References
- Marino BS, Lipkin PH, Newburger JW, et al. Neurodevelopmental outcomes in children with congenital heart disease: evaluation and management: a scientific statement from the American Heart Association. Circulation. 2012;126(9):1143–1172.
- Mebius MJ, Kooi EMW, Bilardo CM, et al. Brain injury and neurodevelopmental outcome in congenital heart disease: a systematic review. Pediatrics. 2017;140(1):e20164055.
- Long SH, Harris SR, Eldridge BJ, et al. Gross motor development is delayed following early cardiac surgery. Cardiol Young. 2012;22(5):574–582.
- Liamlahi R, Latal B. Neurodevelopmental outcome of children with congenital heart disease. Handb Clin Neurol. 2019;162:329–345.
- Khalil A, Bennet S, Thilaganathan B, et al. Prevalence of prenatal brain abnormalities in fetuses with congenital heart disease: a systematic review. Ultrasound Obstet Gynecol. 2016;48(3):296–307.
- Rollins CK, Newburger JW, Roberts AE. Genetic contribution to neurodevelopmental outcomes in congenital heart disease: are some patients predetermined to have developmental delay? Curr Opin Pediatr. 2017;29(5):529–533.
- Donofrio MT, Duplessis AJ, Limperopoulos C. Impact of congenital heart disease on fetal brain development and injury. Curr Opin Pediatr. 2011;23(5):502–511.
- Vohr BR, Poggi Davis E, Wanke CA, et al. Neurodevelopment: the impact of nutrition and inflammation during preconception and pregnancy in low-resource settings. Pediatrics. 2017;139(Suppl 1):S38–S49.
- Xiong T, Gonzalez F, Mu DZ. An overview of risk factors for poor neurodevelopmental outcome associated with prematurity. World J Pediatr. 2012;8(4):293–300.
- Dagenais L, Materassi M, Desnous B, et al. Superior performance in prone in infants with congenital heart disease predicts an earlier onset of walking. J Child Neurol. 2018;33(14):894–900.
- Fourdain S, Simard MN, Dagenais L, et al. Gross motor development of children with congenital heart disease receiving early systematic surveillance and individualized intervention: brief report. Dev Neurorehabil. 2020;24(1):56–62.
- Al-Radi OO, Harrell FE, Jr., Caldarone CA, et al. Case complexity scores in congenital heart surgery: a comparative study of the Aristotle Basic Complexity score and the Risk Adjustment in Congenital Heart Surgery (RACHS-1) system. J Thorac Cardiovasc Surg. 2007;133(4):865–875.
- Davey BT, Donofrio MT, Moon-Grady AJ, et al. Development and validation of a fetal cardiovascular disease severity scale. Pediatr Cardiol. 2014;35(7):1174–1180.
- Khalil A, Suff N, Thilaganathan B, et al. Brain abnormalities and neurodevelopmental delay in congenital heart disease: systematic review and meta-analysis. Ultrasound Obstet Gynecol. 2014;43(1):14–24.
- Williams IA, Fifer WP, Andrews H. Fetal growth and neurodevelopmental outcome in congenital heart disease. Pediatr Cardiol. 2015;36(6):1135–1144.
- Murray SR, Shenkin SD, McIntosh K, et al. Long term cognitive outcomes of early term (37–38 weeks) and late preterm (34–36 weeks) births: a systematic review. Wellcome Open Res. 2017;2:101.
- Fuller S, Nord AS, Gerdes M, et al. Predictors of impaired neurodevelopmental outcomes at one year of age after infant cardiac surgery. Eur J Cardiothorac Surg. 2009;36(1):40–47.