Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

From 1981 to 1989 there were 43 from 154 cases of metastatic brain tumors, which seeded along the CSF pathways found in the Department of Radiology, Siriraj Hospital Medical School, Bangkok. These seeding tumors were spread from both primary intracranial (25 cases) and extracranial neoplasms (18 cases). Among the primary intracranial tumors, pineal neoplasm was the most frequent site (48%). The next rank was ependymoma (20%), medulloblastoma (16%), glioma (12%) and others (4%). The majority of extracranial neoplasms that seed in the CSF pathways were malignancy of lung (44.4%), choriocarcinoma (22%) and breast (11%). Lateral ventricle was the most frequent site of seeding (65%). The remaining tumors seeded in cisterns, leptomeninge and spinal subarachnoid space. CT is sensitive in detecting seeding tumors but not specific for each type of tumor.
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PMID:CT findings of seeding tumors. 174 32

Expression of the Cytokine genes in human astroglial cell lineage was studied. Primers for 5 different human cytokine, TNF-alpha, -beta, IFN-gamma, G-CSF and GM-CSF, were used to analyze messenger RNA transcripts in 5 cultured human astrocytoma, one neuroblastoma cell lines and fresh brain specimens by polymerase chain reaction (PCR). Three out of 5 unstimulated astrocytomas, U138, U251, U373 MG and IMR32 neuroblastoma cells expressed TNF-alpha genes. After stimulation with IL-1 beta (1000 U/ml) all these cell lines expressed TNF-alpha genes. TNF-beta genes could not be detected in these cell lines even in the presence of any cytokine stimuli. We were able to detect expression of IFN-gamma genes within 2 astrocytoma cell lines (U87MG and A172), which interestingly did not show TNF-alpha activity. Constitutive expression of mRNA transcripts of GM -CSF could be detected in all astrocytoma and two out of 5 unstimulated astrocytomas, U87MG and U138MG, expressed G-CSF genes. After stimulation with IL-1 beta, all cell lines expressed G-CSF. In addition, we also examined gene expression of these cytokines within 4 human malignant astrocytoma specimens, 2 peritumoral brain and 2 autopsied normal brains. The results show that tumor and surrounding lesions express TNF-alpha (4 of 6), TNF-beta (1/6), IFN-gamma (4/6), G-CSF (3/6) and GM-CSF (5/6) but not normal brains. One tumor specimen also expresses TNF-beta as well as TNF-alpha genes (case 2). From these results, it is suspected that astroglial cell-derived cytokines may participate in local immune reactions accompanying glioma in the brain.
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PMID:[Expression of cytokine genes within astrocytoma cell lines and brain specimens]. 179 21

The imaging studies of 16 children with pathologically proved nasal encephaloceles (eight), nasal dermal sinuses/nasal dermoids (seven), and nasal cerebral heterotopias, more commonly known as nasal gliomas (one), were retrospectively reviewed and compared with normal control subjects to define the normal anatomy and analyze deformities caused by these lesions. Nasal encephaloceles were always identified as complex masses of mixed soft tissue and CSF intensity that were contiguous with intracranial structures. The nasal glioma appeared as a mixed-intensity mass that, on the basis of the CT scan, appeared to be continuous with intracranial structures. Nasal dermal sinuses could only be identified as they coursed through the skin and subcutaneous soft tissue. They could not be identified when intraosseous. Moreover, on CT and, particularly, on MR, a number of potential diagnostic pitfalls were encountered. The most important of these was the normal fat deposition that occurs within bone during normal maturation and during aeration of the frontal sinuses and nasal bones. These fatty changes can easily be mistaken for fatty tumors if they are not recognized as normal anatomic changes. Interestingly, the classic plain film findings for congenital nasal masses were present only in the encephaloceles and nasal glioma; dermoids and dermal sinuses showed none of the classic plain film findings. In the six patients who had both CT and MR, the masses were easily identified and characterized by each imaging method. Congenital nasal masses are well characterized by both CT and MR. It is important to understand the normal changes in the anatomy of the nasofrontal region in the pediatric age group to avoid false-positive diagnoses in this region.
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PMID:Congenital nasal masses: CT and MR imaging features in 16 cases. 190 39

We studied the activity of two enzymes NSE and TK in the biological fluids of 104 patients with nervous system diseases, who fell into 4 groups. 20 subjects out of 35 in the tumor group had glial tumors. We fixed a cut-off value of NSE and TK activity at the 95th percentile of the control group, both in serum and in CSF. The aim of our investigation was to assess the reliability of TK and NSE assays in separating brain tumors from other neurological diseases. In our patients, most of the TK activity above the cut-off value was found in the tumor group. Serum TK seems to be a useful marker for following up cerebral tumors after surgery, but NSE is less useful for this purpose.
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PMID:Neuron specific enolase (NSE) and thymidine kinase (TK) as markers in biological fluids of brain tumor patients. 224 18

We studied the feasibility of intrathecal ACNU perfusion therapy against subarachnoid dissemination of malignant glioma. Intrathecal perfusion was performed in adult dogs by constant drip administration of 1 to 2 mg ACNU dissolved in 10 to 20 ml of lactate Ringer solution into the lateral ventricle and cerebrospinal fluid drainage through the lumbar puncture. The perfusion time was changed from 15 to 71 min. A bolus injection of 2 mg ACNU was also tested in one dog. No neurological symptom was noted during and after perfusion, and histological examination reveal only a minimum denudation of ependyma in a small area. Concentration of ACNU in CSF and serum were measured by HPLC (high-performance liquid chromatography). ACNU was detected in lumbar CSF only by perfusion, not by bolus injection, and the maximum concentrations were 6.26 to 25.76 micrograms/ml. The elimination phase of ACNU in lumbar CSF followed linear kinetics and the half-time was 18 min on average. AUCs (area under the drug concentration-time curve) were 346 to 896 micrograms.min/ml and they were the equivalent of in vitro cell kills in excess of 3 logs for rat 9L gliosarcoma and human glioma 126 cells. Serum concentration was 0.10 micrograms/ml in maximum. These findings suggest the feasibility of intrathecal ACNU perfusion therapy against subarachnoid dissemination of malignant glioma and warrant further studies.
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PMID:[Intrathecal perfusion of ACNU neurotoxicity and intrathecal pharmacokinetics in dogs]. 258 15

Seven patients with supratentorial gliomas developed leptomeningeal gliomatosis (LMG) without symptomatic recurrence at the primary tumor site. In all, severe back and radicular pain, often simulating disc disease, preceded the development of spinal cord or cauda equina dysfunction. In 4 instances, intracranial hypertension due to hydrocephalus developed prior to spinal involvement. Cytological examination of the CSF revealed malignant cells in only 2/7 but a myelogram was diagnostic in all 7. All patients received spinal irradiation (RT) and 5 received chemotherapy. Two patients with low-grade gliomas improved transiently; 5 with malignant gliomas responded poorly, became paraplegic over 4 months and eventually died of LMG. When fatal LMG occurs in young adults suffering from supratentorial glioma, the primary tumor is often quiescent. Hydrocephalus is often the first manifestation of LMG and, when it is detected, a myelogram and CSF cytology study should be performed in the hope that diagnosis and treatment of spinal cord lesion at a very early stage will prove beneficial. Irradiation of the entire spinal canal is probably required as there is a high risk of rapid development of new lesions in non irradiated segments of the spinal canal.
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PMID:Leptomeningeal gliomatosis with spinal cord or cauda equina compression: a complication of supratentorial gliomas in adults. 271 19

Diffuse astrocytomas of the cerebrum, cerebellum, brain stem, and spinal cord are classified into three groups according to the degree of tumor anaplasia. These groups are the astrocytoma, anaplastic astrocytoma, and glioblastoma multiforme. Juvenile pilocytic astrocytomas have a better prognosis and are clinically and biologically distinct from the diffuse, fibrillary astrocytomas. The prognosis of astrocytomas depends not only on histologic characteristics, but also age of the patient, location of the tumor, and extent of surgical resection. The pattern of invasion into surrounding brain distinguishes gliomas from metastatic carcinomas and sarcomas. Topographic correlations have shown that malignant gliomas may invade the brain for distances of up to several centimeters from the enhancing rim seen on CT scan. However, the junction between glioblastoma and adjacent brain may also be fairly abrupt, with a peripheral margin of less than 1 mm. Recurrent glioblastomas are more widely invasive and often extend into areas that appear normal on CT scan. The optimal site for tumor biopsy corresponds to areas of contrast enhancement. Primitive neuroepithelial tumors are malignant neoplasms with a poor prognosis. They tend to recur locally and metastasize throughout the neuraxis via the CSF. It remains controversial whether these tumors should be classified as a single entity with the potential for differentiation along different cell lines, or whether the categories of neuroblastoma, spongioblastoma, ependymoblastoma, pineoblastoma, and medulloblastoma should be retained as specific entities. The medulloblastoma is the most common of these neoplasms, its clinicopathologic features are well characterized, and the current 5-year survivals of 50 to 60 per cent are better than for other "primitive" neoplasms. Glial fibrillary acidic protein is a specific marker for immature, reactive, and neoplastic astrocytes and ependymal cells. Although the absence of GFAP in a neoplasm does not exclude an astrocytic origin, the presence of GFAP indicates astrocytic or ependymal differentiation. This has important diagnostic applications. The expression of GFAP is used to distinguish astrocytic neoplasms from epithelial or mesenchymal tumors that may on occasion mimic a glioma. The detection of GFAP is also useful in the investigation of tumor histogenesis and differentiation both in vivo and in vitro. Although meningiomas exhibit a wide variety of histologic patterns, most tumors exhibit similar biologic and clinical behavior regardless of the histologic subtype.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pathologic analysis of primary brain tumors. 300 88

A 5-year-old child typical clinical features of neurofibromatosis presented with a history of suspected basilar meningitis and CT findings of enlarged optic nerves and an expanding left cavernous sinus mass. CSF cytologies and meningeal biopsy were unremarkable. At craniotomy, a mass confluent with the left trigeminal nerve was resected which had histologic characteristics of a nerve sheath tumor but was GFAP (glial fibrillary acidic protein) stain positive. Postmortem examination, 1 month following surgical resection, demonstrated a clinically unsuspected primary thoracic spinal cord astrocytoma with dissemination throughout the subarachnoid space, invasion of the trigeminal nerve and encasement of other cranio-spinal nerves. This unusual case emphasizes the occurrence of leptomeningeal spread in a clinically silent spinal cord glioma and the diagnostic value of immunohistochemistry.
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PMID:Diffuse leptomeningeal seeding from a malignant spinal cord astrocytoma in a child with neurofibromatosis. 302 59

Ten normal human volunteers and 44 patients with pathology of the brainstem or cranial nerves were scanned using a. 3 Tesla permanent MR imaging system. MR images were obtained of the cranial nerves and brainstem using various spin-echo pulse sequences and scanning planes. 4 mm thick sections with .75 mm pixels on a 256 display matrix were used whenever possible. The normal MR images were correlated with thin section cryodissection specimens of fresh human cadavers. Brainstem structures including major nuclei and tracts were then identified. The cranial nerves were followed through the subarachnoid cisterns and the base of the skull. Pathological involvement of the brainstem by tumors, infarcts, and demyelinating disease was well shown and correlated with clinical findings. Examples of optic glioma, fifth, eighth, and twelfth nerve schwannomas as well as other cranial nerve pathology were also demonstrated. Magnetic resonance produces excellent images of cranial nerves and brainstem with high contrast resolution. Unlike CT, there is no beam hardening artifact from bone. T1 weighted images maximize brainstem-CSF contrast and are useful for demonstrating the external anatomy of the brainstem and cranial nerves. The T2 weighted images show internal brainstem anatomy, CSF within neural foramina, and highlight many pathological conditions.
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PMID:Magnetic resonance imaging of the brainstem and cranial nerves. 308 46

An autopsy case is described of an 66-year-old man with multicentric glioma of multiple histopathology, i.e. protoplasmic astrocytoma and glioblastoma. Enhanced CT scan revealed three separate lesions in the right cerebral hemisphere, pons, and cerebellar vermis. Initial diagnosis by CT included metastatic and primary brain tumor, multiple abscess, fungal infection, parasites, tuberculoma, and so on. Biopsy of the right frontal mass revealed astrocytoma grade-2. An autopsy revealed gelatinous, clear marginal mass in the right frontal, parietooccipital and cerebellar vermis; an opaque marginal mass with necrosis in dorsal pons was found. At microscopic examination, the right frontal tumor exhibited continuity with both the paraventricular and the right parietooccipital tumor. The right cerebral hemisphere and cerebellar vermis tumors showed protoplasmic astrocytoma; the dorsal pons tumor showed glioblastoma. CSF examination revealed no tumor cells. Tumor invasion of the internal capsule and the meninges was also not found. Accordingly, we diagnosed as multicentric astrocytoma of multiple histopathology. Only 11 case reports of multicentric glioma were recorded in Japan; only one of which was of multiple histopathology. Worldwide, only 7 case reports of multicentric glioma of multiple histopathology were recorded; this is the first case of protoplasmic astrocytoma and glioblastoma. Seen in terms of pathogenesis of multicentric glioma, this case is thought to be very interesting.
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PMID:[An autopsy case of multicentric glioma of multiple histopathology]. 332 31


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