Clinical Characteristics and Mid-term Follow-up in Children with Isolated Complete Atrioventricular Block

Sülü, Ayşe; Kafalı, Hasan; Kamalı, Hacer; Genç, Serhat Bahadır; Onan, Ismihan Selen; Haydın, Sertaç; Güzeltaş, Alper; Ergül, Yakup

doi:10.14744/anatoljcardiol.2022.2235

Cited by 5 publications

References 22 publications

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Congenital Atrio-Ventricular Block: looking for optimal implantation timing. A single tertiary referral centre experience

Papaccioli,

Ciriello,

Correra

et al. 2024

Preprint

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Background Congenital atrio-ventricular block (CAVB) affects 1 in 15,000 live births with a mortality rate of 16–30%. It can be associated with congenital heart disease (CHD) or maternal autoantibodies and, less commonly, with viral infections or drug side effects. CAVB detected in utero is more severe, leading to higher neonatal mortality and early pacemaker (PM) implantation. Physicians face challenges in determining if and when to implant a permanent PM. This study reports on the experience of a single tertiary referral center with fetuses and children diagnosed with CAVB, focusing on incidence, PM implantation indications and timing, device types, complications, re-interventions, and long-term clinical outcomes. Methods The diagnostic database of the Paediatric Cardiology and Adult Congenital Heart Disease and Congenital and Familiar Arrhythmias Unit was reviewed to identify patients with CAVB from January 1996 to January 2023. Patients were followed for an average of 10.3 ± 7.3 years. Results Forty patients (average age 14.3 ± 11.7 years; 57.5% male; 80% with complete CAVB) were included. The median age at diagnoses was 3 (IR 0.06–6.3) years, ranging from in utero to 22 years. Nine patients (22.5%) had symptoms at time of diagnosis, 8 (20%) received a foetal diagnosis of CAVB, and 23 (57.5%) were diagnosed after casual detection of bradycardia during routine exams. Twelve patients (30%) had concomitant congenital heart disease (CHD), one patient had multiple cardiac rhabdomyomas and one had atrio-ventricular septal aneurysm at aorto-mitral junction. After a mean follow-up of 10.3 ± 7.3 years, 24 (60%) patients underwent a PM implant (15 epicardial PM and 9 transvenous PM) with a median time from the diagnosis to the implant procedure of 5 months (IR 1–18). PMs were implanted for symptoms in 45.8% and prophylactically in 54.2%. Cardiologic therapies were significantly associated with PM implantation (HR 9; P = 0.04). In the subgroup of implanted patients, ejection fraction (EF) showed an improvement at the last follow-up compared to the last pre-implantation value (P = 0.02), as was Fractional Shortening (FS) (P = 0.01) and left ventricle z-score end-systolic diameter (P = 0.045). Seven patients in PM group (29.1%) underwent a re-intervention, 6 due to lead failure and 1 due to infective endocarditis. Only 1 death (2.5%) occurred in a preterm infant with a very low body-weight at birth. Conclusion Accurate follow-up and optimal timing of PM implantation, including prophylactic pacing as per current recommendations, are associated with good long-term outcomes.

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Congenital Atrio-Ventricular Block: looking for optimal implantation timing. A single tertiary referral centre experience

Papaccioli,

Ciriello,

Correra

et al. 2024

Preprint

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Diretriz Brasileira de Ergometria em Crianças e Adolescentes – 2024

Carvalho,

Freitas,

Chalela

et al. 2024

Arq. Bras. Cardiol.

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Classes de Recomendação Classe I: Condições para as quais há evidências conclusivas e, na sua falta, consenso geral de que o procedimento é seguro e útil/eficaz. Classe II: Condições para as quais há evidências conflitantes e/ou divergência de opinião sobre a segurança e utilidade/eficácia do procedimento. Classe IIa: Peso ou evidência/opinião a favor do procedimento. A maioria aprova. Classe IIb: Segurança e utilidade/eficácia menos estabelecidas, havendo opiniões divergentes. Classe III: Condições para as quais há evidências e/ou consenso de que o procedimento não é útil/eficaz e, em alguns casos, pode ser prejudicial. Níveis de Evidência Nível A: Dados obtidos a partir de múltiplos estudos randomizados de bom porte, concordantes e/ou de metanálise robusta de estudos randomizados. Nível B: Dados obtidos a partir de metanálise menos robusta, a partir de um único estudo randomizado e/ou de estudos observacionais. Nível C: Dados obtidos de opiniões consensuais de especialistas.

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Brazilian Guideline for Exercise Testing in Children and Adolescents – 2024

Carvalho,

Freitas,

Chalela

et al. 2024

Arq. Bras. Cardiol.

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Classes of Recommendation Class I: Conditions for which there is conclusive evidence and, failing that, general agreement that a given procedure is safe and useful/effective. Class II: Conditions for which there is conflicting evidence and/or a divergence of opinion about the safety and usefulness/efficacy of a procedure. Class IIa: Weight or evidence/opinion in favor of the procedure. Most approve. Class IIb: Safety and usefulness/efficacy less well established, with divergence of opinions. Class III: Conditions for which there is evidence and/or general agreement that a procedure is not useful/effective and, in some cases, may be harmful. Levels of Evidence Level A: Data derived from multiple large, concordant randomized trials and/or robust meta-analyses of randomized trials. Level B: Data derived from less robust meta-analyses, from a single randomized trial and/or from observational studies. Level C: Data derived from consensus opinion of experts.

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Clinical Characteristics and Mid-term Follow-up in Children with Isolated Complete Atrioventricular Block

Cited by 5 publications

References 22 publications

Congenital Atrio-Ventricular Block: looking for optimal implantation timing. A single tertiary referral centre experience

Congenital Atrio-Ventricular Block: looking for optimal implantation timing. A single tertiary referral centre experience

Diretriz Brasileira de Ergometria em Crianças e Adolescentes – 2024

Brazilian Guideline for Exercise Testing in Children and Adolescents – 2024

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