Autoantibody status, neuroradiological and clinical findings in children with acute cerebellitis

Acute cerebellitis (AC) in children and adolescents is an inflammatory disease of the cerebellum due to viral or bacterial infections but also autoimmune-mediated processes. To investigate the frequency of autoantibodies in serum and CSF as well as the neuroradiological features in children with AC....

Full description

Saved in:
Bibliographic Details
Published in:European journal of paediatric neurology Vol. 47; pp. 118 - 130
Main Authors: Quack, L, Glatter, S, Wegener-Panzer, A, Cleaveland, R, Bertolini, A, Endmayr, V, Seidl, R, Breu, M, Wendel, E, Schimmel, M, Baumann, M, Rauchenzauner, M, Pritsch, M, Boy, N, Muralter, T, Kluger, G, Makoswski, C, Kraus, V, Leiz, S, Loehr-Nilles, C, Kreth, J H, Braig, S, Schilling, S, Kern, J, Blank, C, Tro Baumann, B, Vieth, S, Wallot, M, Reindl, M, Ringl, H, Wandinger, K P, Leypoldt, F, Höftberger, R, Rostásy, K
Format: Journal Article
Language:English
Published: England 01-11-2023
Subjects:
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Acute cerebellitis (AC) in children and adolescents is an inflammatory disease of the cerebellum due to viral or bacterial infections but also autoimmune-mediated processes. To investigate the frequency of autoantibodies in serum and CSF as well as the neuroradiological features in children with AC. Children presenting with symptoms suggestive of AC defined as acute/subacute onset of cerebellar symptoms and MRI evidence of cerebellar inflammation or additional CSF pleocytosis, positive oligoclonal bands (OCBs), and/or presence of autoantibodies in case of negative cerebellar MRI. Children fulfilling the above-mentioned criteria and a complete data set including clinical presentation, CSF studies, testing for neuronal/cerebellar and MOG antibodies as well as MRI scans performed at disease onset were eligible for this retrospective multicenter study. 36 patients fulfilled the inclusion criteria for AC (f:m = 14:22, median age 5.5 years). Ataxia was the most common cerebellar symptom present in 30/36 (83 %) in addition to dysmetria (15/36) or dysarthria (13/36). A substantial number of children (21/36) also had signs of encephalitis such as somnolence or seizures. In 10/36 (28 %) children the following autoantibodies (abs) were found: MOG-abs (n = 5) in serum, GFAPα-abs (n = 1) in CSF, GlyR-abs (n = 1) in CSF, mGluR1-abs (n = 1) in CSF and serum. In two further children, antibodies were detected only in serum (GlyR-abs, n = 1; GFAPα-abs, n = 1). MRI signal alterations in cerebellum were found in 30/36 children (83 %). Additional supra- and/or infratentorial lesions were present in 12/36 children, including all five children with MOG-abs. Outcome after a median follow-up of 3 months (range: 1 a 75) was favorable with an mRS ≤2 in 24/36 (67 %) after therapy. Antibody (ab)-positive children were significantly more likely to have a better outcome than ab-negative children (p = .022). In nearly 30 % of children in our study with AC, a range of abs was found, underscoring that autoantibody testing in serum and CSF should be included in the work-up of a child with suspected AC. The detection of MOG-abs in AC does expand the MOGAD spectrum.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1090-3798
1532-2130
DOI:10.1016/j.ejpn.2023.10.005