Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017638 (glioma)
 30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

BACKGROUND. The rarest location of pilocytic astrocytoma is intramedullary. Gliomas represent up to 24 - 30% of intramedullary tumors in adulthood and are second only after ependymomas. Leptomeningeal dissemination through cerebrospinal fluid is unusual and occurs predominantly in medulloblastomas, ependymoblastomas, central neuroblastomas, ependymomas, germ cell tumors and high-grade gliomas. The majority of spinal cord gliomas reporting metastasis were anaplastic astrocytomas or glioblastomas multiforme and relatively few were low-grade gliomas. The incidence of leptomeningeal spread of low-grade tumors is rare. A rare cranial extension of brain leptomeningeal dissemination in an intramedullary pilocytic astrocytoma during adulthood is reported. CASE REPORT. A 51 year-old-man with a recurrent intramedullary mass at C5-C7 level operated 4 times with all pathological anatomy reports describing the lesion as Pilocytic Astrocytoma developed, after 15 years from the diagnosis, visual hallucinations and his level of consciousness worsened to Glasgow coma score 13/15. The MRI showed highly enhanced cranial and spinal leptomeninges and paquimeninges with a micro nodular-granulomatous aspect associated with intense affectation of basal cisterns, subarachnoid spaces and convexity of both cerebral hemispheres suggestive of leptomeningeal spread of the spinal mass. The patient expired after three days. CONCLUSION. Leptomeningeal spread is a rare phenomenon and when it happens usually doesn't change the primary tumor's behavior. In our case the aggressiveness could be explained by a potential malignization of the primary tumor that it was not documented because of the partial resections from the lasts surgeries or instead the tumor was actually a monomorphous pilomyxoid tumor.
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PMID:[Leptomeningeal spread of an intramedullary cervical pilocytic astrocytoma: case report and literature review]. 2203 Nov 64

It has become increasingly evident that morphologically similar gliomas may have distinct clinical phenotypes arising from diverse genetic signatures. To date, glial tumours from the Tunisian population have not been investigated. To address this, we correlated the clinico-pathology with molecular data of 110 gliomas by a combination of HM450K array, MLPA and TMA-IHC. PTEN loss and EGFR amplification were distributed in different glioma histological groups. However, 1p19q co-deletion and KIAA1549:BRAF fusion were, respectively, restricted to Oligodendroglioma and Pilocytic Astrocytoma. CDKN2A loss and EGFR overexpression were more common within high-grade gliomas. Furthermore, survival statistical correlations led us to identify Glioblastoma (GB) prognosis subtypes. In fact, significant lower overall survival (OS) was detected within GB that overexpressed EGFR and Cox2. In addition, IDH1R132H mutation seemed to provide a markedly survival advantage. Interestingly, the association of IDHR132H mutation and EGFR normal status, as well as the association of differentiation markers, defined GB subtypes with good prognosis. By contrast, poor survival GB subtypes were defined by the combination of PTEN loss with PDGFRa expression and/or EGFR amplification. Additionally, GB presenting p53-negative staining associated with CDKN2A loss or p21 positivity represented a subtype with short survival. Thus, distinct molecular subtypes with individualised prognosis were identified. Interestingly, we found a unique histone mutation in a poor survival young adult GB case. This tumour exceptionally associated the H3F3A G34R mutation and MYCN amplification as well as 1p36 loss and 10q loss. Furthermore, by exhibiting a remarkable methylation profile, it emphasised the oncogenic power of G34R mutation connecting gliomagenesis and chromatin regulation.
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PMID:Molecular Diagnostic and Prognostic Subtyping of Gliomas in Tunisian Population. 2695 5