Investigating cerebral anomalies in preterm infants and associated risk factors with MRI at term-equivalent age
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Background
Being born very or extreme preterm is a major source of cerebral anomalies and neurodevelopmental disorders, whose occurrence depends on many perinatal factors. A better understanding of these factors could be provided by cerebral Magnetic Resonance Imaging (MRI) at term-equivalent age (TEA).
Objective
To investigate, through cerebral TEA-MRIs, the relationship between the main perinatal factors and the occurrence of cerebral anomalies, and cerebral volumetry.
Methods
We assembled a cohort of very and extremely preterm babies who underwent a cerebral TEA-MRI. We assessed cerebral anomalies using a radiological scoring system – the Kidokoro scoring – and performed cerebral volumetry. We investigated the relationship between 9 clinical factors (birth characteristics, resuscitation treatments…), volumetry and Kidokoro scores, and the relationship between Kidokoro scores and volumetry.
Results
Among 110 preterms who underwent a cerebral MRI at TEA, 7% suffered moderate-to-severe brain anomalies. We identified mechanical ventilation as a risk factor for cerebral anomalies (adjusted Odds-ratio aOR = 4.6, 95% Confidence Interval CI [1.7-12.8]) and prolonged parenteral nutrition as a protective factor (aOR = 0.2, 95%CI [0.1-0.7]) for white matter anomalies. Mechanical ventilation (p = 0.009) and being born small for gestational age (p < 0.001) were risk factors for the reduction of cerebral volumes. An increase in brain lesion severity was associated with decreased cerebral volumes (p = 0.017).
Conclusion
Our study highlights the importance of treatment-related perinatal factors on the occurrence of cerebral anomalies in very and extreme preterms, and the interest in using both qualitative (Kidokoro scoring) and quantitative (volumetry) MRI-tools.
