Indian Journal of Neonatal Medicine and Research (Jan 2024)
Evaluation of Cerebral and Spinal Abnormalities on Magnetic Resonance Imaging in Infants with Myelomeningocele: A Retrospective Observational Study
Abstract
Introduction: Spinal dysraphism includes a diverse collection of congenital spinal abnormalities that occur due to flawed closure of the neural tube and can be classified as open or closed types. The most common form of open spinal dysraphism is Myelomeningocele (MMC), which is characterised by a bony spinal defect and a sac in the back region containing dysplastic neural tissue and cerebrospinal fluid. MMC is associated with various intracranial and spinal anomalies that can lead to neurological, intellectual, and cognitive impairments. Imaging is necessary for the diagnosis of these anomalies and for surgical management planning and follow-up. Aim: To evaluate the associated intracranial and spinal anomalies in infants with MMC who presented with low back swelling since birth. Materials and Methods: The retrospective observational study was conducted in the Department of Radiology at Gajara Raja Medical College, Gwalior, Madhya Pradesh, India, from January 2020 to December 2022. A total of 117 subjects under one year of age, clinically diagnosed with MMC, were included in the study. Brain Magnetic Resonance Imaging (MRI) images were available for 84 patients, and spine MRI images were available for 113 patients. The MRI images were evaluated for bony and spinal anomalies. Data analysis was performed using IBM’s Statistical Package for Social Sciences (SPSS) version 20.0. Results: The mean age of the study participants was 1.7±2.9 months, with 70 males and 47 females (M:F=1.5:1). The most common location of spina bifida was lumbosacral 36 (31.9%), followed by lumbar 31 (27.4%), dorsolumbar 30 (26.5%), and sacral 16 (14.2%). A low-level spinal defect was observed in 39 cases (34.5%), and a high-level spinal defect was observed in 74 cases (65.5%). The spinal anomalies detected on MRI included syringomyelia 80 (70.8%), low-lying cord 59 (52.2%), bony abnormalities 26 (23.01%), diastematomyelia 16 (14.2%), and fatty filum terminale 3 (2.7%). Among the intracranial anomalies, the most common was dilated lateral ventricles 62 (73.8%). The most common infratentorial anomaly was Chiari II malformation 58 (69.1%). Corpus Callosum (CC) abnormalities were found in 40 cases (47.6%), with complete agenesis seen in three cases (3.6%), cerebellar hypoplasia in 20 cases (23.8%), absent septum in 15 cases (17.9%), and colpocephaly in 10 cases (11.9%). Conclusion: Spinal dysraphism, such as MMC, and cerebral anomalies often co-exist and can have an impact on neurological, intellectual, and cognitive functions. Chiari II malformation, corpus callosal anomalies, ventriculomegaly, and syringomyelia are frequently associated with MMC. Therefore, imaging evaluation of both the spine and brain is necessary for surgical treatment planning and long-term follow-up in MMC.
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