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26-03-2022 | Public Health | Original Article

Congenital heart diseases trends in São Paulo State, Brazil: a national live birth data bank analysis

Authors: Paola Soares Fernandes, Larissa Rosario Magalhães, Tainara Rita Pezzini, Edige Felipe de Sousa Santos, Mauricio Giusti Calderon

Published in: World Journal of Pediatrics | Issue 7/2022

Abstract

Background

Congenital heart diseases (CHD) are the most common type of birth defects, affecting millions of newborns every year; no prevalence data are available in São Paulo State, Brazil’s most populous state. The objective is to identify trends in prevalence and risk factors for CHD in São Paulo State, Brazil.

Methods

We developed a population-based study to estimate the CHD trend of prevalence in recent years, stratified by maternal age and geographical clusters, using all cases of CHD identified by the Live Births Information System (SINASC–Sistema de Informação Sobre Nascidos Vivos) from January 1, 2005, to December 31, 2018. We calculated the trends of prevalence, the regression coefficient (β), the annual percent change (APC), and 95% confidence interval using the Prais–Winsten regression model, with the Durbin–Watson test.

Results

We found 10,594 cases of CHD among 8,536,101 live births (LB), a prevalence of 12.4/10,000 LB. There was no difference in the sex distribution; they are primarily Caucasian (60.2%), 75.2% born at term, and 74.4% weight > 2500 g, 66.9% of births were by cesarean section. São Paulo State presented an increasing CHD trend of prevalence (APC = 18.9%). The highest CHD prevalence rate was in mothers aged ≥ 35 years (22.2/10,000 LB). There were 12,271 specific congenital heart defects among 10,594 patients (1.16 CHD/patient). Atrial septal defect has the highest number of cases (3835), with a prevalence of 4.49/10,000 LB, corresponding to 31.3% of all CHD.

Conclusion

CHD had an increasing prevalence trend in recent years, being highest in São Paulo City and ≥ 35-year mothers.

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Sun R, Liu M, Lu L, Zheng Y, Zhang P. Congenital heart disease: causes, diagnosis, symptoms, and treatments. Cell Biochem Biophys. 2015;72:857–60.CrossRef

Zhang X, Sun Y, Zhu J, Zhu Y, Qiu L. Epidemiology, prenatal diagnosis, and neonatal outcomes of congenital heart defects in eastern China: a hospital-based multicenter study. BMC Pediatr. 2020;20:416.CrossRef

Liu Y, Chen S, Zühlke L, Black GC, Choy MK, Li N, et al. Global birth prevalence of congenital heart defects 1970–2017: updated systematic review and meta-analysis of 260 studies. Int J Epidemiol. 2019;48:455–63.CrossRef

Soares AM. Mortality in congenital heart disease in Brazil—what do we Know? Arq Bras Cardiol. 2020;115:1174–5 (in English, Portuguese).CrossRef

Melo IS, Braz P, Roquette R, Sousa P, Nunes C, Dias C. Congenital heart disease prevalence in Portugal in 2015: data from the National Register of Congenital Anomalies. Acta Med Port. 2020;33:491–9.CrossRef

Hoffman JI, Kaplan S. The incidence of congenital heart disease. J Am Coll Cardiol. 2002;39:1890–900.CrossRef

van der Linde D, Konings EE, Slager MA, Witsenburg M, Helbing WA, Takkenberg JJ, et al. Birth prevalence of congenital heart disease worldwide: a systematic review and meta-analysis. J Am Coll Cardiol. 2011;58:2241–7.CrossRef

Cowan JR, Ware SM. Genetics and genetic testing in congenital heart disease. Clin Perinatol. 2015;42:373–93, ix.CrossRef

Pierpont ME, Brueckner M, Chung WK, Garg V, Lacro RV, McGuire AL, et al. Genetic basis for congenital heart disease: revisited: a scientific statement from the American Heart Association. Circulation. 2018;138:e653-711.CrossRef

10.

Penido A. Ministry of Health warns for early diagnosis of congenital heart disease among children. 2020. https://www.gov.br/saude/pt-br/assuntos/noticias/ms-alerta-para-o-diagnostico-precoce-de-cardiopatia-congenita-entre-as-criancas. Accessed 17 Oct 2020.

11.

Malta DC, Duarte EC, Escalante JJ, Almeida MF, Sardinha LM, Macário EM, et al. Avoidable causes of infant mortality in Brazil, 1997–2006: contributions to performance evaluation of the Unified National Health System. Cad Saude Publica. 2010;26:481–91 (in Portuguese).CrossRef

12.

Salim TR, Andrade TM, Klein CH, Oliveira GMM. Inequalities in mortality rates from malformations of circulatory system between Brazilian macroregions in individuals younger than 20 years. Arq Bras Cardiol. 2021;115:1164–73 (in English, Portuguese).

13.

Antunes JLF, Cardoso MRA. Using time series analysis in epidemiological studies. Epidemiol Serv Saúde. 2015;24:565–76 (in English, Portuguese).CrossRef

14.

von Elm E, Altman DG, Egger M, Pocock SJ, Gøtzsche PC, Vandenbroucke JP, et al. The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) statement: guidelines for reporting observational studies. Bull World Health Organ. 2007;85:867–72.CrossRef

15.

Ministry of Health, Brasil. DATASUS-Unified Health System Department of Informatic. http://tabnet.datasus.gov.br/cgi/deftohtm.exe?sinasc/cnv/nvsp.def. Accessed 4 Apr 2020.

16.

Brazilian Institute of Geography and Statistics. Demographic census 2010. https://biblioteca.ibge.gov.br/visualizacao/periodicos/93/cd_2010_caracteristicas_populacao_domicilios.pdf. Accessed 25 Oct 2020 (in Portuguese).

17.

Gabriel GP, Chiquetto L, Morcillo AM, Ferreira Mdo C, Bazan IG, Daolio LD, et al. Evaluation of data on live birth certificates from the Information System on Live Births (SINASC) in Campinas, São Paulo, 2009. Rev Paul Pediatr. 2014;32:183–8 (in Portuguese).CrossRef

18.

Prado MF, Marques CCA. Health information systems: an experience of decentralized production of information on mortality and live births for use in health surveillance in the State of Sao Paulo. Paulista Epidemiol Bull (online). 2012;9:4–15 (in Portuguese).

19.

World Health Organization. ICD-10: international statistical classification of diseases and related health problems: tenth revision, 2nd ed. 2004.

20.

Calderon MG, Santos EFS, Abreu LC, Raimundo RD. Increasing prevalence, time trend and seasonality of gastroschisis in São Paulo state, Brazil, 2005–2016. Sci Rep. 2019;9:14491.CrossRef

21.

Antunes JL, Waldman EA. Trends and spatial distribution of deaths of children aged 12–60 months in São Paulo, Brazil, 1980–98. Bull World Health Organ. 2002;80:391–8.PubMedPubMedCentral

22.

Perea LME, Peres MA, Boing AF, Antunes JLF. Trend of oral and pharyngeal cancer mortality in Brazil in the period of 2002 to 2013. Rev Saude Publica. 2018;52:10 (in English, Portuguese).CrossRef

23.

Xie D, Fang J, Liu Z, Wang H, Yang T, Sun Z, et al. Epidemiology and major subtypes of congenital heart defects in Hunan Province, China. Medicine (Baltimore). 2018;97:e11770.CrossRef

24.

Marelli AJ, Mackie AS, Ionescu-Ittu R, Rahme E, Pilote L. Congenital heart disease in the general population: changing prevalence and age distribution. Circulation. 2007;115:163–72.CrossRef

25.

Hoffman JI. It is time for routine neonatal screening by pulse oximetry. Neonatology. 2011;99:1–9.CrossRef

26.

Favilli S, Santoro G, Ballo P, Arcangeli C, Bovenzi FM, Chiappa E, et al. Prevalence and clinical characteristics of adult patients with congenital heart disease in Tuscany. J Cardiovasc Med (Hagerstown). 2012;13:805–9.CrossRef

27.

Sokal R, Tata LJ, Fleming KM. Sex prevalence of major congenital anomalies in the United Kingdom: a national population-based study and international comparison meta-analysis. Birth Def Res A Clin Mol Teratol. 2014;100:79–91.CrossRef

28.

Abou Hassan OK, Fahed AC, Batrawi M, Arabi M, Refaat MM, DePalma SR, et al. NKX2-5 mutations in an inbred consanguineous population: genetic and phenotypic diversity. Sci Rep. 2015;5:8848.CrossRef

29.

Yunis K, Mumtaz G, Bitar F, Chamseddine F, Kassar M, Rashkidi J, et al. Consanguineous marriage and congenital heart defects: a case-control study in the neonatal period. Am J Med Genet A. 2006;140:1524–30.PubMed

30.

Arjmandnia M, Besharati M, Rezvan S. Studying the determinant factors leading to congenital heart disease in newborns. J Educ Health Promot. 2018;7:53.CrossRef

31.

National Commission for the Incorporation of Technologies in SUS (CONITEC)–report no. 115. Heart tests (pulse oximetry) in neonatal screening. 2014. http://conitec.gov.br/images/Incorporados/TesteCoracaozinho-FINAL.pdf. Accessed 16 Oct 2020 (in Portuguese).

32.

Miller A, Riehle-Colarusso T, Siffel C, Frías JL, Correa A. Maternal age and prevalence of isolated congenital heart defects in an urban area of the United States. Am J Med Genet A. 2011;155A:2137–45.CrossRef

33.

Luo YL, Cheng YL, Gao XH, Tan SQ, Li JM, Wang W, et al. Maternal age, parity and isolated birth defects: a population-based case-control study in Shenzhen, China. PLoS One. 2013;8:e81369.CrossRef

34.

Ministry of Health, Brasil. Primary care notebooks. Management of low-risk prenatal care. https://bvsms.saude.gov.br/bvs/publicacoes/cadernos_atencao_basica_32_prenatal.pdf. Accessed 10 Oct 2020 (in Portuguese).

35.

Eckersley L, Sadler L, Parry E, Finucane K, Gentles TL. Timing of diagnosis affects mortality in critical congenital heart disease. Arch Dis Child. 2016;101:516–20.CrossRef

36.

Alan C, Korkmaz L. The importance and effectiveness of cardiac screening in early diagnosis of critical congenital heart diseases. Ann Med Res. 2021;28:1917–21.CrossRef

37.

Ho TC, Ouyang H, Lu Y, Young AH, Chintala K, Detrano RC. Postprocedural outcomes of rural children undergoing correction of congenital heart lesions in Yunnan Province, China. Pediatr Cardiol. 2011;32:811–4.CrossRef

38.

Zhao QM, Liu F, Wu L, Ma XJ, Niu C, Huang GY. Prevalence of congenital heart disease at live birth in China. J Pediatr. 2019;204:53–8.CrossRef

Title: Congenital heart diseases trends in São Paulo State, Brazil: a national live birth data bank analysis
Authors: Paola Soares Fernandes
Larissa Rosario Magalhães
Tainara Rita Pezzini
Edige Felipe de Sousa Santos
Mauricio Giusti Calderon
Publication date: 26-03-2022
Publisher: Springer Nature Singapore
Keywords: Public Health
Atrial Septal Defect
Atrial Septal Defect
Published in: World Journal of Pediatrics / Issue 7/2022
Print ISSN: 1708-8569
Electronic ISSN: 1867-0687
DOI: https://doi.org/10.1007/s12519-022-00543-3

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Congenital heart diseases trends in São Paulo State, Brazil: a national live birth data bank analysis

Abstract

Background

Methods

Results

Conclusion

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Abstract

Background

Methods

Results

Conclusion

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