Diagnostic Accuracy of Longitudinal Evaluation of Central Nervous System Sonoelastography in Preterm and Term Neonates.

OBJECTIVES The objective of this study was to evaluate the brain elasticity of the central nervous system in preterm and term neonates. METHODS Seventy-seven healthy preterm and term neonates (mean gestational age [GA], 37.5 weeks; range, 32.6-40.5 weeks) were included in the study. Periventricular and subcortical white matter, cortical gray matter, and ventricle and subdural spaces were examined with strain elastography ratios. Each patient underwent sonography evaluation twice. The mean age at the time of sonographic evaluation was 9 days (range, 4-15 days) for the first evaluation and 37 days (range, 31-47 days) for the second evaluation. The ratios were correlated with GA, birth weight. RESULTS The caudate nucleus and cortical gray matter strain ratios were significantly higher than the periventricular and subcortical white matter strain ratios (P < 0.001). There was a positive relationship between GA and periventricular white matter elastographic scores on the two measurements (P = 0.022 and 0.018, respectively). The term neonates have higher strain rations compared with the preterm neonates at the first assessment (P < 0.01). At the evaluation of the area under the curve for the sonographic examination for the receiver operating characteristic curve, the periventricular white matter was 0.742 (95% confidence interval, 0.689-0.790), and it was 0.773 (95% confidence interval, 0.722-0.818) for the subcortical white matter. CONCLUSIONS Neonatal brain development, maturation, and myelination can be assessed by strain elastography. These findings should be evaluated with further larger cohorts that could help to prevent neonatal brain damages.