12 research outputs found
Mirror Movements and Myelomeningocele: Report of A Single Case and Review of Literature
How to Cite This Article: IIbtihel Rébai I, Benrhouma H, Kraoua I, Drissi C, Ben Hammouda M, Gouider-khouja N. Mirror Movements and Myelomeningocele: Report of A Single Case and Review of Literature. Iran J Child Neurol. 2013 Summer;7(3):58-61. ObjectiveMirror movements (MM) have been described in several pathological conditions. Their association with neural tube defects is rare, and only 5 cases have been reported in literature to date. We report on a case of MM associated with cervical myelomeningocele, and we discuss the diffusion tensor imaging findings and the underlying mechanism. References1. Cohen LG, Meer J, Tarkka I, Bierner S, Leiderman DB,Dubinsky RM, et al. Congenital Mirror Movements. Abnormal organization of motor pathways in two patients. Brain 1991;114(Pt 1B):381-403.2. Rasmussen P. Persistent mirror movements: a clinicalstudy of 17 children, adolescents and young adults. DevMed Child Neurol 1993;35(8):699-707.3. Forget R, Boghen D, Attig E, Lamarre Y. Electromyographicstudies of congenital mirror movements. Neurology 1986;36(10):1316-22.4. Erdincler P. Cervical cord tethering and congenital mirrormovements: is it an association rather than a coincidence?Br J Neurosurg 2002;16(5):519–22.5. Odabasi Z, Gökçil Z, Kütükçü Y, Vural O, Yardim M.Mirror movements associated with cervical meningocele:case report. Minim Invas Neurosurg 1998;41(2):99–100.6. Erol FS, Topsakal C, Ozveren MF, Akdemir I, CobanogluB. Meningocele with cervical dermoid sinus tract presenting with congenital mirror movement and recurrent meningitis. Yonsei Med J 2004;45(3):568–72.7. Andrabi Y, Nejat F, El Khashab, Ashrafi MR. Mirror movement associated with neural tube defects. Neuropsychiatr Dis Treat 2008;4(6):1273–76.8. Avery LW, Rentfro CC. The Klippel–Feil syndrome. A pathological report. Arch Neurol Psychiat 1936;36:1068- 76.9. Gunderson CH, Solitaire GB. Mirror movements in patients with Klippel–Feil syndrome. Arch Neurol 1968;18(6):675–9.10. Tuch DS, Reese TG, Wiegell MR, Makris N, Belliveau JW, Wedeen VJ. High angular resolution diffusion imaging reveals intravoxel white matter fiber heterogeneity. Magn Reson Med 2002;48(4):577-82.11. Mamata H, Mamata Y, Westin CF, Shenton ME, Kikinis R, Jolesz FA, et al. High-resolution line scan diffusion tensor MR imaging of white matter fiber tract anatomy. AJNR Am J Neuroradiol 2002;23(1):67-75.12. Galléa C, Popa T, Billot S, Méneret A, Depienne C, RozeE. Congenital mirror movements: a clue to understandingbimanual motor control. J Neurol 2011;258(11):1911-9.
Rasmussen’s Encephalitis: A Report of a Tunisian Pediatric Case and Literature Review
Rasmussen’s encephalitis (RE) is a rare progressive inflammatory disease of the central nervous system. It is characterized by unilateral hemispheric atrophy, pharmacoresistant focal seizures, and progressive neurological deficit. The exact etiopathogenesis still remains unknown. Brain imaging plays an important role in diagnosis and follow-up. Fluctuation of lesions in brain imaging was reported in few cases. Herein, we report an additional pediatric case of Rasmussen encephalitis with fluctuating changes in brain MRI
Pediatric Multiple Sclerosis in Tunisia: A Retrospective Study over 11 Years
Introduction. Pediatric multiple sclerosis (pMS) is a rare demyelinating disorder with an onset before the age of 18 years. In this study, we aimed to investigate the characteristics of pMS in Tunisian children. Patients and Methods. We conducted a retrospective study over 11 years (2005–2016) including all patients diagnosed with pMS according to the International Pediatric Multiple Sclerosis Study Group (IPMSSG) criteria of 2012 and followed up in a tertiary care research center. Epidemiological, clinical, neuroimaging, laboratory, and therapeutic data were collected and analyzed. Results. There were 21 patients. The male-female ratio was 1 : 3. Mean age at onset was 11 years (range: 3–17 years). Three patients had type 1 diabetes. Polyfocal presentation was preponderant (81%) with motor dysfunction in 57% of patients. Paroxysmal dystonia was noticed in 24%. All patients were diagnosed with relapsing-remitting form. Interferon beta was prescribed in 80% with a reduction of annual relapse rate. Conclusion. The annual incidence of pMS in Tunisian children aged below 18 years could be estimated as 0.05 per 100,000. Singular features in our cohort were the frequent association with type 1 diabetes and the increased occurrence of dystonia. Greater awareness of pMS may be helpful to improve management strategies of children and their families
Autoimmune Encephalitis in Tunisia: Report of a Pediatric Cohort
Background. Autoimmune encephalitis (AE) is a rapidly progressive encephalopathy caused by antibodies targeting neurons in the central nervous system generating specific immune responses. It is increasingly recognized in children. Objective. To describe clinical, neuroimaging, and laboratory features, treatment, and outcome in a cohort of Tunisian children with AE. Methods. We conducted a retrospective review of the medical records of all children attending the Department of Child and Adolescent Neurology (Tunis) with autoimmune encephalitis between 2004 and 2020. Clinical, neuroimaging, laboratory features, therapeutic data, and outcome were analyzed. Results. Nineteen children were included in the study (12 girls and 7 boys). The median age at diagnosis was 7.68 years (range: 10 months-13 years). The most frequent manifestations were seizures and behavioral disorders. Eleven cases were diagnosed with anti-NMDA receptor encephalitis, 4 cases with anti-Ma2 encephalitis, 3 cases with anti-GAD encephalitis, and 1 case with anti-SOX1 encephalitis. Brain MRI showed increased T2 and fluid-attenuated inversion recovery (FLAIR) signal of the temporal lobe in 5 patients. Eighteen patients showed improvement following first-line immunotherapy (high-dose corticosteroids, intravenous immunoglobulin). One patient with anti-GAD encephalitis died despite escalating immunotherapy. Conclusion. Diagnosis of autoimmune encephalitis is challenging in children, because of misleading presentations. An early and accurate diagnosis is important to enable proper therapeutic interventions