for recurrent AF. On May 10, 2005, he had an episode of polymorphic wide QRS tachycardia with loss of consciousness during hemodialysis. The 12-lead ECG showed a regular wide QRS rhythm of 80 beats/min without visible P waves and marked coved-type ST segment elevation in V1 and V2 (Figure 1, left). He was transferred to our hospital to treat his presumed Brugada syndrome. On admission, physical examination was unremarkable. Chest X-ray revealed cardiomegaly

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Section: Discussionmentioning

confidence: 99%

Two Cases of Pilsicainide Intoxication showing the Brugada-type Electrocardiographic Findings and Incessant Wide QRS Tachycardia

et al. 2008

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“…The use of the class 1c drugs flecainide and pilsicainide in BrS patients has been reported to elicit major ventricular arrhythmias in 15% to 20% of the patients. 16, 17 The occurrence of major ventricular arrhythmias was found to be significantly higher in symptomatic patients 16 and in patients with documented SCN5A mutations. 17 As stated earlier, the patients in this study by Brugada et al were not an overtly high-risk subset; it is logical to speculate that the incidence could be much higher in BrS patients with frequent ICD discharges because of recurrent VT/VF episodes, who have a clear indication for an ablative procedure for substrate elimination.…”

Section: Wilde and Nademanee Epicardial Substrate Ablation In Brugadamentioning

confidence: 97%

“…16, 17 The occurrence of major ventricular arrhythmias was found to be significantly higher in symptomatic patients 16 and in patients with documented SCN5A mutations. 17 As stated earlier, the patients in this study by Brugada et al were not an overtly high-risk subset; it is logical to speculate that the incidence could be much higher in BrS patients with frequent ICD discharges because of recurrent VT/VF episodes, who have a clear indication for an ablative procedure for substrate elimination. The risks of precipitating refractory VT/VF in the electrophysiology laboratory during flecainide infusion should indeed be greatly considered before recommending that the drug be used routinely for unmasking the BrS arrhythmogenic substrates or for seeking better alternative sodium channel blockers (ie, ajmaline or procainamide) for this purpose.…”

Section: Wilde and Nademanee Epicardial Substrate Ablation In Brugadamentioning

confidence: 97%

Epicardial Substrate Ablation in Brugada Syndrome

Wilde

Nademanee²

2015

Circ: Arrhythmia and Electrophysiology

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“…This disorder manifests as J-point and ST segment elevation in the right precordial leads of the ECG, without significant prolongation of the QT interval. Patients with the Brugada syndrome may be susceptible to ventricular arrhythmias after treatment with drugs that block I Na , specifically class I antiarrhythmic agents such as flecainide, which is used to accentuate the ECG abnormalities of suspected Brugada patients to aid diagnosis (Gasparini et al, 2003). SCN5A mutations are capable of producing a wide range of clinical symptoms; whereas LQT and Brugada syndrome sufferers experience life-threatening arrhythmias, other SCN5A mutations can cause cardiac-conduction disease, light-headedness, or syncope.…”

Section: Lethal Mutations and Subtle Snps In The Scn5a Genementioning

confidence: 99%

Pharmacogenetic Considerations in Diseases of Cardiac Ion Channels

Anantharam¹,

Markowitz²,

Abbott³

2003

J Pharmacol Exp Ther

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Phenotypic variation within a species arises from differences in genetic makeup between individuals. This inherent diversity empowers the species as a whole to explore and expand into new environmental niches and also to survive new stressors within an ever-changing environment. Paradoxically, one class of stressors currently challenging the human population is therapeutic drugs: medications designed to combat disease are often associated with a host of nonspecific side effects. Following earlier studies of the involvement of some cardiac ion currents in unwanted drug interactions, recent reports have identified not only the ion channel subunits involved but also a range of mutations and single nucleotide polymorphisms in ion channel genes that predispose to both drug-induced and familial cardiac arrhythmia. The tendency for individuals harboring specific, often common, gene variants to succumb to life-threatening cardiac arrhythmia, and the contribution of other factors such as drug interaction to disease etiology in these cases, are discussed here together with potential pharmacogenetic strategies for arrhythmia circumvention and therapy.The tendency for genes to mutate is the key to evolution and the existence of distinct species of living organisms. Although some gene mutations arise and are selected against because of their adverse effects on the ability of an individual to survive and compete, other variants are not harmful, are not selected against, and thus either predominate or coexist as common sequence variants in the general population (Darwin, 1859;Mendel, 1901). In contrast to conventional evolutionary pressures, the rapidity with which humans can alter their lifestyle and surroundings produces abrupt incompatibilities between the human genome and its environment, exemplified by the response of human populations to therapeutic drugs. Individual responses to drug treatment vary due to a variety of extrinsic and intrinsic factors, ranging from gross differences between patients that determine how a drug is absorbed or eliminated based on weight, age, metabolism and clearance, to more insidious ones that are not as accessible to conventional measures of drug disposition. Increasingly, the specific gene variants underlying this variability are being identified, leading to a growing consensus that accounting for these variants will result in safer, more effective drugs. The field of pharmacogenetics, therefore, aims to provide insight into how genetic determinants may underlie a subject's response to therapeutic drugs. In the study of cardiovascular diseases, a growing body of pharmacogenetic data suggests that mutations and more common single nucleotide polymorphisms in genes that encode cardiac ion channels can determine why certain patients respond better than others do to antiarrhythmic treatment. Furthermore, these gene variants can hold the key to understanding why individuals who are asymptomatic for cardiac disease will be exposed to risk for long QT syndrome, ventricular fibrillation, s...

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Flecainide Test in Brugada Syndrome: A Reproducible but Risky Tool

Cited by 84 publications

References 12 publications

Two Cases of Pilsicainide Intoxication showing the Brugada-type Electrocardiographic Findings and Incessant Wide QRS Tachycardia

Two Cases of Pilsicainide Intoxication showing the Brugada-type Electrocardiographic Findings and Incessant Wide QRS Tachycardia

Epicardial Substrate Ablation in Brugada Syndrome

Pharmacogenetic Considerations in Diseases of Cardiac Ion Channels

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