Electrocardiography Recordings in Higher Intercostal Space for Children With Right Ventricular Outlet Obstruction Reconstruction Operation

Kim, Jung Ok; Kim, Yeo Hyang; Hyun, Myung Chul

Korean Circ J. 2012 Jun;42(6):414-418. 10.4070/kcj.2012.42.6.414.

Electrocardiography Recordings in Higher Intercostal Space for Children With Right Ventricular Outlet Obstruction Reconstruction Operation

Affiliations

¹Department of Pediatrics, Inje University Busan Paik Hospital, Busan, Korea.
²Department of Pediatircs, Keimyung University School of Medicine, Daegu, Korea. kimyhped@hanmail.net
³Department of Pediatrics, Kyungpook National University School of Medicine, Daegu, Korea.

KMID: 1433861
DOI: http://doi.org/10.4070/kcj.2012.42.6.414

Abstract

BACKGROUND AND OBJECTIVES
We checked traditional and high-level precordial electrocardiogram (ECG) leads in patients who had undergone right ventricular outlet obstruction (RVOT) reconstruction surgery and evaluated the effect of ECG lead position on their QRS duration.
SUBJECTS AND METHODS
We enrolled 34 patients who had undergone surgery for congenital heart disease with RVOT obstruction and who had received followed up care that included recorded ECG at a pediatric cardiac out-patient clinic. The control group included 29 patients who did not have hemodynamically significant intracardiac abnormality. We recorded traditional standard 12-leads ECG from the 4th intercostals space, and moved the precordial leads to the 3rd and 2nd intercostals spaces, and recorded ECGs repeatedly.
RESULTS
In all groups, there was no significant difference of mean QRS duration and QTc interval between traditional standard 12-leads ECGs and ECGs at higher intercostals spaces. There was no significant difference of ECG parameters between groups. In the control group, the degree of the change between the 4th intercostals space (ICS) QRS and 3rd ICS QRS was significant (p=0.031), and although, it was insignificant, ECGs at the 3rd ICS showed decreased QRS duration in group 1 (V1: 3rd ICS 119.21+/-21.53 msec vs. 4th ICS 122.80+/-31.78 msec. V2: 3rd ICS 113.68+/-19.43 msec vs. 4th ICS 118.24+/-19.16 msec).
CONCLUSION
Although the positional change of ECG leads did not result in a significant effect on measuring QRS duration after surgery, ECG leads at the 3rd ICS rather than at the 4th ICS may cause alteration of ECG readings. Therefore, we suggest that ECGs should be recorded in as accurate a position as possible.

Keyword

Heart ventricles; Electrocardiography; Thoracic surgery

MeSH Terms

Child
Electrocardiography
Heart Diseases
Heart Ventricles
Humans
Outpatients
Reading
Thoracic Surgery

Reference

1. Harrison DA, Harris L, Siu SC, et al. Sustained ventricular tachycardia in adult patients late after repair of tetralogy of Fallot. J Am Coll Cardiol. 1997. 30:1368–1373.

2. Kugler JD. Predicting sudden death in patients who have undergone tetralogy of fallot repair: is it really as simple as measuring ECG intervals? J Cardiovasc Electrophysiol. 1998. 9:103–106.

3. Marie PY, Marçon F, Brunotte F, et al. Right ventricular overload and induced sustained ventricular tachycardia in operatively "repaired" tetralogy of Fallot. Am J Cardiol. 1992. 69:785–789.

4. Garson A Jr, Porter CB, Gillette PC, McNamara DG. Induction of ventricular tachycardia during electrophysiologic study after repair of tetralogy of Fallot. J Am Coll Cardiol. 1983. 1:1493–1502.

5. Balaji S, Lau YR, Case CL, Gillette PC. QRS prolongation is associated with inducible ventricular tachycardia after repair of tetralogy of Fallot. Am J Cardiol. 1997. 80:160–163.

6. Gatzoulis MA, Balaji S, Webber SA, et al. Risk factors for arrhythmia and sudden cardiac death late after repair of tetralogy of Fallot: a multicentre study. Lancet. 2000. 356:975–981.

7. Lucron H, Marçon F, Bosser G, Lethor JP, Marie PY, Brembilla-Perrot B. Induction of sustained ventricular tachycardia after surgical repair of tetralogy of Fallot. Am J Cardiol. 1999. 83:1369–1373.

8. Abd El Rahman MY, Abdul-Khaliq H, Vogel M, Alexi-Meskishvili V, Gutberlet M, Lange PE. Relation between right ventricular enlargement, QRS duration, and right ventricular function in patients with tetralogy of Fallot and pulmonary regurgitation after surgical repair. Heart. 2000. 84:416–420.

9. Wu MH. Sudden death in pediatric populations. Korean Circ J. 2010. 40:253–257.

10. Lee YS, Baek JS, Kwon BS, et al. Pediatric emergency room presentation of congenital heart disease. Korean Circ J. 2010. 40:36–41.

11. Rudiger A, Hellermann JP, Mukherjee R, Follath F, Turina J. Electrocardiographic artifacts due to electrode misplacement and their frequency in different clinical settings. Am J Emerg Med. 2007. 25:174–178.

12. Batchvarov VN, Malik M, Camm AJ. Incorrect electrode cable connection during electrocardiographic recording. Europace. 2007. 9:1081–1090.

13. Babu-Narayan SV, Kilner PJ, Li W, et al. Ventricular fibrosis suggested by cardiovascular magnetic resonance in adults with repaired tetralogy of fallot and its relationship to adverse markers of clinical outcome. Circulation. 2006. 113:405–413.

14. Anter E, Frankel DS, Marchlinski FE, Dixit S. Effect of electrocardiographic lead placement on localization of outflow tract tachycardias. Heart Rhythm. 2012. 9:697–703.

15. Sangwatanaroj S, Prechawat S, Sunsaneewitayakul B, Sitthisook S, Tosukhowong P, Tungsanga K. New electrocardiographic leads and the procainamide test for the detection of the Brugada sign in sudden unexplained death syndrome survivors and their relatives. Eur Heart J. 2001. 22:2290–2296.

16. Sangwatanaroj S, Prechawat S, Sunsaneewitayakul B, Sitthisook S, Tosukhowong P, Tungsanga K. Right ventricular electrocardiographic leads for detection of Brugada syndrome in sudden unexplained death syndrome survivors and their relatives. Clin Cardiol. 2001. 24:776–781.

17. Shimizu W, Matsuo K, Takagi M, et al. Body surface distribution and response to drugs of ST segment elevation in Brugada syndrome: clinical implication of eighty-seven-lead body surface potential mapping and its application to twelve-lead electrocardiograms. J Cardiovasc Electrophysiol. 2000. 11:396–404.

18. Nanke T, Nakazawa K, Arai M, et al. Clinical significance of the dispersion of the activation--recovery interval and recovery time as markers for ventricular fibrillation susceptibility in patients with Brugada syndrome. Circ J. 2002. 66:549–552.

19. Takagi A, Nakazawa K, Sakurai T, Nanke T, Miyake F. Prolongation of LAS40 (duration of the low amplitude electric potential component (<40 microV) of the terminal portion of the QRS) induced by isoproterenol in 11 patients with Brugada syndrome. Circ J. 2002. 66:1101–1104.

20. Oreto G, Corrado D, Delise P, et al. Doubts 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. G Ital Cardiol (Rome). 2010. 11:11 Suppl 2. 3S–22S.

Electrocardiography Recordings in Higher Intercostal Space for Children With Right Ventricular Outlet Obstruction Reconstruction Operation

Abstract

Keyword

MeSH Terms

Reference

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