Brain Region Size Differences Associated With Dystonia in People With Cerebral Palsy Born Premature - 04/10/23
Abstract |
Background |
Dystonia in cerebral palsy (CP) is classically associated with deep gray matter injury at term gestation, but the patterns of injury associated with dystonia following premature birth are unclear. We examined whether there were brain regional size differences associated with dystonia in people with CP born premature.
Methods |
In this retrospective cohort study, we identified subjects with CP born premature (<37 weeks gestational age) seen at a tertiary care CP center between February 1, 2017, to February 1, 2021, who had T1-weighted brain magnetic resonance imaging (MRI) done between ages one and five years available in the clinical record. We measured the following on these brain MRI images per the 2013 Kidokoro criteria: interhemispheric distance, biparietal width, lateral ventricle diameter, transcerebellar diameter, deep gray matter area, and corpus callosum thickness. We then compared the sizes of these structures between those with and without dystonia correcting for gestational age at birth and gross motor functional ability (univariate general linear models).
Results |
Fifty-five subjects met the inclusion and exclusion criteria. Interhemispheric distance was significantly greater in those with dystonia, suggesting decreased cortical volume (P = 0.005). There was no significant difference in the other measured structures between those with and without dystonia, including deep gray matter area.
Conclusions |
Increased interhemispheric distance, not measures of deep gray matter size, correlate with the presence of dystonia in people with CP born premature.
Le texte complet de cet article est disponible en PDF.Keywords : Interhemispheric distance, Cerebral palsy, Dystonia, Prematurity, Magnetic resonance imaging
Plan
| Author contributions: Ms. Chintalapati was responsible for design of the study, data acquisition, analysis, interpretation, and drafting of the manuscript. Dr. Aravamuthan was responsible for the design and conceptualization of the study, data analysis, data interpretation, and drafting the manuscript. Dr. Pearson was responsible for data interpretation and revising the manuscript for intellectual content. Dr. Ueda was responsible for data interpretation and revising the manuscript for intellectual content. |
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| Funding: Funding supporting this work is from the National Institutes of Neurological Disorders and Stroke (5K12NS098482-02 and 1K08NS117850-01A1). |
Vol 148
P. 8-13 - novembre 2023 Retour au numéro
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