Brugada syndrome (BrS) is a genetic disorder in which the electrical activity of the heart is abnormal due to channelopathy. It increases the risk of abnormal heart rhythms and sudden cardiac death. Those affected may have episodes of syncope. The abnormal heart rhythms seen in those with Brugada syndrome often occur at rest. They may be triggered by a fever. About a quarter of those with Brugada syndrome have a family member who also has the condition. Some cases may be due to a new genetic mutation or certain medications. The most commonly involved gene is SCN5A which encodes the cardiac sodium channel. Diagnosis is typically by electrocardiogram (ECG), however, the abnormalities may not be consistently present. Medications such as

ajmaline Ajmaline (also known by trade names Gilurytmal, Ritmos, and Aritmina) is an alkaloid that is classified as a 1-A antiarrhythmic agent. It is often used to induce arrhythmic contraction in patients suspected of having Brugada syndrome. Individuals ...

may be used to reveal the ECG changes. Similar ECG patterns may be seen in certain electrolyte disturbances or when the blood supply to the heart has been reduced. There is no cure for Brugada syndrome. Those at higher risk of sudden cardiac death may be treated using an implantable cardioverter defibrillator (ICD). In those without symptoms the risk of death is much lower, and how to treat this group is less clear. Isoproterenol may be used in the short term for those who have frequent life-threatening abnormal heart rhythms, while quinidine may be used longer term. Testing people's family members may be recommended. The condition affects between 1 and 30 per 10,000 people. It is more common in males than females and in those of Asian descent. The onset of symptoms is usually in adulthood. It was firstly described by Andrea Nava and Bortolo Martini in Padova in 1989 8but it is named after the Catalan cardiologists Pedro and Josep Brugada who described the condition in 1992. Chen first described the genetic abnormality of SCN5A channels 9

Signs and symptoms

While many of those with Brugada syndrome do not have any symptoms, Brugada syndrome may cause fainting or sudden cardiac death due to serious abnormal heart rhythms such as ventricular fibrillation or polymorphic ventricular tachycardia. Blackouts may be caused by brief abnormal heart rhythms that revert to a normal rhythm spontaneously. If a dangerous heart rhythm does not stop by itself and is left untreated, the person may have a fatal cardiac arrest. However, blackouts can occur in those with Brugada syndrome despite a normal heart rhythm due to a sudden drop in blood pressure, known as

vasovagal syncope Reflex syncope is a brief loss of consciousness due to a neurologically induced drop in blood pressure and/or a decrease in heart rate. Before an affected person passes out, there may be sweating, a decreased ability to see, or ringing i ...

. The abnormal heart rhythms seen in Brugada syndrome often occur at rest, following a heavy meal, or even during sleep. These situations are linked to periods when the vagus nerve is activated, referred to as periods of high

vagal tone Vagal tone is activity of the vagus nerve, the 10th cranial nerve and a fundamental component of the parasympathetic branch of the autonomic nervous system. This branch of the nervous system is not under conscious control and is largely responsible ...

. Abnormal heart rhythms may also occur during fever or following excessive alcohol. Sodium channel blocking medications, commonly used to treat cardiac arrhythmia, may also worsen the tendency to abnormal heart rhythms in patients with Brugada syndrome and should be avoided.

Causes

The individual

heart muscle cells Cardiac muscle (also called heart muscle, myocardium, cardiomyocytes and cardiac myocytes) is one of three types of vertebrate muscle tissues, with the other two being skeletal muscle and smooth muscle. It is an involuntary, striated muscle th ...

communicate with each other with electrical signals that are disrupted in those with Brugada syndrome. As a

genetic condition A genetic disorder is a health problem caused by one or more abnormalities in the genome. It can be caused by a mutation in a single gene (monogenic) or multiple genes (polygenic) or by a chromosomal abnormality. Although polygenic disorders ...

, the syndrome is ultimately caused by changes to a person's DNA, known as genetic mutations. The first mutations described in association with Brugada syndrome were in a gene responsible for a protein or

ion channel Ion channels are pore-forming membrane proteins that allow ions to pass through the channel pore. Their functions include establishing a resting membrane potential, shaping action potentials and other electrical signals by gating the flow of io ...

that controls the flow of

sodium ions Sodium is a chemical element with the symbol Na (from Latin ''natrium'') and atomic number 11. It is a soft, silvery-white, highly reactive metal. Sodium is an alkali metal, being in group 1 of the periodic table. Its only stable is ...

through the cell membrane of

– the

cardiac sodium channel Sodium channel protein type 5 subunit alpha, also known as NaV1.5 is an integral membrane protein and tetrodotoxin-resistant voltage-gated sodium channel subunit. NaV1.5 is found primarily in cardiac muscle, where it mediates the fast influx of N ...

. Many of the genetic mutations that have subsequently been described in association with Brugada syndrome influence the sodium current in some way, or affect other ionic currents. A long list of factors that can generate a Brugada ECG pattern have been described, including certain medications, electrolyte disturbances such as a decrease in the levels of potassium in the blood, and a reduction in blood supply to key areas of the heart, specifically the

right ventricular outflow tract A ventricular outflow tract is a portion of either the left ventricle or right ventricle of the heart through which blood passes in order to enter the great arteries. The right ventricular outflow tract (RVOT) is an infundibular extension of the ...

. Drugs that have been implicated include antiarrhythmic medications such as flecainide, verapamil and propranolol, antidepressants such as amitryptiline, and drugs that enhance vagal tone such as

acetylcholine Acetylcholine (ACh) is an organic chemical that functions in the brain and body of many types of animals (including humans) as a neurotransmitter. Its name is derived from its chemical structure: it is an ester of acetic acid and choline. Part ...

. The ECG pattern can also be seen following excessive use of

alcohol Alcohol most commonly refers to: * Alcohol (chemistry), an organic compound in which a hydroxyl group is bound to a carbon atom * Alcohol (drug), an intoxicant found in alcoholic drinks Alcohol may also refer to: Chemicals * Ethanol, one of sev ...

or cocaine.

Genetics

Brugada syndrome is inherited in an

autosomal dominant In genetics, dominance is the phenomenon of one variant (allele) of a gene on a chromosome masking or overriding the effect of a different variant of the same gene on the other copy of the chromosome. The first variant is termed dominant and t ...

manner, meaning that only one copy of the defective gene is needed to produce the syndrome. However, a person diagnosed with the condition may be the first in their family to have Brugada syndrome if it has arisen as a new mutation. The gene in which mutations are most commonly found in Brugada syndrome, known as '' SCN5A'', is responsible for the cardiac sodium channel. Mutations in SCN5A associated with Brugada syndrome generally cause the flow of sodium ions to decrease. However, only 20% of cases of Brugada syndrome are associated with mutations in ''SCN5A'', as in the majority of patients with Brugada syndrome genetic testing is unable to identify the genetic mutation responsible. Over 290 mutations in the ''SCN5A'' gene have been discovered to date, each altering sodium channel function in subtly different ways. This variation partially explains the differences in severity of the condition between different persons, ranging from a highly dangerous condition causing death at a young age to a benign condition that may not cause any problems at all. However, the genetics of Brugada syndrome are complex, and it is likely that the condition results from the interactions of many genes. Because of these complex interactions, some members of a family who carry a particular mutation may show evidence of Brugada syndrome while other carrying the same mutation may not, referred to as variable penetrance. Mutations in the SCN5A gene seem to have a prognostic value. Several other genes have been identified in association with Brugada syndrome. Some are responsible for other proteins that form part of the sodium channel, known as sodium channel β subunits (

SCN1B Sodium channel subunit beta-1 is a protein that in humans is encoded by the ''SCN1B'' gene. Voltage-gated sodium channels are essential for the generation and propagation of action potentials in striated muscle and neuronal tissues. Biochemically ...

SCN2B Sodium channel subunit beta-2 is a protein that in humans is encoded by the ''SCN2B'' gene. See also * Sodium channel Sodium channels are integral membrane proteins that form ion channels, conducting sodium ions (Na+) through a cell's membrane ...

, SCN3B) while others form different types of sodium channel (

SCN10A Nav1.8 is a sodium ion channel subtype that in humans is encoded by the ''SCN10A'' gene. Nav1.8-containing channels are tetrodotoxin (TTX)-resistant voltage-gated channels. Nav1.8 is expressed specifically in the dorsal root ganglion (DRG), in u ...

). Some genes encode ion channels that carry calcium or potassium ions (

CACNA1C Calcium channel, voltage-dependent, L type, alpha 1C subunit (also known as Cav1.2) is a protein that in humans is encoded by the ''CACNA1C'' gene. Cav1.2 is a subunit of L-type voltage-dependent calcium channel. Structure and function This g ...

, CACNB2, KCND3, KCNE3, KCNJ8, KCNT1), while others generate proteins that interact with ion channels. (

GPD1L GPD1L is a human gene. The protein encoded by this gene contains a glycerol-3-phosphate dehydrogenase (NAD+) motif and shares 72% sequence identity with GPD1. Structure GPD1L contains the following domains: * N-terminal – NAD+ consensus bi ...

, PKP2, MOG1,

FGF12 Fibroblast growth factor 12 is a protein that in humans is encoded by the ''FGF12'' gene. The protein encoded by this gene is a member of the fibroblast growth factor (FGF) family. FGF family members possess broad mitogenic and cell survival act ...

). Another gene associated with this condition is

RRAD RRAD may refer to: * Red River Army Depot, a depot-level maintenance facility located west of Texarkana, Texas * RRAD (gene), a protein that in humans is encoded by the RRAD gene {{disambiguation ...

. The genes associated with Brugada syndrome and their description include: Some mutations associated with Brugada syndrome can also cause other heart conditions. Those who show more than one cardiac conditions at the same time caused by a single mutation are described as having an '

overlap syndrome An overlap syndrome is a medical condition which shares features of at least two more widely recognised disorders. Examples of overlap syndromes can be found in many medical specialties such as overlapping connective tissue disorders in rheumatol ...

'. An example of an overlap syndrome is Brugada and

long QT syndrome Long QT syndrome (LQTS) is a condition affecting repolarization (relaxing) of the heart after a heartbeat, giving rise to an abnormally lengthy QT interval. It results in an increased risk of an irregular heartbeat which can result in fainting, d ...

(LQT3) caused by a mutation in SCN5A that reduces the peak sodium current but simultaneously leaves a persistent current leak. Brugada syndrome has been described as overlapping with arrhythmogenic right ventricular cardiomyopathy (ARVC) caused by a mutation in the PKP2 gene, causing a Brugada ECG pattern but structural changes in the heart characteristic of ARVC. Another example of an overlap syndrome would be Brugada syndrome and major aortopulmonary collateral arteries (MAPCAs) caused by a mutation in

KCNT1 Potassium channel subfamily T, member 1, also known as KCNT1 is a human gene that encodes the KCa4.1 protein. KCa4.1 is a member of the calcium-activated potassium channel protein family Associated Conditions Mutations in the KCNT1 gene has be ...

that leads to an abnormal gain-of-function in potassium channels of neurons and cardiomyocytes.

Mechanisms

Wavebreak and re-entry as a mechanism of arrhythmias

The abnormal heart rhythms seen in those with Brugada syndrome are typically dangerous arrhythmias such as ventricular fibrillation or polymorphic ventricular tachycardia, but those with BrS are also more likely to experience rapid heart rates due to less dangerous arrhythmias such as

AV nodal re-entrant tachycardia AV-nodal reentrant tachycardia (AVNRT) is a type of abnormal fast heart rhythm. It is a type of supraventricular tachycardia (SVT), meaning that it originates from a location within the heart above the bundle of His. AV nodal reentrant tachycar ...

and abnormally slow heart rhythms such as sinus node dysfunction. There are several mechanisms by which the genetic mutations causing this condition might produce these arrhythmias. Some argue that the main reason these arrhythmias arise is due to abnormally slow electrical conduction in areas of the heart, specifically the right ventricle. The genetic variants associated with BrS support the concept as SCN5A, the gene most commonly associated with the condition, along with SCN10A, SCN1B, SCN2B and SCN3B, all directly affect the sodium current ''I''_Na. The sodium current is a major contributor to the characteristic flow of electrical charge across the membrane of heart muscle cells that occurs with each heartbeat known as the action potential. ''I''_Na causes the initial rapid upstroke of the action potential (phase 0), and decreasing the early peak current, as occurs in BrS-associated genetic variants, leads to slowing of the electrical conduction through the heart muscle. This slow conduction allows 'short circuits' to form, blocking the waves of electrical activity in some areas while allowing the waves to pass in others in a phenomenon known as wavebreak. Given the right circumstances, this wavebreak can allow the waves of electricity to perform a U-turn within the muscle, travelling in the reverse direction before beginning to rapidly circle around a point, referred to as re-entry, and causing an abnormal heart rhythm. Those who support this view (known as the depolarisation hypothesis) argue that conduction slowing may explain why arrhythmias in those with Brugada syndrome tend to occur in middle age, when other factors such as scarring or fibrosis that accompany old age have exacerbated the tendency to conduction slowing caused by the genetic mutation. Others suggest that the main cause of arrhythmias is a difference in the electrical properties between the inside ( endocardium) and outside ( epicardium) of the heart (known as the repolarisation hypothesis). The shape of the action potential differs between the epicardium and the endocardium. The action potential in cells from the epicardium shows a prominent notch after the initial spike due to a transient inward current. This notch is far less evident in cells from the endocardium, and the difference between the endocardium and epicardium are most clearly seen in the right ventricle. In those with Brugada syndrome, these differences are increased, creating a brief period within each cardiac cycle when current flows from the endocardium to the epicardium creating the characteristic ECG pattern. The differences in electrical properties between the epi- and endocardium are described as a 'transmural dispersion of repolarisation" which if large enough can lead to electrical impulses becoming blocked in some regions but not others. Once again, this wavebreak can allow the waves of electricity which usually travel in only one direction to instead begin circling around a point as a re-entrant circuit, causing an arrhythmia. A further factor promoting arrhythmias in Brugada syndrome is changes to the structure of the heart. Whilst the heart of those with Brugada syndrome may look normal, scarring or fibrosis is often seen in particular regions of the heart, specifically the right ventricular outflow tract. As Brugada syndrome can be caused by mutation in many different genes, it is possible that different mechanisms may be responsible for the arrhythmias seen in different patients.

Diagnosis

Electrocardiography

Brugada syndrome is diagnosed by identifying characteristic patterns on an electrocardiogram. The pattern seen on the ECG includes ST elevation in leads V₁-V₃ with a

right bundle branch block A right bundle branch block (RBBB) is a heart block in the right bundle branch of the electrical conduction system. During a right bundle branch block, the right ventricle is not directly activated by impulses travelling through the right bu ...

(RBBB) appearance. There may be evidence of a slowing of electrical conduction within the heart, as shown by a prolonged PR interval. These patterns may be present all the time, but may appear only in response to particular drugs (see below), when the person has a fever, during exercise, or as a result of other triggers. The ECG pattern may become more obvious by performing an ECG in which some of the electrodes are placed in different positions from usual, specifically by placing leads V₁ and V₂ higher up the chest wall in the 1st or 2nd intercostal spaces. Three forms of the Brugada ECG pattern have historically been described, although the Type 3 pattern is frequently merged with the Type 2 pattern in contemporary practice. * Type 1 has a coved type ST elevation with at least 2 mm (0.2 mV)

J-point The QRS complex is the combination of three of the graphical deflections seen on a typical electrocardiogram (ECG or EKG). It is usually the central and most visually obvious part of the tracing. It corresponds to the depolarization of the ri ...

elevation and a gradually descending ST segment followed by a negative T-wave. * Type 2 has a saddle-back pattern with at least 2 mm J-point elevation and at least 0.5 mm elevation of the terminal ST segment with a positive or biphasic T-wave. A type 2 pattern can occasionally be seen in healthy subjects. * Type 3 has a saddle-back (type 2 like) pattern, with at least 2 mm J-point elevation but less than 1 mm elevation of the terminal ST segment. According to current recommendations, only a Type 1 ECG pattern, occurring either spontaneously or in response to medication, can be used to confirm the diagnosis of Brugada syndrome as Type 2 and 3 patterns are not infrequently seen in persons without the disease.

Provocation testing

Some medications, particularly antiarrhythmic drugs that block the cardiac sodium current ''I''_Na, can reveal a Type 1 Brugada pattern in susceptible people. These drugs can be used to help make a diagnosis in those suspected of having Brugada syndrome (e.g. survivors of an unexplained cardiac arrest, family members of a person with Brugada syndrome) but in whom a diagnostic ECG pattern has not been seen. In these cases, sodium current blocking medications can be given in a controlled environment. The most commonly used drugs for this purpose are

, flecainide, and procainamide, with some suggestions indicating that ajmaline may be the most effective. Precaution must be taken in giving these medications as there is a small risk of causing abnormal heart rhythms.

Genetic testing

Genetic testing Genetic testing, also known as DNA testing, is used to identify changes in DNA sequence or chromosome structure. Genetic testing can also include measuring the results of genetic changes, such as RNA analysis as an output of gene expression, or ...

can be helpful to identify patients with Brugada syndrome, most commonly in family members of a person with Brugada syndrome, but sometimes performed in a person who has died suddenly and unexpectedly. However, interpretation of the results of genetic testing is challenging. In family members who all carry a particular genetic variant associated with Brugada syndrome, some family members may show evidence of Brugada syndrome on their ECGs while others may not. This means that carrying a genetic mutation associated with Brugada syndrome does not necessarily imply that a person is truly affected by the condition. To further complicate matters, many frequently occurring variations in the SCN5A gene do not cause any problems, and therefore genetic variants are sometimes identified in persons with Brugada syndrome that are not truly causing the disease.

Other investigations

Invasive electrophysiological studies, in which wires are passed through a vein to stimulate and record electrical signals from the heart, can sometimes be used to assess the risk of a person with Brugada syndrome experiencing dangerous abnormal heart rhythms. Risk stratification is also sometimes performed using a signal averaged ECG. Ambulatory ECG monitoring, including implantation of a loop recorder, is sometimes used to assess whether dizziness or faints in a person with Brugada syndrome are due to abnormal heart rhythms or other causes such as vasovagal syncope. File:Brugada syndrome type1 example1 (CardioNetworks ECGpedia).png, Type 1 Brugada ECG pattern (note non-standard lead position, V₅ is placed one intercostal space above V₁ and V₆ is placed one intercostal space above V_2).. File:Brugada syndrome type2 example1 (CardioNetworks ECGpedia).png, Type 2 Brugada ECG pattern

Treatment

The main aim when treating people with Brugada syndrome is to reduce the risk of sudden death due to serious abnormal heart rhythms such as ventricular fibrillation or polymorphic ventricular tachycardia. While some with this condition are at high risk of serious heart rhythm disturbances, others are at much lower risk, meaning that some may require more intensive treatment than others. In addition to treating the person who has Brugada syndrome, it is often important to investigate members of their immediate family to see if they too carry the condition.

Lifestyle

The first line of treatment, suitable for all people with Brugada syndrome regardless of their risk of arrhythmias, is lifestyle advice. People should be advised to recognise and avoid things that may increase the risk of serious arrhythmias. These include avoiding excessive alcohol consumption, avoiding certain medications, and treating fever promptly with

paracetamol Paracetamol, also known as acetaminophen, is a medication used to treat fever and mild to moderate pain. Common brand names include Tylenol and Panadol. At a standard dose, paracetamol only slightly decreases body temperature; it is inferior ...

. Although the abnormal heart rhythms seen in Brugada syndrome are generally more likely to occur at rest or even during sleep, some people with Brugada syndrome experience arrhythmias during strenuous exercise. Some physicians may therefore advise people with Brugada syndrome that while gentle exercise is helpful, very strenuous exercise should be avoided.

Implantable defibrillator

In people felt to be at higher risk of sudden cardiac death, an implantable cardioverter-defibrillator (ICD) may be recommended. These small devices implanted under the skin continuously monitor the heart rhythm. If the device detects a potentially life-threatening arrhythmia it can give the heart a small electric shock, stunning the heart back into a normal rhythm. An ICD can also function as a

pacemaker An artificial cardiac pacemaker (or artificial pacemaker, so as not to be confused with the natural cardiac pacemaker) or pacemaker is a medical device that generates electrical impulses delivered by electrodes to the chambers of the heart eith ...

, preventing abnormally slow heart rates that can also occur in people with Brugada syndrome. Implanting an ICD is a relatively low-risk procedure and is frequently performed as a day case under

local anaesthetic A local anesthetic (LA) is a medication that causes absence of pain sensation. In the context of surgery, a local anesthetic creates an absence of pain in a specific location of the body without a loss of consciousness, as opposed to a general an ...

. However, complications such as infection, bleeding or unnecessary shocks can occur, which can sometimes be serious. Because of the small risk associated with implanting an ICD, as well as the cost of the devices, ICDs are not recommended for all people with Brugada syndrome but are instead reserved for people deemed at higher risk of sudden cardiac death.

Medication

Quinidine is an antiarrhythmic drug that may reduce the chance of serious abnormal heart rhythms occurring in some people with Brugada syndrome. It is most frequently used in people with Brugada syndrome who have an ICD and have experienced several episodes of life-threatening arrhythmias, but may also be used in people at high risk of arrhythmias but in whom an ICD is not appropriate. Isoprenaline, a drug that has similarities with adrenaline, can be used in an emergency for people with Brugada syndrome who are having frequent repeated life-threatening arrhythmias, known as an "electrical storm". This drug must be given as a continuous infusion into a vein and therefore is not suitable for long-term use.

Catheter ablation

A further treatment option for people with Brugada syndrome is radiofrequency catheter ablation. In this procedure, wires are passed through a vein in the leg into the heart, or through a small hole underneath the sternum. These wires are used to find the area of the heart responsible for initiating the arrhythmias. The tip of one of these wires is used to make a series of tiny burns, intentionally damaging the area of abnormal heart muscle that has been causing the problem. Current recommendations suggest that this treatment should be reserved for those with Brugada syndrome who have had repeated shocks from an ICD.

Epidemiology

Between 1 and 30 per 10,000 people are affected by Brugada syndrome. Although those affected are born with the condition, symptoms typically only begin in adulthood. While the rare cases seen in childhood are equally likely to be male or female, in adulthood symptoms occur more frequently in males than females, potentially due to the higher testosterone levels found in men. Brugada syndrome is more common in people of

Asian Asian may refer to: * Items from or related to the continent of Asia: ** Asian people, people in or descending from Asia ** Asian culture, the culture of the people from Asia ** Asian cuisine, food based on the style of food of the people from Asi ...

descent and is the most common cause of sudden death in young males without known underlying cardiac disease in Thailand and

Laos Laos (, ''Lāo'' )), officially the Lao People's Democratic Republic ( Lao: ສາທາລະນະລັດ ປະຊາທິປະໄຕ ປະຊາຊົນລາວ, French: République démocratique populaire lao), is a socialist ...

. In these countries Brugada syndrome is likely to be responsible for many cases of sudden unexpected nocturnal death syndrome (SUNDS). Local names vary – in the Philippines the condition has been known as ''Bangungut'' meaning "a scream followed by sudden death during sleep", while in Thailand it was known as Lai Tai, and in

Japan Japan ( ja, 日本, or , and formally , ''Nihonkoku'') is an island country in East Asia. It is situated in the northwest Pacific Ocean, and is bordered on the west by the Sea of Japan, while extending from the Sea of Okhotsk in the north ...

Pokkuri. Type 1 Brugada ECG patterns are seen more frequently in Asian populations (0–0.36%) than those in Europe (0–0.25%) and the United States (0.03%). Similarly, Type 2 and Type 3 ECG patterns are more prevalent in Asia (0.12–2.23%) than in Europe (0.0–0.6%) or the United States (0.02%).

History

Brugada syndrome is named after the Spanish cardiologists Josep and Pedro Brugada who described the condition in 1992, although the association between the characteristic ECG pattern and sudden cardiac death had been reported in 1989. Brugada syndrome was described as a cause for the sudden unexplained cardiac death syndrome seen in Thai men in 1997. The first genetic mutations affecting the SCN5A gene associated with the syndrome were identified by their brother Ramon Brugada in 1998, with many more mutations affecting at least 19 genes subsequently identified by others. Studies in the 2000s led to competing theories surrounding the mechanisms by which abnormal heart rhythms were generated. Research into Brugada syndrome is ongoing, identifying new genetic variants, exploring mechanisms of arrhythmias, and searching for better treatments.

Society and culture

* A 1992 segment of the television series '' Unsolved Mysteries'' profiled the Guamanian Santos family that had lost various members due to heart issues. Surviving members of the family were ultimately diagnosed with Brugada syndrome."Season 4, Episode: 24." ''Unsolved Mysteries: Original Robert Stack Episodes''. ''Amazon.com''. Cosgrove/Meurer Productions, April 2017. Web. 14 April 2017. * The British television soap opera ''

EastEnders ''EastEnders'' is a Television in the United Kingdom, British soap opera created by Julia Smith (producer), Julia Smith and Tony Holland which has been broadcast on BBC One since February 1985. Set in the fictional borough of Walford in the Ea ...

'' featured a storyline in which one of the characters experienced cardiac arrest due to Brugada syndrome. * In episode 8 of the 8th season of the TV sitcom Scrubs ("My Lawyer's in Love"), Perry Cox asks a final question of intern Ed which he is unable to answer. He is subsequently fired. One correct answer to his question is Brugada Syndrome, while

Long QT syndrome Long QT syndrome (LQTS) is a condition affecting repolarization (relaxing) of the heart after a heartbeat, giving rise to an abnormally lengthy QT interval. It results in an increased risk of an irregular heartbeat which can result in fainting, d ...

would have also been an acceptable answer. * In "

Transplant Transplant or Transplantation may refer to: Sciences *Transplanting a plant from one location to another *Organ transplantation, moving an organ from one body to another *Transplant thought experiment, an experiment similar to Trolley problem *Tra ...

", Season 2, Episode 2, a patient of South Asian descent is diagnosed with it.

References

External links

BrugadaDrugs.org
contains a list of drugs to avoid in people with the Brugada syndrome
GeneReviews: Brugada syndrome
{{DEFAULTSORT:Brugada Syndrome Cardiac arrhythmia Cardiogenetic disorders Channelopathies Congenital disorders Rare syndromes Syndromes affecting the heart Wikipedia medicine articles ready to translate