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)

Twelve neonatal brain tumors, presenting within 60 days of birth, constituted 3.3% of pediatric brain tumors. Three-fourths were supratentorial. Two-thirds were benign. Forty-two percent were choroid plexus papilloma. Twenty-five percent were teratoma. Eight percent each were hypothalamic glioma, gliosarcoma, medulloblastoma, and primitive neuroectodermal tumor. Clinical symptoms were nonspecific. Signs of herniation were absent in all 12 patients. Forty-two percent of these patients died 1 day to 8 months after diagnosis. Ultrasound, CT, and magnetic resonance have all proved useful for displaying these lesions suitably for surgery.
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PMID:Neonatal brain tumors: CT and MR findings. 333 47

One of the serious problems in chemotherapy of brain tumors is that tumor cells are able to acquire resistance to initially effective cytotoxic agents. In order to study the mechanism of this resistance against chemotherapeutic agents, especially ACNU, two variant cell lines (C6/ACNU and 9L/ACNU) resistant to ACNU [1-(4-amino-2-methyl-5-pyrimidinyl) methyl-3-(2-chloroethyl)-3-nitrosourea hydrochloride] were selected previously in vivo from rat C6 glioma and 9L gliosarcoma, respectively. Uptake and retention of ACNU in these resistant cells were studied with [14C]ACNU. The result indicated that the resistance exhibited by both sublines of C6/ACNU and 9L/ACNU cells were due to the reduced uptake and retention of the drug. The study of the effects of oxidative phosphorylation inhibitor, DNP (2, 4-dinitrophenol), on the uptake and retention of ACNU suggested that there is an active outward transport mechanism for ACNU in 9L/ACNU cells. It might be concluded that ACNU-resistant brain tumor cells are resistant to ACNU by virtue of both the reduced uptake of the drug and the increased active efflux.
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PMID:[Studies on the mechanism of ACNU resistance in sublines of rat C6 glioma and 9L gliosarcoma in vitro]. 346 75

A calmodulin inhibitor, trifluoperazine, was found to enhance the cytotoxicity of ACNU in vitro in rat C6 glioma, 9L gliosarcoma and their ACNU-resistant sublines (C6/ACNU and 9L/ACNU). Uptake and retention of ACNU in these cells were studied with [14C]ACNU in the absence or presence of trifluoperazine. The results indicated that intracellular uptake and retention of ACNU in C6 and 9L cells were larger than those in C6/ACNU and 9L/ACNU cells, and that trifluoperazine increased the cellular uptake and retention of ACNU in C6 and 9L, especially in C6/ACNU and 9L/ACNU cells. The amounts of ACNU in C6/ACNU and 9L/ACNU cells reached almost the same level as those detected in C6 and 9L cells. When trifluoperazine were added along with ACNU to the culture in vitro at a concentration of 10 and 20 microM, ACNU resistance was completely overcome. Furthermore, treatment of C6 and C6/ACNU cells with 20 microM trifluoperazine did not change the cellular uptake rate of [14C]AIB (alpha-aminoisobutyric acid), which might indicate that the membrane permeability of the cells was kept intact during the drug treatment. The same phenomenon was observed in 9L and 9L/ACNU cells. It might be concluded that the enhanced effect of cytotoxicity of ACNU in ACNU-resistant rat brain tumor cells presented in this study is presumably due to the increase of intracellular concentration of ACNU resulting from the inhibition of the efflux of ACNU by trifluoperazine from the resistant cells. It was also suggested that ACNU resistance in malignant brain tumors could be overcome by combination chemotherapy with ACNU and calmodulin inhibitors.
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PMID:[Possibility of overcoming ACNU resistance in ACNU-resistant sublines of rat brain tumors in vitro by a calmodulin inhibitor]. 347 Jun 26

Explants derived from human gliomas have been characterized with respect to their cellular outgrowth pattern after 1-22 weeks in culture. A mat of cells which were fibronectin (FN)-positive and glial fibrillary acidic protein (GFAP)-negative (hereafter designated FN+ cells) with a polygonal, flat morphology covered the growth substrate in a swirling pattern for a mean diameter of 9.2 mm around FN+ explants. FN+ cells showed ruffled plasmalemma, dilated rough endoplasmic reticulin (RDR), and extracellular filamentous strands. Rare desmosomes were compatible with at most minor leptomeningeal components or differentiation. FN+ cells predominated in six of seven cultures at passage 2, and their features were the same from various high-grade gliomas and gliosarcoma. Around other explants, elongated or stellate cells which were GFAP+ and FN- grew in a netlike pattern with little cell-to-cell contact. These GFAP+ cells surrounded explants at a mean diameter of 2 mm, substantially less than FN+ cells (P less than 0.005), and they grew more slowly than FN+ cells around explants. GFAP+ cells had an area/perimeter ratio which was less than that of FN+ cells. GFAP+ cells contained abundant intracellular filaments, rare desmosomes, and narrow RER cisternae. In mixed explants, GFAP+ cells often grew on top of FN+ cells. Individual cells which stained for both GFAP and FN were evident only from one glioma (8% doubly positive). Cells negative for both proteins resembled FN+ cells morphologically. Frozen sections of original glioma tissue showed FN+ vessel walls and GFAP+ parenchyma. Results are evidence for very early overgrowth of a preexistent FN+ cell type distinct from the GFAP+ parenchymal cell. The features of this distinct cell type are mesenchymal and resemble the proliferating vascular elements of gliomas in situ. The tendency for GFAP+ cells to grow on top of these FN+ cells suggests a feeder layer interaction. More knowledge of the origins and interactions of these two cell types may increase our understanding of the mechanism of antigenic changes in gliomas and may provide clues to improved therapeutic approaches.
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PMID:Products of cells cultured from gliomas. VI. Immunofluorescent, morphometric, and ultrastructural characterization of two different cell types growing from explants of human gliomas. 355 4

Increasing interest has developed in the use of the photodynamic agent, Hematoporphyrin derivative (HpD) for photoradiation therapy (PRT) as adjunctive therapy of malignant glial tumors of the brain. HpD, injected systemically, is preferentially taken up and retained by neoplastic tissue. Early studies of such uptake have largely relied on gross fluorescence as evidence of tissue uptake. In this study HpD was labelled with a tritiated radioisotope (3H) in order to quantify tissue uptake in visceral and in normal and neoplastic brain tissues in a rat brain model. 3H-HpD was injected intravenously at a 10 mg/kg dose into 30 Sprague-Dawley rats (Group A) without tumors in order to clarify method. Separately, 3H-HpD of like dosage was injected into 20 Fischer-344 rats (Group B), 5 control and 15 with a 9L gliosarcoma implanted in the left anterior cerebral cortex. Post injection sacrifice occurred at 6, 24 and 48 hours. From the Sprague-Dawley group multiple somatic and cerebral specimens were assayed. Differential areas within the brain showed no significant difference in uptake. The tumor area, peritumoral margin, and distant uninvolved areas of the Fischer-344 9L rats were likewise assayed. Definite uptake of normal visceral and cerebral tissue occurred with a markedly higher uptake differential in tumor areas. Such differential was relatively consistent from trial to trial, but multiple separate values obtained in the respective study groups were often unreliabe in their reproducibility and at variance with previously reported tissue level studies. These findings implied an instability of 3H-HpD, subsequently confirmed chromatographically as contamination probably due to time related degradation and exchange. Therefore, 3H-HpD appears to inherently carry such a risk for contamination. The compound Photofrin II (HpDII) represents a chromatographic fraction of HpD (HpDI), currently considered its most photodynamically active and purest component. Tritiated Photofrin II was used for quantification. An assay was performed with 5 Fischer-344 9L brain tumor rats (Group C), sacrificed at 24 hours. Photofrin II provided results more reliably reproducible. Contamination, degradation, and exchange of 3H-Photofrin II did not appear to occur. Neoplastic brain levels of the Photofrin II isotope were higher than in the HpD studies, and highly fluorescent. Normal brain values were consistently minimal and without fluorescence. The differential tumor/brain ratio in Photofrin II was consequently much higher. The isolated active substrate of HpDI and HpDII (Photofrin II) appears to be the compound DiHematoporphyrin Ether (DHE).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Observations in studies of quantitative kinetics of tritium labelled hematoporphyrin derivatives (HpDI and HpDII) in the normal and neoplastic rat brain model. 624 30

It is important to evaluate the therapeutic and side effects of new therapy for malignant brain tumors in an adequate animal model prior to its initial clinical investigation. For decades, neurooncologists have argued for the use of primary, autochthonous tumors rather than transplanted tumors such as C 6 glioma cells and 9 L gliosarcoma cells. But unfortunately, no spontaneous animal astrocytomas are currently available as usable models. So we tried to establish the model of primary, autochthonous avian sarcoma virus-induced rat gliomas for experimental chemotherapy and immunotherapy. The present study was undertaken to determine the incidence and histologic pattern of tumors and the mean survival time of the animal model used. It was found that the intracerebral inoculation of 2 X 10(6) FFU/5 microliter of infectious cell free homogeneous subgroup D Schmidt-Ruppin avian sarcoma virus (SR-D-ASV) into 3-day-old inbred Fischer 344 rats induced small sized tumors in all rats 20 days later. The mean survival time of inoculated rats were 58.7 +/- 12 days. As to the classification of SR-D-ASV induced brain tumors in Fischer rats, astrocytoma was 70.6% (protoplasmic astrocytoma 23.5%, fibrillary astrocytoma 47.1%), sarcoma 17.6%, and mixed astrocytoma and sarcoma 11.8%. In conclusion, this SR-D-ASV induced tumor in the rat fulfilled the following criteria for the desirable animal model: (1) Spontaneously arising. (2) Glial origin. (3) Intraparenchymal growth. (4) Uniformly fatal within reasonable time period. Statistic evaluation of the effects of chemotherapy and immunotherapy was considered to be possible.
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PMID:[Schmidt Ruppin-D-ASV-induced primary rat brain tumor model for therapeutic screening]. 629 61

In 80 specimens of human glioma the production of glial fibrillary acidic protein (GFAP) by tumour cells invading meninges or connective tissue was studied immuno-cytochemically by the PAP technique. In 38 of 55 cases of astrocytoma, glioblastoma, gliosarcoma, and oligoastrocytoma, GFAP immunoreactivity was greater in the invading cells as compared with the main part of the neoplasm. Fifty-eight percent of the astroglial tumours invading the leptomeninges, all astroglial tumours invading connective tissue and all gliosarcomas showed enhanced GFAP immuno-reactivity of tumour cells getting in contact with collagenous tissue, whereas meningeal infiltrates of 25 non-astroglial tumours (oligodendroglioma, ependymoma, medulloblastoma) remained GFAP-negative like the main part of the respective tumours. In the majority of astroglial tumours an increase of GFAP immunoreactivity was found also in perivascular cells of the main part of the tumour. It is concluded that glioma cells are capable of adapting their cytoskeleton to their micro-environment. Contact with dense collagenous tissue appears as an important factor able to induce an increased production of GFAP by adjacent glial cells.
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PMID:Production of glial fibrillary acidic protein (GFAP) by neoplastic cells: adaptation to the microenvironment. 639 Oct 69

A second instance in which a carcinoma metastatic to the brain has induced the formation of a sarcoma in the associated cerebral blood vessels, is reported. This is analogous to the more common gliosarcoma, a tumor in which a primary glioma, most often anaplastic astrocytoma (glioblastoma multiforme), has induced the formation of a similar sarcoma, with both neoplastic tissues in the same tumor mass. The formation of the sarcoma is attributed to a neoplastic change in the markedly hyperplastic endothelial cells of the cerebral blood vessels that are very commonly found with anaplastic astrocytomas and are often found in relation to metastatic carcinoma. The progression of hyperplasia to neoplasia has long been considered of oncogenetic significance, and in this specific circumstance, appears to be due to some factor or substance which passes from the carcinoma cells to the cerebral vessels.
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PMID:Sarcoma arising in metastatic carcinoma in the brain. A second instance. 647 39

The effect of intravenously injected tumor immune spleen cells on growth of 3 X 10(5) gliosarcoma T9 cells injected intradermally (ID) or intracerebrally (IC) into sublethally irradiated CDF rats was evaluated. Spleen cells from donor rats with sufficient immunity to reject 5 X 10(5) T9 cells inhibited the growth of T9 cells mixed with spleen cells in a ratio of 1:25 and injected ID, but could not act after intravenous transfer. However, donor rats which had rejected increasing T9 challenge doses up to 1 X 10(7) cells produced immune spleen cells which, upon IV transfer, could inhibit growth of ID T9 challenge but not of EB-679, an unrelated glioma, in recipient rats. Rejection of IC T9 challenge was also obtained after IV transfer, in recipients of such "hyperimmune" spleen cells, but was less (60% maximum) than that noted after ID T9 challenge (100% maximum). The removal of B cells from the transferred spleen cells did not affect the results, suggesting that the specific immunity was mediated by T cells. We conclude that the special immunological circumstances of tumors growing in the brain renders them less accessible to rejection by systemically transferred immune cells, but it is nevertheless possible to effect a significant incidence of rejection of syngeneic tumor growth in the brain by the intravenous transfer of hyperimmune spleen cells.
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PMID:Immunity to transplantable nitrosourea-induced neurogenic tumors. III. Systemic adoptive transfer of immunity. 661 Jul 26

alpha-Difluoromethylornithine (DFMO), an enzyme-activated irreversible inhibitor of ornithine decarboxylase, was used alone and in combination with various single doses of 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) to treat animals bearing murine glioma 26 and rat 9L gliosarcoma intracerebral tumors. Used as a single agent, DFMO has little or no effect against these tumors. However, in both intracerebral tumor models, pretreatment with DFMO p.o. before i.p. administration of BCNU potentiates the effect of BCNU without increasing toxicity. The effects of DFMO administered p.o. after BCNU or before and after various doses of BCNU indicate that DFMO may also effectively slow the repopulation of these tumors after BCNU therapy.
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PMID:Potentiation of the antitumor therapeutic effects of 1,3-bis(2-chloroethyl)-1-nitrosourea by alpha-difluoromethylornithine, an ornithine decarboxylase inhibitor. 679 58

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