Aim:The aim of this study is to assess associated cerebral supratentorial anomalies in patients who underwent myelomeningocele repair in hopes of developing a better morphological apprehension of the forebrain’s anomalies in this category of patients.Material and Methods:This retrospective observational study assessed 426 pediatric patients who underwent myelomeningocele repair between January 2013 and December 2020. Cranial MRIs with T1- and T2-weighted sequences were obtained as part of the postoperative assessment to determine the presence of associated supratentorial anomalies in pediatric patients following myelomeningocele repair.Results:The most common supratentorial anomalies identified in patients who underwent myelomeningocele repair are associated with the configuration of the corpus callosum (CC). Moreover, the complete agenesis of the CC was noticed in 9 (2.1%) subjects, whereas partial agenesis was identified in 148 (34.7%) subjects. Hypoplasia of the CC was observed in three (0.7%) patients. Gray matter heterotopia were the second most commonly observed supratentorial anomalies in 110 (25.8%) patients. Furthermore, the absence of the septum pellucidum was observed in two (0.47%) of the total patients. The widening of the interhemispheric fissure and abnormal maturation of the white matter were observed in 10 (2.34%) patients and 11 (2.58%) patients, respectively. Polymicrogyria, a consequence of abnormal cortical organization, was identified in 22.53% of the patients (96 patients) included in our series.Conclusion:This study confirms that, except for hydrocephalus and Chiari malformation, other associated cerebral supratentorial anomalies may be observed in patients with myelomeningocele. However, only limited research has confirmed the interconnection between the cerebral supratentorial anomalies and cognitive function. Therefore, this study emphasizes the necessity for further supplementary studies, in conjunction with accurate postnatal followups, in order to assess the real significance and repercussions of these anomalies on neurological development and also to establish how these structural changes in brain anatomy translate clinically.