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Painful Left Bundle Branch Block Syndrome in a Patient Referred to Electrophysiologic Study: A Case Report

Heart Block; Chest Pain; Coronary Artery Diseases/physiopathology; Cardiac Electrophysiology; Electrocardiography; Ecocardiography

Introduction

The development of chest pain associated with intermittent left bundle branch block (LBBB) in the absence of coronary artery disease has been described in the literature as painful left bundle branch block syndrome. The mechanism responsible for the chest pain is unknown, but the main current hypothesis is related to acute cardiac dyssynchrony.

In this syndrome, the LBBB occurs when the cycle length is equal to or less than the refractory period of the left bundle, mainly during physical effort. The chest pain in the case of the painful LBBB syndrome may range from a mild discomfort to a disabling condition.

This report describes the case of a patient with typical rate-dependent LBBB associated with chest pain who was referred to electrophysiologic study (EPS) without evidence of arrhythmias.

Case Report

A 41-year-old woman with a history of controlled hypertension and a 2-year history of palpitations associated with chest pain triggered by minimal efforts during daily activity, which lasted up to 2 hours. The chest pain was described as a pressure sensation that radiated to the left arm associated with nausea and dyspnea. The episodes were characterized by sudden onset, without any prodromes, with spontaneous improvement. She was initially treated with atenolol 25 mg bid, with partial relief of symptoms. There was no family history of unexplained syncope or sudden cardiac death. Her physical examination was unremarkable. The 12-lead electrocardiogram (ECG) during crisis revealed a wide complex tachycardia with complete left bundle branch block (LBBB), with inferior axis and a P wave compatible with sinus rhythm. Even so, the patient was referred to EPS, which did not evidence arrhythmogenic substrates.

However, at the start of a 600 miliseconds continuous atrial pacing, a rate-dependent LBBB was noted. Immediately succeeding the blockade of the LBBB, the patient, who was not maintained under sedation, started to complain about the same symptoms already described. The LBBB persisted during some minutes and relieved itself, concomitant to the relief of pain. The ECG is shown in Figure 1 . It is a typical third degree LBBB with a 138 ms QRS complex duration, superior axis and a sinus P wave.

Figure 1
12-lead ECG of the onset of pain immediately after left bundle branch block

The basal 12-lead ECG was normal ( Figure 2 ). The 24-hour ECG Holter monitoring revealed that basal HR was between 56 and 116 bpm during daily activities, with no evidence of LBBB. Transthoracic echocardiography and cardiac magnetic resonance both showed normal systolic function with no myocardial or valve pathologies. All cardiac chambers were normal in size. A stress test evidenced the development of left bundle branch block associated with thoracic pain. The CT angiography discarded coronary artery disease and myocardial perfusion defects on dypiridamole. Currently, the patient is receiving atenolol 50 mg bid and no recurrence of palpitations or chest pain was evidenced at the 6-month follow-up.

Figure 2
Normal basal 12-lead ECG.

Discussion

In 1946, the first report on intermittent left bundle branch block induced by effort was published. The patient presented with palpitations and aching feeling in precordium during crises. However, the coronary angiography was not performed due to the technology available at the time.11. Eichert H. Transient bundle branch block associated with tachycardia. Am Heart J. United States; 1946 Apr;31:511–8. In 1976, Vieweg et al.22. Vieweg W V, Stanton KC, Alpert JS, Hagan AD. Rate-dependent left bundle branch block with angina pectoris and normal coronary arteriograms. Chest 1976;69(1):123–4. reported the first case of left bundle branch block associated with angina of effort, with angiographic evidence of normal coronary arteries. Although the patient was considered to have angina, atypical characteristics were present: sudden onset and offset, concomitantly with LBBB and after its disappearance, respectively.22. Vieweg W V, Stanton KC, Alpert JS, Hagan AD. Rate-dependent left bundle branch block with angina pectoris and normal coronary arteriograms. Chest 1976;69(1):123–4. In 1982, Virtanen et al. carried out a study with 7 patients with new left bundle branch block and chest pain during exercise test, all of them with normal coronary angiography. In this study, the patient’s pain pattern was evaluated and considered as atypical pain, because of sudden onset and offset.33. Virtanen KS, Heikkila J, Kala R, Siltanen P. Chest pain and rate-dependent left bundle branch block in patients with normal coronary arteriograms. Chest. United States; 1982;81(3):326–31. Subsequently, new cases were reported, and this condition was called painful left bundle branch block syndrome.

The mechanisms of painful LBBB syndrome are unclear. The possibility of demand ischemia due to coronary lesions or spasms was initially considered as a possible cause for this syndrome. However, this assumption was soon proved wrong. Immediate onset/offset of pain is incompatible with ischemia.44. Riera JC, Martínez GO, Vega J, Gordillo E, Ferreira I, Peña C, et al. El bloqueo de rama izquierda inducido por el ejercicio en pacientes con y sin enfermedad coronaria. Rev Española Cardiol [Internet]. 2002;55(5):474–80. Nitroglycerin was proved to be ineffective22. Vieweg W V, Stanton KC, Alpert JS, Hagan AD. Rate-dependent left bundle branch block with angina pectoris and normal coronary arteriograms. Chest 1976;69(1):123–4. and sometimes induced LBBB due to tachycardia. Nuclear imaging is frequently negative in these patients and vasospasm has also been discarded.55. Kafka H, Burggraf GW. Exercise-induced left bundle branch block and chest discomfort without myocardial ischemia. Am J Cardiol. 1984;54(6):676–7. , 66. Heinsimer JA, Skelton TN, Califf RM. Case Report: Rate-Related Left Bundle Branch Block with Chest Pain and Normal Coronary Arteriograms Treated by Exercise Training. Am J Med Sci. 1986;292(5):317–9.

The best theory so far was proposed by Virtanen et al.,33. Virtanen KS, Heikkila J, Kala R, Siltanen P. Chest pain and rate-dependent left bundle branch block in patients with normal coronary arteriograms. Chest. United States; 1982;81(3):326–31. who speculated that the pain could be induced by abnormal systolic motion of the septum in ventriculography. An inferior axis which presented uniformly in a series of cases made the authors hypothesize that this could reflect a specific contractility pattern. Shvlikin et al.77. Shvilkin A, Ellis ER, Gervino E V, Litvak AD, Buxton AE, Josephson ME. Painful left bundle branch block syndrome: Clinical and electrocardiographic features and further directions for evaluation and treatment. Heart Rhythm .2016;13(1):226-32. proposed criteria to the diagnosis of painful LBBB syndrome ( Table 1 ).77. Shvilkin A, Ellis ER, Gervino E V, Litvak AD, Buxton AE, Josephson ME. Painful left bundle branch block syndrome: Clinical and electrocardiographic features and further directions for evaluation and treatment. Heart Rhythm .2016;13(1):226-32.

Table 1
– Painful LBBB syndrome criteria

Similar to the memory T waves of paced patients, chronic LBBB has lower amplitude T waves than acute LBBB. In a prospective study, a S/T ratio < 2.5 in precordial leads proved to be useful (100% sensitivity and 89% specificity) to help distinguish between new-onset or chronic LBBB,88. Shvilkin A, Bojovic B, Vajdic B, Gussak I, Ho KK, Zimetbaum P, et al. Vectorcardiographic and electrocardiographic criteria to distinguish new and old left bundle branch block. Hear Rhythm. 2010;7(8):1085–92. which refers to one of the items of the criteria proposed in Table 1 .

The patient described in this paper was referred to EPS because of the mistaken hypothesis of supraventricular tachycardia with aberrancy. During the study, with continuous atrial pacing, we had the opportunity to register the exact moment of left bundle branch blockade and the immediate complain about the same pain she referred to as chronic.

Regarding the criteria proposed by Schvilkin et al.,88. Shvilkin A, Bojovic B, Vajdic B, Gussak I, Ho KK, Zimetbaum P, et al. Vectorcardiographic and electrocardiographic criteria to distinguish new and old left bundle branch block. Hear Rhythm. 2010;7(8):1085–92. our case matches all but one criterion: the “inferior axis criterion”. However, other publications evidenced superior QRS complex axis as well.99. Prakash G, Suryanarayana PG, Frankel DS, Marchlinski FE, Schaller RD. Painful Left Bundle Branch Syndrome Treated Successfully with Permanent His-Bundle Pacing. Heart Case Reports.2018;4(10):439-43. , 1010. Puerta González-Miró I de la, Piñol-Ripoll G, Río Ligorit A del. Dolor torácico y bloqueo de rama izquierda sin isquemia miocárdica . Na Med Interna.2008;25(5):244-5. The S/T wave ratio was 1,33 in V2 ( Figure 3 ), which is compatible with acute onset LBBB. The patient had abrupt onset of pain, as registered by the members of our team in our electrophysiology lab; the resolution of the symptoms occurred immediately after the resolution of the LBBB; The basal 12-lead ECG was normal. A stress test discarded myocardial ischemia and the CT angiography evidenced normal coronary arteries. Echocardiography and cardiac resonance were both normal, excluding secondary causes of angina.

Figure 3
S/T ratio < 1.8 in V2.

Conclusion

We reported the case of a patient with painful LBBB who was referred to electrophysiology study. The abrupt onset of pain immediate after left bundle blockade is incompatible with ischemia and the patient underwent exams that discarded coronary and myocardial involvement. The best hypothesis for the pathophysiology of this syndrome is painful desynchrony of the heart due to acute onset LBBB. To our knowledge, this is the first case report of this syndrome in a Brazilian medical journal.

Referências

  • 1
    Eichert H. Transient bundle branch block associated with tachycardia. Am Heart J. United States; 1946 Apr;31:511–8.
  • 2
    Vieweg W V, Stanton KC, Alpert JS, Hagan AD. Rate-dependent left bundle branch block with angina pectoris and normal coronary arteriograms. Chest 1976;69(1):123–4.
  • 3
    Virtanen KS, Heikkila J, Kala R, Siltanen P. Chest pain and rate-dependent left bundle branch block in patients with normal coronary arteriograms. Chest. United States; 1982;81(3):326–31.
  • 4
    Riera JC, Martínez GO, Vega J, Gordillo E, Ferreira I, Peña C, et al. El bloqueo de rama izquierda inducido por el ejercicio en pacientes con y sin enfermedad coronaria. Rev Española Cardiol [Internet]. 2002;55(5):474–80.
  • 5
    Kafka H, Burggraf GW. Exercise-induced left bundle branch block and chest discomfort without myocardial ischemia. Am J Cardiol. 1984;54(6):676–7.
  • 6
    Heinsimer JA, Skelton TN, Califf RM. Case Report: Rate-Related Left Bundle Branch Block with Chest Pain and Normal Coronary Arteriograms Treated by Exercise Training. Am J Med Sci. 1986;292(5):317–9.
  • 7
    Shvilkin A, Ellis ER, Gervino E V, Litvak AD, Buxton AE, Josephson ME. Painful left bundle branch block syndrome: Clinical and electrocardiographic features and further directions for evaluation and treatment. Heart Rhythm .2016;13(1):226-32.
  • 8
    Shvilkin A, Bojovic B, Vajdic B, Gussak I, Ho KK, Zimetbaum P, et al. Vectorcardiographic and electrocardiographic criteria to distinguish new and old left bundle branch block. Hear Rhythm. 2010;7(8):1085–92.
  • 9
    Prakash G, Suryanarayana PG, Frankel DS, Marchlinski FE, Schaller RD. Painful Left Bundle Branch Syndrome Treated Successfully with Permanent His-Bundle Pacing. Heart Case Reports.2018;4(10):439-43.
  • 10
    Puerta González-Miró I de la, Piñol-Ripoll G, Río Ligorit A del. Dolor torácico y bloqueo de rama izquierda sin isquemia miocárdica . Na Med Interna.2008;25(5):244-5.
  • Study Association
    This study is not associated with any thesis or dissertation work.
  • Ethics approval and consent to participate
    This article does not contain any studies with human participants or animals performed by any of the authors.
  • Sources of Funding
    There were no external funding sources for this study.

Publication Dates

  • Publication in this collection
    18 May 2020
  • Date of issue
    Apr 2020

History

  • Received
    30 Aug 2018
  • Reviewed
    03 May 2019
  • Accepted
    18 Aug 2019
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