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Electrophysiological Studies and Radiofrequency Ablations in Children and Adolescents with Arrhythmia

Abstracts

Background:

Radiofrequency ablation is the standard non-pharmacological treatment for arrhythmias in pediatric patients. However, arrhythmias and their associated causes have particular features in this population.

Objective:

To analyze the epidemiological characteristics and findings of electrophysiological diagnostic studies and radiofrequency ablations in pediatric patients referred to the Electrophysiology Unit at Instituto de Cardiologia do Rio Grande do Sul, in order to characterize the particularities of this population.

Methods:

Cross-sectional study with 330 electrophysiological procedures performed in patients aged less than 20 years between June 1997 and August 2013.

Results:

In total, 330 procedures (9.6% of the overall procedures) were performed in patients aged less than 20 years (14.33 ± 3.25 years, age range 3 months to 19 years), 201 of which were males (60.9%). A total of 108 (32.7%) electrophysiological diagnostic studies were performed and of these, 48.1% showed abnormal findings. Overall, 219 radiofrequency ablations were performed (66.3%) with a success rate of 84.8%. The presence of an accessory pathway was the most prevalent finding, occurring in 158 cases (72.1%), followed by atrioventricular nodal reentrant tachycardia (16.8%), typical atrial flutter (3.1%) and extrasystoles originating from the right ventricular outflow tract (2.7%). Three patients developed complications during ablation (1.4%). Among congenital heart diseases, which occurred in 51 (15.4%) patients, atrial sept defect was the most frequent (27.4%), followed by ventricular sept defect (25.4%) and Ebstein's anomaly (17.6%).

Conclusion:

Electrophysiological study and radiofrequency ablation are effective tools for diagnosis and treatment of arrhythmias in the pediatric population.

Arrhythmias; Cardiac; Catheter Ablation; Child; Adolescent; Electrophysiologic Techniques, Cardiac


Fundamento:

A ablação com radiofrequência é o tratamento não farmacológico de eleição para arritmias na população pediátrica. Porém, as arritmias e suas causas apresentam características particulares nesta população.

Objetivos:

Analisar as características epidemiológicas e os achados de estudo eletrofisiológico diagnóstico e ablação com radiofrequência na população pediátrica encaminhada à Eletrofisiologia do Instituto de Cardiologia do Rio Grande do Sul, a fim de caracterizar as suas particularidades.

Resultados:

Foram realizados 330 procedimentos (9,6% do total de procedimentos) em pacientes com idade inferior a 20 anos (14,33 ± 3,25 anos, variação entre 3 meses e 19 anos), dos quais 201 eram do sexo masculino (60,9%). Foram realizados 108 (32,7%) exames eletrofisiológicos diagnósticos e destes, 48,1% apresentaram anormalidades em seus achados. Ao todo, 219 ablações com radiofrequência foram realizadas (66,3%), obtendo-se sucesso em 84,8%. A presença de feixe acessório foi o achado mais prevalente, responsável por 158 casos (72,1%), seguida de taquicardia por reentrada nodal atrioventricular (16,8%), flutter atrial típico (3,1%) e extrassístole de via de saída de ventrículo direito (2,7%). Três pacientes apresentaram complicações durante a ablação (1,4%). Cardiopatia congênita esteve presente em 51 (15,4%) casos, sendo a comunicação interatrial a mais encontrada (27,4%), seguida de comunicação interventricular (25,4%) e anomalia de Ebstein (17,6%).

Conclusão:

Estudo eletrofisiológico e ablação com radiofrequência constituem ferramentas eficazes no diagnóstico e tratamento das arritmias na população pediátrica.

Arritmias cardíacas; Ablação por Cateter; Criança; Adolescente; Técnicas Eletrofisiológicas Cardíacas


Introduction

The diagnosis and treatment of arrhythmias in children is challenging, since the knowledge for arrhythmias in pediatric patients is borrowed from data retrieved from the adult population. However, the causes of arrhythmias in these groups are considerably different. In adults, arrhythmias are usually associated with episodes of ischemia, whereas in children, arrhythmias are closely associated with changes in the development of the cardiac conduction system11. Mosaed P, Dalili M, Emkankoo Z. Interventional electrophysiology in children: a single-center experience. Iran J Pediatr. 2012;22(3):333-8.. Supraventricular tachycardia emerges as the most common tachyarrhythmia in pediatric patients, responding for nearly 95% of the arrhythmias in this population22. Hafez MM, Abu-Elkheir MM, Shokier M, Al-Marsafawy HF, Abo-Haded HM, Abo El-Maaty M. Radiofrequency catheter ablation in children with supraventricular tachycardias: intermediate term follow up results. Clin Med Insights Cardiol. 2012;6:7-16..

For many years, antiarrhythmic drugs were the only available treatment for arrhythmias. In 1987, radiofrequency (RF) catheter ablation was introduced for treatment of adult patients, and since 1989 has been performed as a treatment modality for tachyarrhythmias in pediatric patients. RF ablation was a major scientific breakthrough in the treatment of tachyarrhythmias and is currently considered the non-pharmacological treatment of choice in children and adolescents33. Melo SL, Scanavacca MI, Pisani C, Darrieux F, Hachul D, Hardy C, et al. Ablação com RF de arritmia na infância: registro observacional em 125 crianças. Arq Bras Cardiol. 2012;98(6):514-8.. The success rate associated with RF ablation is high and the rate of severe complications is low44. Nielsen JC, Kottkamp H, Piorkowski C, Gerds-Li J, Tanner H, Hindricks G. Radiofrequency ablation in children and adolescents: results in 154 consecutives patients. Europace. 2006;8(5):323-9..

In order to characterize the particularities of the pediatric population, the aims of this study were to analyze the epidemiological characteristics and findings of electrophysiological study (EPS) and RF ablation in children and adolescents at our institution.

Methods

We analyzed the characteristics of the patients aged less than 20 years who underwent EPS and/or RF ablation at the Electrophysiology and Holter Unit of Instituto de Cardiologia do Rio Grande do Sul between 1997 and 2013, as well as the results of 330 procedures performed in these patients. According to the World Health Organization (WHO) classification, we considered as part of the infant population those patients aged less than 9 years and of the adolescent population, those with ages between 10 and 19 years55. World Health Organization. (WHO). Young People's Health - a Challenge for Society. Report of a WHO Study Group on Young People and Health for All. Technical Report Series 731. Geneva; 1986..

Patients were referred for the procedures after presenting refractoriness or adverse effects associated with drug therapy, or clinical worsening caused by the arrhythmia. Before the procedures, all patients filled up an Informed Consent Form (ICF). For underage patients, the parents authorized the procedures and signed the ICF.

All procedures were performed under general anesthesia with midazolam, propofol, fentanyl and sevoflurane. All antiarrhythmic drugs were suspended five half-lives before the procedure. One to three multipolar electrode catheters (deflectable or not, 5 to 7 French) were introduced through the right and/or left femoral veins. For procedures requiring ablation, an ablation catheter was also used. In patients with an accessory pathway, a catheter was inserted into the right femoral artery and advanced into the aorta to map the mitral ring. All patients underwent prior EPS when ablation was indicated. During EPS, records of intracavitary electrogram were taken and supraventricular and ventricular stimulation was performed. When arrhythmia was not induced, intravenous isoproterenol was injected. Fluoroscopy was performed in all cases to position the catheters within the cardiac cavities. The RF energy output, length of application and temperature were individually titrated by the electrophysiologist responsible for the procedure. If ablation of a left accessory path or in the systemic circulation (left heart chambers) were to be performed, aspirin 200 mg daily was prescribed for three months. This precaution aimed at preventing a thrombogenic state that may be triggered during catheter ablation, increasing the risk of severe thromboembolic events in the left circulation66. Lee DS, Dorian P, Downar E, Burns M, Yeo EL, Gold WL, et al. Thrombogenicity of radiofrequency ablation procedures: what factors influence thrombin generation? Europace. 2001;3(3):195-200.

7. Manolis AS, Vassilikos V, Maounis TN, Psarros L, Melita-Manolis H, Papatheou D, et al. Pretreatment with aspirin and ticlopidine confers lowers thrombogenic potential of radiofrequency catheter ablation. Am J Cardiol. 1997;79(4):494-7.
-88. Zhou L, Keane D, Ruskin J. Thromboembolic complications of cardiac radiofrequency catheter ablation: a review of the reported incidence, pathogenesis and current research directions. J Cardiovasc Electrophysiol. 1999;10(4):611-20.. Follow up was conducted by the Electrophysiology and Holter Unit, Pediatric Cardiology Unit and by assistant physicians.

All female patients in childbearing age (10-50 years) were screened with a pregnancy test (serum beta-hCG) the day before the procedure. A 14-year-old patient had the procedure suspended after a positive beta-hCG test diagnosed an unidentified pregnancy at an early stage.

Statistical analysis

This was a descriptive study in which the categorical variables were represented as absolute numbers and percentages. Continuous variables were represented as mean ± standard deviation. Sample size was calculated with the software WinPepi, with a 95% confidence interval, expected proportion of 0.50 (50%), margin error of ± 5.5 percentile points, yielding a minimal sample of 318 patients. The software SPSS was used for database organization and statistical calculations.

Results

Of 3406 electrophysiological procedures performed between June 1997 and August 2013 at the Electrophysiology and Holter Unit of Instituto de Cardiologia do Rio Grande do Sul, 330 (9.6%) were performed in patients younger than 20 years. The lowest and highest ages of these patients were, respectively, 3 months and 19 years, with an average of 14.33 ± 3.25 years. In total, 60.9% were males (Table 1).

Table 1
Epidemiological characteristics of the cohort

Overall, 108 diagnostic EPS were performed, corresponding to 32.7% of the procedures performed in the overall pediatric population. Findings were abnormal in 48.1% of these and included atrial tachycardia (19.2%), followed by atrial fibrillation (17.3%), ventricular preexcitation syndrome (15.3%), right bundle branch block (7.6%) and polymorphic ventricular tachycardia (7.6%) (Table 2). Four patients underwent more than one diagnostic procedure during follow up. Access to the heart after femoral catheterization was limited due to venous abnormalities in three cases.

Table 2
Electrophysiological studies performed in the cohort

In total, 184 patients underwent 219 RF ablations (66.3% of the total amount of performed procedures). The median number of procedures was 1 (lowest 1 - highest 5). The presence of an accessory pathway was the most prevalent finding, occurring in 158 cases (72.1%), followed by atrioventricular nodal reentrant tachycardia (AVNRT, 16.8%), typical atrial flutter (3.1%) and extrasystoles originating from the right ventricular outflow tract (2.7%). Ablation was successfully performed in 84.8% of the patients (Table 3).

Table 3
Radiofrequency ablation outcomes according to the type of heart disease

Three patients (1.4%) developed complications during the procedure, including total atrioventricular block in two patients and pseudoaneurysm of the right femoral artery which was treated conservatively in one patient. Electrical cardioversion was required due to induction of atrial fibrillation in three patients, polymorphic ventricular tachycardia in two patients and monomorphic ventricular tachycardia in one patient. The cause of transient hemodynamic instability was not identified in six cases.

A total of 31 procedures were performed in patients below the age of 9 years and in 296 patients aged 10 to 19 years, corresponding, respectively, to the infant and adolescent populations. In patients aged 0-9 years, ablation was performed in 19 cases and was successful in 17 (89.4%). Ablation of an accessory pathway emerged as the main finding, occurring in 16 cases (84.2%), followed by AVNRT in two cases (10.5%). In patients aged 10-19 years, 200 ablations were performed, with immediate success obtained in 157 (75.5%). As in the group of patients aged 0-9 years, ablation of an accessory pathway also emerged as the most prevalent finding in this group with 142 cases (71.0%), followed by AVNRT (17.5%) and typical atrial flutter (1.5%). Of 12 EPS performed in patients in the 0-9 years age group, eight (66.6%) showed abnormal findings, in particular, atrial fibrillation and ventricular preexcitation syndrome. In the group of patients aged 10-19 years, a total of 96 EPS were performed resulting in 44 abnormal findings, mainly atrial tachycardia (9.4%), atrial fibrillation (7.3%) and Wolff-Parkinson-White syndrome (6.3%) (Table 4). These findings demonstrate a predominance of cases in individuals above the age of 10 years and a subtle difference in the types of arrhythmias present in both populations.

Table 4
Performed procedures according to age range

Among patients undergoing the procedures, 51 presented structural congenital heart disease (17.5%). Of these, 24 (47.0%) had complex congenital heart disease. There were 25 types of congenital structural heart disease. Of these, atrial sept defect (ASD) was the most frequent, occurring in 14 cases (27.4%). Others included ventricular sept defect (VSD, 25.4%), Ebstein's anomaly (17.6%), pulmonary stenosis (17.6%) and patent ductus arteriosus (PDA, 15.6%) (Table 5). Among the pathologies occurring in patients with complex heart disease were VSD (45.8%), ASD (41.6%), pulmonary stenosis (37.5%), PDA (29.1%) and tricuspid valve atresia (20.8%).

Table 5
Diagnoses associated with structural congenital heart disease

Mean intra-atrial (P-A), atria-to-His (A-H) and His-to-ventricle (H-V) conduction intervals were, respectively, 20.8 ± 8.8 msec, 82.4 ± 25.5 msec and 30.6 ± 21.0 msec. Mean Wenckebach point was 386.4 ± 81.2 msec.

Discussion

Intracardiac EPS is an invasive procedure that uses electrode catheters under fluoroscopic control to study the process of cardiac depolarization. This evaluation is conducted during sinus rhythm or induced arrhythmias with programmed stimulation and/or with several cardioactive drugs99. Sosa EA, Lorga AM, Paola AA, Maia IG, Pimenta J, Gizzi JC, et al. [Indications for intracardiac electrophysiological studies--1988. Recommendations of the Committee of the Society of Cardiology of the State of São Paulo and of the Arrhythmia and Electrophysiology Study Group of the Brazilian Society of Cardiology]. Arq Bras Cardiol. 1988;51(5):427-8.. Catheter ablation using RF energy has revolutionized the treatment of cardiac arrhythmias and improved the quality of life of the patients at a lower cost than long-term treatment with medications1010. Scanavacca MI, Brito FS, Maia I, Hachul D, Gizzi J, Lorga A, et al; Sociedade Brasileira de Cardiologia; Sociedade Brasileira de Cirurgia Cardiovascular; Departamento de Estimulação Cardíaca Artificial (DECA) da SBCCV. Diretrizes para avaliação e tratamento de pacientes com arritmias cardíacas. Arq Bras Cardiol. 2002;79(5):1-50..

Even though a significant share of EPS and RF ablation is performed in pediatric patients, physicians are often unfamiliar with specific managements at this age group. This is mainly due to lack of studies in the literature about the epidemiological and electrophysiological characteristics of this population, particularly in our area. Such procedures have risks and increased rates of complications in the pediatric population due to particularities such as limitation of vascular access, reduced cardiac dimensions and potential anatomical variations due to congenital heart disease33. Melo SL, Scanavacca MI, Pisani C, Darrieux F, Hachul D, Hardy C, et al. Ablação com RF de arritmia na infância: registro observacional em 125 crianças. Arq Bras Cardiol. 2012;98(6):514-8..

In children, RF ablation is the first-line therapy for supraventricular tachycardias (SVT), the most common type of arrhythmia in pediatric patients and approximately 95% of the tachyarrhythmias in this population1111. Van Hare GF. Supraventricular tachycardia. In: Gillette PC, Garson A. (editors). Clinical pediatric arrhythmias. Philadelphia: WB Saunders; 1999. p. 97-120.,1212. Ludomirisky A, Garson A. Supraventricular tachycardia. In: Gillette PC, Garson A. (editors). Pediatric arrhythmias: electrophysiology and pacing. Philadelphia: WB Saunders; 1990. p. 380-426.. The main indications for RF ablation in children are atrioventricular tachycardia involving accessory conduction pathways, followed by AVNRT and atrial tachycardia1111. Van Hare GF. Supraventricular tachycardia. In: Gillette PC, Garson A. (editors). Clinical pediatric arrhythmias. Philadelphia: WB Saunders; 1999. p. 97-120.. In our study, tachycardia involving accessory pathways was the main indication for RF ablation, followed by AVNRT. Since it is uncommon in children, ventricular tachycardia is rarely an indication for RF ablation1111. Van Hare GF. Supraventricular tachycardia. In: Gillette PC, Garson A. (editors). Clinical pediatric arrhythmias. Philadelphia: WB Saunders; 1999. p. 97-120..

Van Hare et al1313. Van Hare GF, Javitz H, Carmelli D, Saul JP, Tanel RE, Fischbach PS, et al. Prospective assessment after pediatric cardiac ablation: demographics, medical profiles, and initial outcomes. J Cardiovasc Electrophysiol. 2004;15(7):759-70. reported a success rate of 95.7% with RF ablation in SVT secondary to accessory pathways and AVNRT in pediatric patients, whereas Tanel et al1414. Tanel RE, Walsh EP, Triedman JK, Epstein MR, Bergau DM, Saul JP. Five-year experience with radiofrequency catheter ablation: implication for management of arrhythmias in pediatric and young adult patients. J Pediatr. 1997;131(6):878-87. reported 90% of success with RF ablation in arrhythmias in the pediatric population. In our cohort, successful outcomes were observed in 91.7% of the ablations for AVNRT and 83.5% for accessory pathways. The reasons for a lower success rate with accessory pathways in our population may be due to the fact that transseptal puncture was not performed in these cases, as well as to a higher prevalence of complex congenital heart disease in our cohort (12% of the overall ablations), which was obtained from a referral center for congenital heart disease.

There were three procedural complications in our study, which affected 1.4% of the patients undergoing RF ablation. Complication rates in the literature vary from 1.2% to 8.7%88. Zhou L, Keane D, Ruskin J. Thromboembolic complications of cardiac radiofrequency catheter ablation: a review of the reported incidence, pathogenesis and current research directions. J Cardiovasc Electrophysiol. 1999;10(4):611-20.,1313. Van Hare GF, Javitz H, Carmelli D, Saul JP, Tanel RE, Fischbach PS, et al. Prospective assessment after pediatric cardiac ablation: demographics, medical profiles, and initial outcomes. J Cardiovasc Electrophysiol. 2004;15(7):759-70.

14. Tanel RE, Walsh EP, Triedman JK, Epstein MR, Bergau DM, Saul JP. Five-year experience with radiofrequency catheter ablation: implication for management of arrhythmias in pediatric and young adult patients. J Pediatr. 1997;131(6):878-87.
-1515. Lee PC, Hwang B, Chen SA, Tai CG, Chen YJ, Chiang CE, et al. The results of radiofrequency catheter ablation of supraventricular tachycardia in children. Pacing Clin Electrophysiol. 2007;30(5):655-61.. The findings of the current study suggest that RF ablation and EPS are safe procedures in the pediatric population and are associated with low probability of complications. Indication of different mapping techniques not involving radiation, such as magnetic resonance1616. Razavi R, Hill DL, Keevil SF, Miquel ME, Muthurangu V, Hegde S, et al. Cardiac catheterization guided by MRI in children and adults with congenital heart disease. Lancet. 2003;362(9399):1877-82. and electroanatomic mapping1717. Pires LM, Leiria TL, Kruse ML, Ronsoni R, Gensas CS, Lima GG. Ablação de arritmias por cateter com mapeamento eletroanatômico exclusivo: uma série de casos. Arq Bras Cardiol. 2013;101(3):226-32., as well as use of different ablation techniques such as cryoablation1818. Miyazaki A, Blaufox AD, Fairbrother DL, Saul JP. Cryo-ablation for septal tachycardia substrates in pediatric patients: mid-term results. J Am Coll Cardiol. 2005;45(4):581-8. must be individualized for each patient and his/her characteristics to minimize the risks associated with the procedures.

The development of arrhythmias in the infant population is closely related to the presence of congenital heart diseases. They affect approximately 1% of the newborns, contributing significantly with childhood mortality and morbidity1919. Hoffman JI. Congenital heart disease: incidence and inheritance. Pediatr Clin North Am. 1990;37(1):25-43.. The changes in cardiac architecture associated with the cardiopathy itself or with the corrective surgery, may in certain cases result in changes in the cardiac conduction system, leading to an increased tendency of these individuals to develop arrhythmias2020. Deal BJ, Mavroudis C, Backer CL. The role of concomitant arrhythmia surgery in patients undergoing repair of congenital heart disease. Pacing Clin Electrophysiol. 2008;31 Suppl 1:S13-6.. Some types of congenital heart disease, such as Ebstein's anomaly, transposition of the great arteries and tricuspid valve atresia, are associated with a high incidence of accessory conduction pathways2121. Dalili M, Rao JY, Brugada P. Radiofrequency ablation of accessory pathways in children with complex congenital cardiac lesions: a report of three cases. J Tehran Heart Cent. 2013;8(2):111-5..

In our institution, serum beta-hCG test was performed on all female patients of childbearing age, which according to the World Health Organization encompasses the ages between 10 and 50 years. The exposure of women of childbearing age to ionizing radiation during RF ablation imposes a substantial risk of teratogenicity due to the susceptibility of the fetus during the entire prenatal period2222. Lima GG, Gomes DG, Gensas CS, Simão MF, Rios MN, Pires LM, et al. Risco da radiação ionizante em mulheres férteis submetidas à ablação por radiofrequência. Arq Bras Cardiol. 2013;101(5):418-22.. Based on that, screening was conducted to identify potentially unidentified pregnancies at the time of the procedure.

Limitations

This is a cross-sectional study in which the epidemiological characteristics of the patients and the findings of electrophysiological procedures were retrieved from patients' charts. Therefore, it describes only the immediate results of the interventions and does not include long-term outcomes.

Conclusions

The current study shows that in our institution, a significant share of the pediatric population referred for invasive testing of arrhythmias presented congenital heart disease. The outcomes of RF ablation and EPS showed acceptable success rates, similar to those in the literature. The complications rate in our cohort was low as shown in other studies.

  • Sources of Funding
    There were no external funding sources for this study.
  • Study Association
    This study is not associated with any thesis or dissertation work.

References

  • 1
    Mosaed P, Dalili M, Emkankoo Z. Interventional electrophysiology in children: a single-center experience. Iran J Pediatr. 2012;22(3):333-8.
  • 2
    Hafez MM, Abu-Elkheir MM, Shokier M, Al-Marsafawy HF, Abo-Haded HM, Abo El-Maaty M. Radiofrequency catheter ablation in children with supraventricular tachycardias: intermediate term follow up results. Clin Med Insights Cardiol. 2012;6:7-16.
  • 3
    Melo SL, Scanavacca MI, Pisani C, Darrieux F, Hachul D, Hardy C, et al. Ablação com RF de arritmia na infância: registro observacional em 125 crianças. Arq Bras Cardiol. 2012;98(6):514-8.
  • 4
    Nielsen JC, Kottkamp H, Piorkowski C, Gerds-Li J, Tanner H, Hindricks G. Radiofrequency ablation in children and adolescents: results in 154 consecutives patients. Europace. 2006;8(5):323-9.
  • 5
    World Health Organization. (WHO). Young People's Health - a Challenge for Society. Report of a WHO Study Group on Young People and Health for All. Technical Report Series 731. Geneva; 1986.
  • 6
    Lee DS, Dorian P, Downar E, Burns M, Yeo EL, Gold WL, et al. Thrombogenicity of radiofrequency ablation procedures: what factors influence thrombin generation? Europace. 2001;3(3):195-200.
  • 7
    Manolis AS, Vassilikos V, Maounis TN, Psarros L, Melita-Manolis H, Papatheou D, et al. Pretreatment with aspirin and ticlopidine confers lowers thrombogenic potential of radiofrequency catheter ablation. Am J Cardiol. 1997;79(4):494-7.
  • 8
    Zhou L, Keane D, Ruskin J. Thromboembolic complications of cardiac radiofrequency catheter ablation: a review of the reported incidence, pathogenesis and current research directions. J Cardiovasc Electrophysiol. 1999;10(4):611-20.
  • 9
    Sosa EA, Lorga AM, Paola AA, Maia IG, Pimenta J, Gizzi JC, et al. [Indications for intracardiac electrophysiological studies--1988. Recommendations of the Committee of the Society of Cardiology of the State of São Paulo and of the Arrhythmia and Electrophysiology Study Group of the Brazilian Society of Cardiology]. Arq Bras Cardiol. 1988;51(5):427-8.
  • 10
    Scanavacca MI, Brito FS, Maia I, Hachul D, Gizzi J, Lorga A, et al; Sociedade Brasileira de Cardiologia; Sociedade Brasileira de Cirurgia Cardiovascular; Departamento de Estimulação Cardíaca Artificial (DECA) da SBCCV. Diretrizes para avaliação e tratamento de pacientes com arritmias cardíacas. Arq Bras Cardiol. 2002;79(5):1-50.
  • 11
    Van Hare GF. Supraventricular tachycardia. In: Gillette PC, Garson A. (editors). Clinical pediatric arrhythmias. Philadelphia: WB Saunders; 1999. p. 97-120.
  • 12
    Ludomirisky A, Garson A. Supraventricular tachycardia. In: Gillette PC, Garson A. (editors). Pediatric arrhythmias: electrophysiology and pacing. Philadelphia: WB Saunders; 1990. p. 380-426.
  • 13
    Van Hare GF, Javitz H, Carmelli D, Saul JP, Tanel RE, Fischbach PS, et al. Prospective assessment after pediatric cardiac ablation: demographics, medical profiles, and initial outcomes. J Cardiovasc Electrophysiol. 2004;15(7):759-70.
  • 14
    Tanel RE, Walsh EP, Triedman JK, Epstein MR, Bergau DM, Saul JP. Five-year experience with radiofrequency catheter ablation: implication for management of arrhythmias in pediatric and young adult patients. J Pediatr. 1997;131(6):878-87.
  • 15
    Lee PC, Hwang B, Chen SA, Tai CG, Chen YJ, Chiang CE, et al. The results of radiofrequency catheter ablation of supraventricular tachycardia in children. Pacing Clin Electrophysiol. 2007;30(5):655-61.
  • 16
    Razavi R, Hill DL, Keevil SF, Miquel ME, Muthurangu V, Hegde S, et al. Cardiac catheterization guided by MRI in children and adults with congenital heart disease. Lancet. 2003;362(9399):1877-82.
  • 17
    Pires LM, Leiria TL, Kruse ML, Ronsoni R, Gensas CS, Lima GG. Ablação de arritmias por cateter com mapeamento eletroanatômico exclusivo: uma série de casos. Arq Bras Cardiol. 2013;101(3):226-32.
  • 18
    Miyazaki A, Blaufox AD, Fairbrother DL, Saul JP. Cryo-ablation for septal tachycardia substrates in pediatric patients: mid-term results. J Am Coll Cardiol. 2005;45(4):581-8.
  • 19
    Hoffman JI. Congenital heart disease: incidence and inheritance. Pediatr Clin North Am. 1990;37(1):25-43.
  • 20
    Deal BJ, Mavroudis C, Backer CL. The role of concomitant arrhythmia surgery in patients undergoing repair of congenital heart disease. Pacing Clin Electrophysiol. 2008;31 Suppl 1:S13-6.
  • 21
    Dalili M, Rao JY, Brugada P. Radiofrequency ablation of accessory pathways in children with complex congenital cardiac lesions: a report of three cases. J Tehran Heart Cent. 2013;8(2):111-5.
  • 22
    Lima GG, Gomes DG, Gensas CS, Simão MF, Rios MN, Pires LM, et al. Risco da radiação ionizante em mulheres férteis submetidas à ablação por radiofrequência. Arq Bras Cardiol. 2013;101(5):418-22.

Publication Dates

  • Publication in this collection
    04 Nov 2014
  • Date of issue
    Jan 2015

History

  • Received
    14 July 2014
  • Reviewed
    08 Sept 2014
  • Accepted
    18 Aug 2014
Sociedade Brasileira de Cardiologia - SBC Avenida Marechal Câmara, 160, sala: 330, Centro, CEP: 20020-907, (21) 3478-2700 - Rio de Janeiro - RJ - Brazil, Fax: +55 21 3478-2770 - São Paulo - SP - Brazil
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