Neural tube defects: Prevalence, mortality, and maternal characteristics in two departmental hospitals in the northwestern region of Nicaragua, 2006-2018
- PMID: 37025002
- DOI: 10.1002/bdr2.2174
Neural tube defects: Prevalence, mortality, and maternal characteristics in two departmental hospitals in the northwestern region of Nicaragua, 2006-2018
Abstract
Background: Congenital anomalies are the fifth most common cause of neonatal mortality in Nicaragua, and neural tube defects (NTDs) are the most common of all cases of lethality associated with a birth defect. Prevalence and mortality estimates are needed to propose effective intervention strategies that prevent NTDs over time.
Methods: A cross-sectional study was carried out in northwestern Nicaragua from January 2006 to December 2018. All cases of NTDs (anencephaly, spina bifida, and encephalocele) were registered in hospital surveillance systems, and the medical histories of the mothers and newborns were reviewed. Prevalence was calculated by considering the number of live births and stillbirths older than 20 weeks of gestation with NTDs, divided by the total number of live births and stillbirths in each study year. Neonatal mortality rate (NMR) for NTD, and case fatality for spina bifida was calculated.
Results: Two hundred fifty cases of NTDs were identified from 178,498 deliveries (177,316 live births and 1,182 stillbirths). The prevalence of NTDs during this time period was 14.01 (95% CI: 12.27-15.74) per 10,000 births. The prevalence of spina bifida (n = 140), anencephaly (n = 97), and encephalocele (n = 13) was 7.84, (95% CI: 6.54-9.14), 5.43 (95% CI: 4.30-6.45), and 0.73 (95% CI: 0.33-1.12) per 10,000 births, respectively. Mothers with fetus or newborns affected with NTDs did not use folic acid prior to conception, and 11% experienced periods of hyperthermia during the first trimester of pregnancy. NMR for NTDs was 0.55 per 1.000 livebirths. Case fatality for all NTDs and for spina bifida were 55% and 18%, respectively.
Conclusion: The prevalence and mortality of NTDs in the northwestern region of Nicaragua present peaks and troughs during the study period. Spina bifida was the most frequent type of NTD. We believe that these findings could be of use by health policy makers to strengthen the primary prevention of NTDs in the region through the monitoring of the food fortification policy and folic acid supplementation to women of childbearing age. Additional etiologic studies of NTDs should be considered to identify additional prevention measures.
Keywords: Nicaragua; anencephaly; encephalocele; folic acid; neural tube defect; spina bifida.
© 2023 Wiley Periodicals LLC.
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References
REFERENCES
-
- Acevedo, C. R., Alvarez, S. Y., Anzueto, E. R., Centeno, N., López, R., & López, C. (2004). Prevalencia de Anomalías Congénitas Mayores Externas de Recién Nacidos en Hospitales Nacionales y Regionales de Guatemala 2001-2003 [San Carlos]. Guatemala City: Universidad de San Carlos de Guatemala, Facultad de Ciencias Médicas. https://biblioteca.medicina.usac.edu.gt/tesis/pre/2004/001.pdf
-
- Au, K. S., Ashley-Koch, A., & Northrup, H. (2010). Epidemiologic and genetic aspects of spina bifida and other neural tube defects. Developmental Disabilities Research Reviews, 16(1), 6-15.
-
- Avagliano, L., Massa, V., George, T. M., Qureshy, S., Bulfamante, G. P., & Finnell, R. H. (2019). Overview on neural tube defects: From development to physical characteristics. Birth Defects Research, 111(19), 1455-1467. https://doi.org/10.1002/BDR2.1380
-
- Bakker, M. K., Kancherla, V., Canfield, M. A., Bermejo-Sanchez, E., Cragan, J. D., Dastgiri, S., … Mastroiacovo, P. (2019). Analysis of mortality among neonates and children with spina bifida: An international registry-based study, 2001-2012. Paediatric and Perinatal Epidemiology, 33(6), 436-448. https://doi.org/10.1111/PPE.12589
-
- Benavides Salazar, D., & Lipe Camero, L. (2020). Programa de intervención conductual en un caso de Espina bífida con Discapacidad visual. REVISTA Digital Eos PERÚ, 6 (1 SE-), 53-62https://www.revistaeos.net.pe/index.php/revistadigitaleos/article/view/20
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