Structures Showing Negative Correlations of Signal Intensity with Postnatal Age on T₁-weighted Imaging of the Brain of Newborns and Infants

Abstract

Purpose: Although the neonatal and infantile brain typically shows sequential T₁ shortening according to gestational age as a result of myelination, several structures do not follow this rule. We evaluated the relationship between the signal intensity of various structures in the neonatal and infantile brain on T₁-weighted imaging (T₁WI) and either postnatal or gestational age.

Materials and Methods: We examined magnetic resonance images from 120 newborns and infants without any abnormalities in the central nervous system. Written informed consent was obtained from all parents and the institutional review board approved the study. Gestational age at examination ranged from 35 weeks, 3 days to 46 weeks, 6 days, and postnatal age ranged from 7 days to 127 days. Signal intensity on T₁WI was evaluated on a scale from Grade 1 (indistinguishable from surrounding structures) to Grade 4 (higher than cortex and close to fat). We evaluated relationships between the T₁ signal grades of various structures in the neonatal brain and postnatal or gestational age using Spearman’s correlation analysis.

Results: Significant positive correlations were identified between T₁ signal grade and gestational age in the pyramidal tract (P < 0.001). Conversely, significant negative correlations were evident between T₁ signal grade and postnatal age (P < 0.001), in structures including the stria medullaris thalami, fornix cerebellar vermis, dentate nucleus and anterior pituitary gland.

Conclusion: Significant negative correlations exist between signal intensity on T₁WI and postnatal age in some structures of the neonatal and infantile brain. Some mechanisms other than myelination might play roles in the course of signal appearance.