UMLS:C0017638 - FACTA Search

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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of CD44, particularly of certain splice variants, has been linked to tumor progression and metastatic potential in a number of different animal and human cancers. Although differential expression of CD44 standard epitopes (CD44s) in human brain tumors has been reported, the expression of CD44 variant exon encoded sequences (CD44v) in primary brain tumors in situ has not been studied in detail. In the present study, the expression of CD44s and CD44v epitopes was analyzed immunohistochemically on frozen sections of primary brain tumors. In addition, the expression of CD44 on cultured glioma cells was investigated by immunofluorescence flow cytometry. The results demonstrate the presence of CD44s epitopes and of CD44 splice variants containing CD44v4, v5 and v10 sequences in various types of brain tumors. A subgroup of highly malignant gliomas showed a strong (focal) expression of CD44v5. CD44v6 was absent in all brain tumors examined. CD44s appeared to be the dominant form of CD44 expressed in primary brain tumors, its expression was not correlated with tumor grade. We envisage that CD44 isoforms, in particular CD44s, may contribute to the invasive character of primary tumors by interacting with hyaluronate, one of the most abundant molecules in the extracellular matrix of the brain.
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PMID:Expression of CD44 splice variants in human primary brain tumors. 875 Jan 84

Twenty-eight children (mean age 8 years) with neurofibromatosis type 1 (NF1) and cerebral tumor were studied from 1975 to 1992 (mean follow-up 8.1 years) considering the biological behaviour of the tumor and the patient's quality of life, in order to identify retrospectively the best management. All, except one, tumors were benign gliomas, 76% of the optic nerve/chiasm (NCO), just 10% infratentorial. Sixteen children (57%) did not receive any treatment, 2 radiotherapy (RT) only and 4 symptomatic treatment only; in 6 patients the tumor resection was performed. 92% of the 25 survivors had sufficient autonomy in daily life at last follow-up. Considering the risk of cerebral tumors in patients with NF1, we conclude that cerebral magnetic resonance should be performed also in the asymptomatic ones. If neuroradiological findings are characteristic of benign glioma, histologic confirmation seems unnecessary. Surgical resection is recommended only in tumors confined to a single optic nerve, with severe or progressive symptoms. In chiasmatic tumors we suggest partial resection or symptomatic treatment only with close clinical and radiological observation. RT is only recommended if there is unequivocal evidence of tumor progression. Chemotherapy can delay the use of RT in very young children. Cerebral tumors different from NCO gliomas seem to have a similar natural history in patients with or without NF1 and therefore the management should be the same for both groups.
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PMID:[Cerebral tumors in children with neurofibromatosis type 1]. 876 74

O(6)-methylguanine-DNA methyltransferase (MGMT) removes and repairs chloroethylnitrosourea (CENU)-induced O(6)-methylguanine-DNA by accepting the alkyl group at a cysteine moiety. MGMT activity is, therefore, predictive of resistance or sensitivity to CENU chemotherapy. We measured the levels of MGMT mRNA expression in human brain tumors using a reverse transcription-polymerase chain reaction (RT-PCR) method, and studied the significance of MGMT mRNA levels in CENU chemotherapy. The level of MGMT mRNA was represented as a percentage relative to the MGMT mRNA in U138MG brain tumor cells. Forty-three patients with brain tumors were entered into the study. High-grade gliomas had significantly lower levels of MGMT mRNA than did low-grade gliomas and non-glial tumors (p < 0.05 determined by analysis of covariance). Out of 14 high-grade gliomas, 4 had a level of MGMT mRNA below 10%, indicating chemosensitivity to CENU. Out of 11 patients who received CENU chemotherapy, 3 had a partial response. All 3 responders had a low level of MGMT mRNA. The time to tumor progression (TTP) for 6 patients with a level lower than the median was short, but significantly longer than the TTP for 5 patients with a higher level (p < 0.05 determined by Gehan's Wilcoxon test). These results indicate that a fraction of brain tumors have a low expression of MGMT mRNA, and that the level of MGMT mRNA is a useful indicator of effectiveness in selective CENU chemotherapy.
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PMID:Human brain tumor O(6)-methylguanine-DNA methyltransferase mRNA and its significance as an indicator of selective chloroethylnitrosourea chemotherapy. 890 Mar 78

In a Phase II trial, 63 evaluable patients with recurrent glioma received i.v. infusions of carboplatin every 3 weeks beginning at a dose of 400 mg/m2. The dose was increased by 50 mg/m2 at each subsequent infusion until the maximum tolerated dose reached, as defined by a platelet count < 25,000/mm3 or an absolute neutrophil count (ANC) < 500/mm3. Treatment was then resumed at the previous dose level and continued until tumor progression occurred. There were 43 men and 20 women studied (mean age, 41 years; range, 6 months to 70.6 years). The combined response and stabilization rate was 29% for 31 patients with glioblastoma and 71.9% for 32 patients with other tumors; median time to tumor progression was 8.2 and 20.3 weeks and median survival was 25.9 and 58.3 weeks, respectively. Twenty patients had level 4 platelet toxicity and nine had level 4 ANC toxicity. Most tumors progressed before the maximum tolerated dose was reached. These results were not better than those from a previous trial of carboplatin at an initial dose of 350 mg/m2, which was escalated by 25 mg/ m2 after every two infusions. Therefore, an optimal dosing schedule was not achieved in this trial.
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PMID:Intravenous carboplatin for recurrent gliomas. A dose-escalating phase II trial. 893 82

Cell motility within central nervous system (CNS) neuropil may be largely restricted yet infiltration by glioma cells is commonly observed. Glioma cells remodel nervous tissue and may assemble extracellular matrix in order to migrate. We examined the rat C6 glioma cell line for laminin expression and response in vitro and following engraftment into rat spinal cord. C6 cell cultures expressed laminin-2. C6 cells attached equally well to substrates of purified laminin-1 and laminin-2 and laminin-2-enriched C6 conditioned medium. In contrast, C6 cell migration was substantially greater on laminin-2 and C6-derived substrata than on laminin-1. Glioma cell attachment to laminin-1 and -2 was largely inhibited by antibody to the laminin receptor LBP110 and by an IKVAV peptide but not by YIGSR or control peptides. IKVAV peptide and anti-LBP110 antibodies also inhibited glioma cell invasion through synthetic basement membrane. Anti-beta 1 integrin antibody selectively inhibited cell migration and invasion on laminin-2 substrata without affecting percent cell attachment. These findings suggest C6 cell migration and invasion are promoted by autocrine release of laminin-2 and involve LPB110 and beta 1 integrin laminin receptors. A possible role for laminin-2 in CNS infiltration in vivo was examined following glioma engraftment into rat spinal cord. Engrafted C6 tumors share many histologic features of invasive human glioma. Engrafted glioma cells expressed laminin, LBP110 and beta 1 integrin antigens, indicating the molecular mechanisms of C6 motility observed in culture may contribute to glioma invasion in vivo. NMR and corroborative immunocytochemistry provided precise means to monitor tumor progression following glioma engraftment into rat spinal cord. Advantages of this glioma model are discussed regarding the assessment of anti-adhesive therapies in vivo.
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PMID:Assessment of laminin-mediated glioma invasion in vitro and by glioma tumors engrafted within rat spinal cord. 894 95

The deleted in colorectal cancer (DCC) gene, a candidate tumor suppressor gene on chromosome 18q21, encodes a neural cell adhesion molecule family protein that is most highly expressed in the nervous system. To address the hypothesis that DCC may play a role in glioma development and/or progression, we examined DCC expression by immunohistochemistry in 57 resected human astrocytic tumors. Overall, low-grade astrocytomas were predominantly DCC positive (15 of 16, or 94%), whereas high-grade tumors significantly less often expressed the DCC protein (27 of 41, or 66%; P = 0.03). We were able to directly assess the relationship between DCC expression and tumor progression in 15 patients who initially presented with a low-grade astrocytoma and subsequently recurred with a glioblastoma. Within this panel of paired lesions from the same patient, 14 of 15 (93%) low-grade tumors expressed the DCC protein, whereas only 7 of 15 (47%) corresponding glioblastomas were DCC positive. We also observed that secondary glioblastomas resulting from malignant progression of low-grade astrocytomas were more often DCC negative (8 of 15, or 53%) compared with primary or de novo glioblastomas (6 of 26, or 23%; P = 0.05). These findings implicate DCC inactivation in glioma progression and also demonstrate that DCC expression is preferentially, but not exclusively, lost in the genetic pathway to secondary glioblastoma multiforme.
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PMID:Loss of DCC expression and glioma progression. 901 60

Promising results have been obtained using brachytherapy in the treatment of brain tumors. Very low-dose rate brachytherapy (60-100 Gy given at 0.05-0.10 Gy/h) has been used for low-grade gliomas, resulting in 5- and 10-year survival probabilities of 85% and 83% for pilocytic astrocytomas and 61% and 51% for grade II astrocytomas. Only 2.6% of patients had symptomatic radiation necrosis. For faster-growing high-grade gliomas, temporary implants delivering about 60 Gy at 0.40-0.60 Gy/h are generally used. The largest series have reported median survival times of 12-13 months after brachytherapy for recurrent malignant gliomas and 18-19 months after diagnosis of primary glioblastomas treated with external beam radiotherapy and brachytherapy boost. A recent prospective, randomized trial demonstrated significantly improved survival for high-grade glioma patients who had brachytherapy boost. However, over 50% of patients who undergo brachytherapy for malignant gliomas require reoperation for tumor progression and/or radiation necrosis. Strategies are under development to improve local control without increasing radiation toxicity.
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PMID:Interstitial brachytherapy procedures for brain tumors. 914 53

Traditional study design for treatment of malignant gliomas does not allow tumor progression to be greater than 25-50 percent without terminating treatment. This design may prevent recognition of patients who benefit from the treatment either by slowed growth or delayed response. A delayed response or slowed growth may be characteristic of biologic agents being evaluated in the treatment of malignant glioma. Because of the low toxicity of certain biologic drugs, continued treatment through tumor growth can be ethically considered in study design. The effect of biologic agents on a neoplasm may include cellular differentiation, retardation of growth, cytostasis, cytocidal effects, or apoptosis. Such effects may clinically translate into a complete response, partial response, stable disease or retardation of growth with or without an eventual reduction of tumor. We present a patient with a recurrent malignant glioma who was continued on high dose tamoxifen despite radiologic documented doubling of the tumor size and who eventually showed a delayed response to this agent nine months after initiation of treatment. Strong consideration should be given to the prolonged treatment of non-toxic biologic agents in a controlled clinical trial, where agents have shown some benefit in phase one studies.
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PMID:Prolonged treatment with biologic agents for malignant glioma: a case study with high dose tamoxifen. 926 39

Long-term control of high-grade brain tumors is rarely achieved with current therapeutic regimens. The aim of this study was to determine if low doses of tumor necrosis factor-alpha (TNF-alpha) could augment the effects of radiation in a glioma xenograft model and to evaluate hematological and other parameters that might indicate treatment-related toxicity. Nude mice were injected subcutaneously with C6 rat glioma cells and randomized into groups. Two different time-dose protocols were employed using intravenous human recombinant TNF-alpha and radiation beginning within 24 h after tumor cell implantation. The administration of radiation as a single agent slowed tumor progression, whereas TNF-alpha alone had no effect. However, TNF-alpha, especially when given twice per week before radiation for a total of four doses each, significantly increased the efficacy of the radiation. Low leukocyte counts were associated with combination treatment, whereas transforming growth factor-beta 1 levels were depressed in all treated groups. TNF-alpha did not modulate radiation-induced inhibition of C6 cell proliferation in vitro. The data show that TNF-alpha at relatively nontoxic doses can significantly enhance the antitumor effects of radiation against a rapidly growing glioma. This effect was more than additive, because TNF-alpha alone did not slow tumor progression.
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PMID:Tumor necrosis factor-alpha enhances antitumor effects of radiation against glioma xenografts. 930 29

Brain tumor tissue contains different pathological areas, such as tumor cell rich parts, necrotic tissues, and cyst. Furthermore, both neovascularization and edema formation progress along with the tumor progression. In this study we employed diffusion weighted (DW) and magnetization transfer contrast (MTC) imaging to chronologically investigate the biological characteristics of a rat glioma. RG-2 glioma cells were implanted stereotactically into the right hemisphere of male Wistar rats. MR images were taken 1, 2 and 3 weeks after inoculation. Apparent diffusion coefficient (ADC) and MTC values were calculated as follows; ADC = -ln (SI-DW/SI-T2)/1096, MTC = 1-SI-MTon/SI-MToff. Each mapping image was made based on the calculated average values of four pixels. The spatial signal changes and the real values were compared to the histological findings. The apparent increase of ADC was noted in the parenchyma adjacent to tumor suggesting the progression of edema. The tumor itself had similar or slightly increased ADC. Cystic and necrotic components appeared 2 weeks after implantation and they showed significantly higher ADC than those calculated in the contralateral putamen. On the other hand, MTC was slightly decreased in the parenchyma adjacent to the tumor, markedly within the tumor, and maximally in the cystic and necrotic area suggesting accumulation of macromolecules such as growth factors, cytokines, and serum albumin.
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PMID:Apparent diffusion coefficient (ADC) and magnetization transfer contrast (MTC) mapping of experimental brain tumor. 941 12

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