DOI: 10.33962/roneuro-2020-089 Encephalitic syndrome revealing cerebral gliomatosis in an adolescent Si Ahmed Hakim, Daoudi Smail Romanian Neurosurgery (2020) XXXIV (4): pp. 524-527 DOI: 10.33962/roneuro-2020-089 www.journals.lapub.co.uk/index.php/roneurosurgery Encephalitic syndrome revealing cerebral gliomatosis in an adolescent Si Ahmed Hakim, Daoudi Smail Department of Neurology. CHU Tizi-Ouzou. ALGERIA ABSTRACT Cerebral gliomatosis is a rare glial tumour which is defined by a diffuse and not very destructive infiltration of the encephalon by the glial neoplastic cells in the absence of individualizable tumour mass (Sanson et al., 2005). The clinical and radiological presentation is often misleading and not very specific, and the diagnosis is rarely mentioned. Histological diagnosis remains difficult. Finally, gliomatosis poses a specific therapeutic problem compared to other glial tumours due to the toxicity of panencephalic radiotherapy and the impossibility of achieving surgical reduction of the tumour (Sanson et al., 2005). Data from the literature show a median overall survival of 14.5 months, a higher frequency of oligodendroglial forms. The prognosis is linked to age, functional status, histological grade, oligodendroglial differentiation (Sanson et al., 2005). We report the observation of a gliomatosis occurring in a 14-year-old boy, having presented focal subintral epileptic attacks accompanied by hemiparesis. Flair sequence brain MRI showed a left fronto-temporo-insular hyper signal. The brain biopsy revealed gliomatosis. The evolution was favourable after radiotherapy. Gliomatosis is a diagnosis to be systematically evoked in the presence of a diffuse cerebral affection. Its etiopathogenic mechanism is unknown, and evolution is unpredictable (Millan. BS et al., 2010). INTRODUCTION Cerebral gliomatosis is a condition initially described by Nevin in 1938 (Nevin et al., 1938), characterized by diffuse infiltration of glial tumor cells invading a large part of the brain, bilaterally (possibility also of the marrow), with absence of individualizable tumor mass (Nevin et al., 1938). It is a rare neurosurgical pathology, since less than 300 cases are reported in the literature (Sanson et al., 2005), which can occur at any age, more frequently in adults between 40 and 50 years (MILLAN. BS et al., 2010). The clinical signs are non-specific and the imagery is often misleading, which can simulate a large number of non-neoplastic neurological medical pathologies (inflammatory or infectious encephalitis, angeitis, leukodystrophies) (Sanson et al., 2005). Its radiological and histological diagnosis is difficult because of the absence of identifiable tumor mass and its diffuse character. (MILLAN. BS et al., 2010). Gliomatosis also poses a problem of specific therapeutic Keywords encephalitic syndrome, cerebral gliomatosis, adolescent Corresponding author: Si Ahmed Hakim Department of Neurology. CHU Tizi- Ouzou, Algeria siahmed-hakim@hotmail.fr Copyright and usage. This is an Open Access article, distributed under the terms of the Creative Commons Attribution Non–Commercial No Derivatives License (https://creativecommons .org/licenses/by-nc-nd/4.0/) which permits non- commercial re-use, distribution, and reproduction in any medium, provided the original work is unaltered and is properly cited. The written permission of the Romanian Society of Neurosurgery must be obtained for commercial re-use or in order to create a derivative work. ISSN online 2344-4959 © Romanian Society of Neurosurgery First published December 2020 by London Academic Publishing www.lapub.co.uk http://www.lapub.co.uk/ 525 Encephalitic syndrome revealing cerebral gliomatosis in an adolescent management by comparing them to other glial tumors (its diffuse nature, surgery is excluded, radiotherapy is poorly tolerated since it often involves the entire brain, chemotherapy is possible unlike other gliomas) (Sanson et al., 2005). We report a case of gliomatosis in a 14-year-old boy, diagnosed in pre-mortem using MRI and brain biopsy data, the clinical and radiological picture of which was misleading, simulating an acute limbic encephalitis picture. OBSERVATION A 14-year-old boy immediately developed serial, drug-resistant focal seizures with temporal spread, and then developed right hemiparesis. The examination showed right hemiparesis, with no disturbance of consciousness, no signs of intracranial hypertension, or meningeal syndrome. Magnetic resonance imaging (MRI) revealed a hyper signal on the Flair and T2 sequences, without contrast enhancement, unilateral, on the left, touching the fronto-temporo-insular white matter (Fig. 1). The GES highlighted left hemispherical brain pain, without paroxysms (Figure 2). The cytochemical study of the CSF revealed a slight hyperproteinorachia at 0.5 g / l, as well as a lymphocytosis at 30 elements / mm3, and the immunological study did not show a chronic inflammatory process. All serologies were negative (Herpes, HTLV1, syphillis, HIV, Lyme ...), and the autoimunity balance was also negative. The patient received Methylprednisolone IV (1g / day for 5 days) with an oral relay (1mg / kg / day), combined with anti-epileptics (Levetiracetam 3g / day, Lamotrigine 200mg / day). The evolution was marked by a persistence of the epilepsy attacks, an appearance of headache and oculomotor disorders (diplopia, left exophthalmia), see obnubilation. Control MRI showed an aggravation of the lesions with mass effect and bilateralization of the hyper signal (Figure. 3). The brain biopsy was done urgently and returned in favor of a gliomatosis (oligodendrogliale). The child was treated with radiotherapy, with disappearance of disturbances of consciousness and seizures, and persistence of hemiparesis. Figure 1. Cerebral MRI: a: coronal section, Flair sequence / b: transverse section, T2 sequence: left fronto-temporo-insular hyper signal. Figure 2. EEG. Left hemispherical pain (theta delta waves more marked on the left anterior regions). 526 Si Ahmed Hakim, Daoudi Smail Figure 3. Control brain MRI (FLAIR sequences, cross section): extensive hyper signal affecting the fronto-temporo insular white matter, bilaterally, with mass effect. DISCUSSION We report a case of cerebral gliomatosis, the diagnosis of which was based on imaging and brain biopsy data and whose evolution was favorable with disappearance of epilepsy attacks, improvement in disorders of consciousness and hemiparesis. Primary gliomatosis often poses diagnostic difficulties because its clinical presentation is not very specific. The most frequent modes of revelation were epilepsy, the occurrence of cognitive disorders, intracranial hypertension (headache), the presence of focal deficits (ARTIGAS. J, et al., 1985, Sanson et al., 2005). It was in 1986 that the first premortem diagnosis of gliomatosis was made on the combined brain biopsy and MRI data (Troost D, et al., 1987). The incidence is higher in humans (in fact common to all gliomas) (Sanson et al., 2005) and, more specifically in gliomatosis, a younger age of onset in humans (jennings et al., 1995). In MRI, the Flair and T2 sequences are essential, they show an extended bilateral hyper signal of white matter and gray nuclei, which can extend to the brainstem and the spinal cord (Peretti-Viton P, et al., 2002 ), and gadolinium intake is generally absent (Sanson et al., 2005). It is defined as "an infiltrating process, encompassing at least three lobes, without contrast enhancement or less than 1 cm" (Sanson et al., 2004). The brain scan, including with injection, may be normal, but a careful examination may show suggestive abnormalities (discreet ventricular asymmetry, discreet poorly limited hypodensity, appearance of diffuse cerebral edema with small ventricles, and diffuse erasure of the furrows, or, in an elderly patient, the absence of atrophy of the brain scanner) (Sanson et al., 2005). The diagnoses most often mentioned were: multiple sclerosis, leukoencephalopathy of unknown cause, encephalitis, progressive multifocal leukoencephalitis, vasculitis, Behçet's disease (Sanson et al., 2005). Although not specific, certain aspects are suggestive of gliomatosis: the presence of a discrete mass effect, the thickening of the corpus callosum, the asymmetrical character of the hypersignal, the heterogeneous and "flaky" character of the hypersignal, better visible in T2 as in FLAIR, the associated impairment of the gray matter, in particular of the thalamus and the loss of the boundaries between the white matter and the gray matter (Sanson et al., 2005). The clinical and radiological differential diagnosis includes all diffuse encephalopathies of various causes (infectious, vascular metabolic and tumor) (Peretti-Viton P, et al., 2002). This is the case of our patient who presented a misleading picture with clinical and para-clinical signs (MRI, EEG, CSF) of acute limbic encephalitis. The diagnosis by histological study by biopsy is still essential, but often proves difficult, and sometimes non-contributory due to the low cell density, and the preservation of the normal architecture (Sanson et al., 2005). The histological grade is sometimes difficult to determine (Sanson et 527 Encephalitic syndrome revealing cerebral gliomatosis in an adolescent al., 2004). (astrocytic, oligodendroglial, polymorphic aspect…). According to the literature, oligodendroglial gliomatosis is considered rare (Balko et al., 1992), unlike some authors where the majority of gliomatosis is of oligodendroglial type (Sanson et al., 2005), as was observed in our patient. The extremely diffuse aspect of tumor infiltration could explain the fact that the brain biopsy is sometimes not very contributory. Glioma cells do not have the capacity to cross the vascular basement membrane (limiting metastases by hematogenous or lymphatic route) (Tonn et al., 2003), but they have the capacity to migrate very far into the neuron (Tonn et al., 2003; Bellail et al., 2004). Spontaneous evolution is extremely variable ranging from less than 1 month to 16 years (Artigas, 1985, Cervos-Navarro, 1987, Louis. DN, et al., 2007). Survival appears to be linked primarily to clinical factors: gender, age and Karnofsky's functional index. The prognosis also appears to be linked to histological characteristics (Sanson et al., 2005). Our case had a favorable evolution with follow-up for 08 months, marked by a regression of clinical signs (epilepsy attacks, disturbances of consciousness, oculomotor disorders). The criteria which seem in favor of a good evolution are criteria of clinical response (disappearance of convulsions, regression of cognitive disorders and headache) or radiological (reduction of the range of the hyper signal, regression of the mass effect) (Sanson et al., 2004, 2005). Exeresis is not possible because of the extent of gliomatosis (Sanson et al., 2005), and radiotherapy has a major neurotoxicity, since it often involves the entire brain (Crossen et al., 1994). This is why some authors have proposed treating these patients with chemotherapy alone as first-line treatment, which has the advantage of better tolerance (Sanson et al., 2004). REFERENCES 1. Artigas. J, Cervos-Navarro. J, Iglesias. Jr, et al. Gliomatosis cerebri: clinical and histological findings. Clin Neuropathol 1985;4:135—48. 2. Balko. Mg, Blisard. Ks, Samaha. Fj. (1992). Oligodendroglial gliomatosis cerebri. Hum Pathol, 23: 706-707. 3. Bellail. Ac, Hunter. Sb, Brat. Dj, Tan. C, Van Meir. Eg. (2004). Microregional extracellular matrix heterogeneity in brain modulates glioma cell invasion. Int J Biochem Cell Biol, 36: 1046-1069. 4. Cairncross. Jg, Ueki. K, Zlatescu. Mc et al. (1998). Specific genetic predictors of chemotherapeutic response and survival in patients with anaplastic oligodendrogliomas. J Natl Cancer Inst, 90: 1473-1479. 5. Galanaud. D, Chinot. O, Nicoli. F et al. (2003). Use of proton magnetic resonance spectroscopy of the brain to differentiate gliomatosis cerebri from low-grade glioma. J Neurosurg, 98:269-276. 6. Hoang-Xuan. K, He. J, Huguet. S et al. (2001). Molecular heterogeneity of oligodendrogliomas suggest alternative pathways in tumoral progression. Neurology, 57: 1278-1281. 7. Jennings. Mt, Frenchman. M, Shehab. T, Johnson. Md, Creasy. J, Laporte. K, Dettbarn. Wd. (1995). Gliomatosis cerebri presenting as intractable epilepsy during early childhood. J Child Neurol, 10: 37-45. 8. Lantos. Pl, Bruner. Jm. (2000). Gliomatosis cerebri in Tumours of the Nervous system. Kleihues and Cavenee Ed, IARC Lyon, pp. 92-93. 9. Louis. DN, Ohgaki. H, Wiestler. OD, Cavenee. WK, editors. Gliomatosis cerebri. Lyon; 2007, p. 50—2. 10. Millan. Bs, Kaci. R, Polivka. M, Robert. G, Heran. F, Gueguen. A, Mokhtari. K, Gray. F. Gliomatose cérébrale diffuse : étude biopsique et autopsique d’un cas. Annales de pathologie (2010) 30, 25—29. 11. Nevin. S. (1938). Gliomatosis cerebri. Brain, 61: 170-191. 12. Peretti-Viton. P, Brunel. H, Chinot. O, et al. Histological and MR correlations in Gliomatosis cerebri. J Neurooncol 2002;59:249—59. 13. Sanson. M, Cartalat-Carel. S, Taillibert. S et al. (2004). Initial Chemotherapy in Gliomatosis Cerebri. Neurology, 63: 270-275. 14. Sanson. M, Napolitanon. M, Cartalat-Carel. S, Taillibert. S. La gliomatose cérébrale. Rev Neurol (Paris) 2005; 161: 2, 173-181. 15. Tonn. Jc, Goldbrunner. R. (2003). Mechanisms of glioma cell invasion. Acta Neurochir Suppl, 88: 163-167. 16. Troost. D, Kuiper. H, Valk. J, et al. Gliomatosis cerebri, report of a clinically diagnosed and histologically confirmed case. Clin Neurol Neurosurg 1987;89:43— 7.1987.