Early general movements and brain magnetic resonance imaging at term-equivalent age in infants born < 30 weeks' gestation

Abstract

BackgroundNeurodevelopmental assessments and brain magnetic resonance imaging (MRI) at term-equivalent age (TEA) predict developmental outcomes in preterm infants. However, the relationship between neurodevelopment prior to term and cerebral structure is currently unknown. AimsTo examine the relationships between General Movements (GMs) assessed from birth to TEA and brain MRI at TEA in infants born <30weeks' gestation. Study designProspective cohort study. GMs (categorised as ‘normal’ or ‘abnormal’) were recorded weekly from birth to 32weeks, and at 34 and 36weeks' postmenstrual age. At TEA, GMs were assessed concurrently with brain MRI (using a validated scoring system). Subjects149 infants born <30weeks' gestation were recruited from a tertiary hospital. Results103 infants had MRI at TEA and GMs recorded. Abnormal GMs prior to term were associated with cortical grey matter abnormality (p<0.03), deep grey matter abnormality (p=0.02) and increased interhemispheric distance (p<0.02). Abnormal GMs at TEA (n=55/90) were associated with more global brain abnormality (p<0.01) and cortical grey matter abnormality (p=0.01), and decreased transcerebellar diameter (p=0.04) on concurrent brain MRI. ConclusionsAbnormal GMs both prior to term and at TEA were associated with more marked brain abnormality, and smaller brains at TEA. Abnormal GMs are an early marker of brain abnormalities in very preterm infants.