Abstract
OBJECTIVE: Early speech experiences are presumed to contribute to the development of brain structures involved in processing speech. Previous research has been limited to correlational studies. Here, we conducted a randomized trial with neonates born preterm to determine whether increased exposure to maternal speech during NICU hospitalization is causally linked to structural white matter maturation. STUDY DESIGN: We enrolled 46 neonates born preterm (24-31 weeks gestational age). Participants were randomly assigned to receive increased (T: n = 21) or routine (C: n = 25) exposure to mother's speech. The T-group heard 10-min audio recordings of their mothers reading a children's story two times/hour between 10pm and 6am, increasing speech exposure by 2.67 h/day. The C-group did not hear recorded speech. At near-term-equivalent age, we obtained two high-angular resolution diffusion MRI (scan 1: b = 700, scan 2: b = 1500) and T1 relaxometry scans. We assessed mean diffusivity (MD), pre-registered primary outcome (NCT02847689), of the left and right arcuate fasciculus, tracts implicated in language processing. Secondary outcomes included fractional anisotropy (FA) and R1 (1/T1). We hypothesized that neonates randomized to the T-group would show evidence for increased maturation within the arcuate, indexed as decreased MD and increased FA and R1, compared to neonates in the C-group. RESULTS: Groups were equivalent on medical and demographic variables. Linear mixed models demonstrated that compared to the C-group, the T-group demonstrated significantly lower MD in the left (scan 1: β = -0.11, Marginal R(2) = 0.27; scan 2: β = -0.12, Marginal R(2) = 0.33) but not right arcuate (scan 1: β = -0.06, Marginal R(2) = 0.09; scan 2: β = -0.03, Marginal R(2) = 0.01). The T-group also demonstrated significantly higher FA (scan 1 β = 0.02, Marginal R(2) = 0.20; scan 2: β = 0.03, Marginal R(2) = 0.31) and R1 (β = 0.02, Marginal R(2) = 0.39) in the left but not right arcuate. CONCLUSION: Preterm neonates with increased maternal speech exposure showed more mature left arcuate microstructure, supporting a causal role of exposure to speech in brain development. Enhancing speech exposure in the NICU may benefit preterm children's language outcomes.