• Derek Yecies, Tej D Azad, Rogelio Esparza, Jennifer L Quon, Nils D Forkert, Sarah J MacEachern, Lisa Bruckert, Maryam Maleki, Edwards Michael S B MSB Department of Neurosurgery, Stanford University School of Medicine, Stanford, California, USA., Gerald A Grant, and Kristen W Yeom.
• Department of Neurosurgery, Stanford University School of Medicine, Stanford, California, USA. Electronic address: dyecies@stanford.edu.
• World Neurosurg. 2019 Feb 1; 122: e1300-e1304.

BackgroundCurrent standard of care for children with infratentorial ependymoma includes maximal safe resection and local radiation of 54-59 Gray. High-dose local radiation has been associated with declines in multiple cognitive domains. The anatomic and physiologic correlates of this cognitive decline remain undefined, and there have been no radiographic studies on the long-term effects of this treatment paradigm.MethodsA comprehensive database of pediatric brain tumor patients treated at Stanford Children's from 2004-2016 was queried. Seven patients with posterior fossa ependymoma who were treated with surgery and local radiation alone, who had no evidence of recurrent disease, and had imaging suitable for analysis were identified. Diffusion-weighted magnetic resonance imaging datasets were used to calculate apparent diffusion coefficient maps for each subject, while arterial spin labeling datasets were used to calculate maps of cerebral blood flow. Diffusion-weighted imaging and arterial spin labeling datasets of 52 age-matched healthy children were analyzed in the same fashion to enable group comparisons.ResultsSeveral statistically significant differences were detected between the 2 groups. Cerebral blood flow was lower in the caudate and pallidum and higher in the nucleus accumbens in the ependymoma cohort compared with controls. Apparent diffusion coefficient was increased in the thalamus and trended toward decreased in the amygdala.ConclusionsSurgery and local radiation for posterior fossa ependymoma are associated with supratentorial apparent diffusion coefficient and cerebral blood flow alterations, which may represent an anatomic and physiologic correlate to the previously published decline in neurocognitive outcomes in this population.Copyright © 2018 Elsevier Inc. All rights reserved.

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