Brugada Syndrome and Sudden Cardiac Death: An Electrocardiographic History

Author Affiliation Mark L. Moubarek, MD University of California, Davis Health, Department of Emergency Medicine, Sacramento, California Gordon X. Wong, MD University of California, Davis Health, Department of Internal Medicine, Division of Cardiovascular Medicine, Sacramento, California James S. Ford, MD, MAS University of California, San Francisco, Department of Emergency Medicine, San Francisco, California

Case presentation
Discussion

ABSTRACT

Case Presentation

A 22-year-old male with a history of anti-neutrophil cytoplasmic antibody vasculitis, renal transplant, hypertension, and no known family history of sudden cardiac death suffered a witnessed cardiac arrest. An initial rhythm strip recorded by emergency medical services revealed ventricular fibrillation. Return of spontaneous circulation was achieved after three rounds of cardiopulmonary resuscitation, defibrillation, and intravenous epinephrine. The patient was brought to the emergency department and admitted to the intensive care unit. He was diagnosed with Brugada syndrome, and an automatic implantable cardioverter-defibrillator (AICD) was placed after discharge.

Discussion

Brugada syndrome is characterized electrocardiographically by ≥2 millimeters (mm) ST-segment elevation in leads V1–V2 with either “coved type” (type 1) or “saddleback” (type 2) ST-segment morphology, or ≤2 mm ST-segment elevation in V1–V2 with either “coved” or “saddleback” morphology (type 3). The absence of these patterns on isolated electrocardiograms (ECG) does not exclude the diagnosis, as dynamic fluctuations in ECG patterns are well-documented and can be induced by various physiologic stressors. This case provides an uncommon, complete electrocardiographic history of Brugada syndrome, from out-of-hospital cardiac arrest to AICD placement and depicts dynamic fluctuations between Brugada patterns and normal ECGs. This highlights the importance of serial ECGs in diagnosis, as sudden cardiac death is often the first or only presentation of Brugada syndrome.

CASE PRESENTATION

A 22-year-old male, with a history of anti-neutrophil cytoplasmic antibody vasculitis, renal transplant, hypertension, and no known family history of sudden cardiac death, suffered a witnessed out-of-hospital cardiac arrest, receiving bystander cardiopulmonary resuscitation (CPR). An initial electrocardiogram (ECG) rhythm strip in the field revealed ventricular fibrillation (VF) (Image 1). The patient achieved return of spontaneous circulation (ROSC) after three milligrams (mg) of intravenous (IV) epinephrine, 450 mg IV amiodarone, and three rounds of CPR and defibrillation. He was intubated in the field. A post-ROSC ECG demonstrated Brugada type 1 ST-segment elevation in V1–V2 (Image 2A).
1
In the emergency department (ED) an ECG showed dynamic resolution of the Brugada pattern (Image 2B).

 

Image 1.

Rhythm strip performed by emergency medical services showing ventricular fibrillation (red bracket) followed by defibrillation (lightning symbol), with conversion to a wide-complex tachycardia consistent with ventricular tachycardia (blue bracket).

 

Image 2.

A. Electrocardiogram performed by emergency medical services prior to arrival to the emergency department, showing Brugada pattern (type 1) ST-segment elevation in leads V1–V2 (red arrows). B. Initial ECG performed in the ED, with resolution of Brugada pattern ST-segment elevations (red box).

The patient was given calcium gluconate empirically for the treatment of presumptive hyperkalemia, given his history of renal transplant. In the ED, labs were notable for a pH of 6.90 (reference range 7.35–7.40); partial pressure of carbon dioxide 67 millimeters of mercury (mm Hg) (35–45 mm Hg), bicarbonate 13 milliequivalents per liter (mEq/L) (22–28 mEq/L), and potassium 2.4 mEq/L (3.5–5.2 mEq/L). Four hours later, pH and potassium normalized without further intervention. The patient briefly required a norepinephrine infusion for low blood pressure and was given empiric broad spectrum antibiotics to cover for possible sepsis. Antibiotics were discontinued after a negative infectious workup.

An echocardiogram and computed tomography of the head, chest, abdomen, and pelvis were unremarkable. The patient was admitted to the intensive care unit and underwent targeted temperature management. An ECG from hospital day five re-demonstrated a type 1 Brugada pattern (Image 3A), and an ECG from hospital day 10 showed a type 3 Brugada pattern (Image 3B).
2
Given the re-demonstration of Brugada patterns despite normalization of laboratory derangements and no other identified cause of cardiac arrest, he was diagnosed with Brugada syndrome. No formal electrophysiologic testing was performed. He was discharged on hospital day 28 with a LifeVest (Zoll Medical Corporation, Pittsburgh, PA) after a near-complete physical and neurologic recovery, and he underwent outpatient automatic-implantable-cardioverter-defibrillator (AICD) placement. Genetic testing performed later as an outpatient was inconclusive.

 

Image 3.

A. Electrocardiogram (ECG) performed approximately 60 hours post initial cardiac arrest, again with down-sloping ST-segment (Type 1) elevations in leads V1–V2 (red arrows). B. ECG performed 10 days after initial cardiac arrest showing saddleback ST-segment elevation <2 mm (type 3) in lead V2 (blue arrows).

DISCUSSION

Brugada syndrome is characterized electrocardiographically by ≥2 mm ST-segment elevation in leads V1–V2 with either “coved type” (type 1) or “saddleback” (type 2) ST-segment morphology, or ≤2 mm ST-segment elevation in V1–V2 with either “coved” or “saddleback” morphology (type 3).
1

,

2
The absence of these patterns on isolated ECGs does not exclude the diagnosis, as dynamic fluctuations in ECG patterns are well-documented and can occur in response to medications, fever, exercise or other stressors
1

,

3
While this patient did not undergo formal electrophysiologic testing, established diagnostic criteria do not necessitate this, and its utility is questionable in VF-survivors.
2
Similarly, this patient’s genetic testing was inconclusive; only 10–30% of patients have been successfully genotyped, owing to the broad heterogeneity and complexity of underlying genetic risk factors that can predispose an individual to Brugada syndrome.
2

This case provides an uncommon, complete electrocardiographic history of Brugada syndrome, from out-of-hospital cardiac arrest to AICD placement and depicts classic dynamic fluctuations between Brugada patterns and normal rhythms on ECG. This highlights the importance of serial ECGs in diagnosis, as sudden cardiac death is often the first or only presentation of Brugada syndrome.
4

Footnotes

Section Editor: R. Gentry Wilkerson, MD

Full text available through open access at http://escholarship.org/uc/uciem_cpcem

Conflicts of Interest: By the CPC-EM article submission agreement, all authors are required to disclose all affiliations, funding sources and financial or management relationships that could be perceived as potential sources of bias. The authors disclosed none.

Address for Correspondence: Mark L. Moubarek, MD, University of California, Davis, Department of Emergency Medicine, 450 V Street, Patient Support Services Building, Suite 2100, Sacramento, CA 95817. Email: mlmoubarek@ucdavis.edu
8:314 – 317

Submission history: Revision received February 21, 2024; Submitted May 3, 2024; Accepted May 5, 2024

The authors attest that their institution requires neither Institutional Review Board approval, nor patient consent for publication of this case report. Documentation on file.

REFERENCES

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