The fetal brain: migration and gyration anomalies - pre- and postnatal correlations.

The cerebral cortex represents a laminar structure of precisely spatially organized neurons in horizontal layers and vertical columns. Neurogenesis, neuronal migration and neuronal wiring are tightly regulated and coordinated procedures that result in the accurate formation of the human cerebral cortex. Abnormal fetal corticogenesis results in several types of migration and gyration anomalies, known as malformations of cortical development, which have long been a topic of investigation. According to the stage of cortical development that is affected, with diverse genetic and non-genetic etiologies, these malformations can cause abnormal head size, abnormal brain surface and abnormal cortical layering with various degrees of neurodevelopmental delay and epilepsy. The pathogenesis of these malformations is multifactorial and includes genetic mutations or environmental insults, acquired either in utero at varying stages of brain development or during the perinatal period after corticogenesis. In this article, we focus on cortical malformations detected on fetal MRI. We present the main antenatal findings that should raise suspicion for malformations of cortical development, together with findings that might be missed on prenatal imaging and describe the correlations between fetal and postnatal MRI.