Impact of cerebral oxygenation-guided resuscitation during immediate postnatal transition on brain injury and brain growth detected by MRI in very preterm neonates: a secondary outcome analysis of the multicenter randomized phase 3 clinical COSGOD III trial
Marlene Hammerl, Christina Schreiner, Elke Griesmaier, Ursula Kiechl-Kohlendorfer, Daniel Pfurtscheller, Alexander Avian, Sebastian Tschauner, Katharina Goeral, Julia Buchmayer, Gianluca Lista, Ilaria Stucchi, Jenny Bua, Vera Neubauer, Gerhard Pichler

TL;DR
This study found that monitoring cerebral oxygenation in very preterm infants did not reduce brain injury but showed a trend toward better brain growth.
Contribution
The study provides new evidence on cerebral oxygenation-guided resuscitation's impact on brain growth in preterm infants.
Findings
No difference in brain injury rates between the NIRS and control groups.
NIRS group showed a significantly larger biparietal diameter, suggesting enhanced brain development.
A trend toward fewer abnormal biparietal diameters was observed in the NIRS group.
Abstract
The prospective, randomized-controlled multicenter COSGOD III trial was designed to investigate whether interventions guided by cerebral oxygen saturation (crSO2) measured with near-infrared spectroscopy (NIRS group) during the immediate postnatal transition increase survival without cerebral injury of very preterm infants compared with standard care alone (control group). The aim of this secondary outcome study was to compare brain injury and brain growth between the two groups, as assessed by magnetic resonance imaging (MRI) at near-term age. Patients from five centers participating in the COSGOD III trial, which performed near-term MRI, were evaluated for the presence of brain injury (intraventricular hemorrhage, cerebellar hemorrhage, white matter injury) and brain growth (transcerebellar/biparietal diameter, interhemispheric distance). This study included 172 infants (86 per…
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Taxonomy
TopicsOptical Imaging and Spectroscopy Techniques · Neonatal and fetal brain pathology · Neonatal Respiratory Health Research
