UMLS:C0017636 - FACTA Search

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Query: UMLS:C0017636 (glioblastoma)
18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

For the evaluation of brain tumor (n = 15), we performed both dynamic and static 99mTc-ECD (ECD) SPECT studies 201Tl SPECT was also used for comparison with the results of ECD SPECT. Dynamic ECD SPECT was obtained following the injection of 600 MBq of ECD. Five min after the injection of ECD, static ECD SPECT was performed. 201Tl SPECT was obtained 10 min after the injection of 74MBq. Abnormal uptake was recognized in 7 of 15 tumors with dynamic ECD: 5 of 7 meningiomas, 1 of 1 glioblastoma and 1 of 1 astrocytoma. However, no abnormal uptake was seen in 3 of 3 benign tumors (1 low grade astrocytoma, 1 hemangioma, 1 cranio-pharyngioma) and in 2 of 2 brain metastases. In contrast abnormal uptake was seen in 11 of 15 tumors with 201Tl:7 of 7 meningiomas; 2 of 2 brain metastases, 1 of 1 glioblastoma and 1 of 1 craniopharyngioma. No abnormal uptake was seen in 3 of 3 benign tumors (1 hemangioma and 2 low grade astrocytomas). Equivocal uptake was seen in 1 low grade astrocytoma with dynamic ECD and 201Tl. The mechanism of the accumulation of dynamic ECD to brain tumor is unclear. However, it may reflect not only blood flow, but also metabolism.
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PMID:[Evaluation of 99mTc-ECD SPECT for the detection of brain tumor: comparison with 201TI SPECT]. 903 64

Annexin II is a calcium and phospholipid binding protein and a substrate for protein-tyrosine kinases. Increased levels of annexin II are observed in various cancer cells and tissues, and the molecule has been proposed as a marker of malignancy in vivo. Annexin II was expressed in four glioma cell lines (D-54MG, D-37MG, U251MG and GaMG), as determined by Western blot analyses, immunofluorescence staining and flow cytometric measurements. In addition, annexin II expression was also found in cryostat sections obtained from 15 consecutive brain tumor biopsies: Ten were histologically classified as glioblastomas, one as an astrocytoma, two as meningiomas and two as brain metastases. Cultured spheroids from the glioma cell lines and from three of the glioblastoma biopsies showed lower levels of annexin II, than found in the monolayers of the cell lines and in the freshly cut biopsies. The annexin II expression of the cell lines were not found to be related to their proliferative, migratory or invasive properties. These findings indicate that although annexin II may serve as a marker of malignancy in vivo, its expression can be reduced in vitro, and appear unrelated to malignant features of glioma cell lines.
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PMID:Expression of annexin II in glioma cell lines and in brain tumor biopsies. 954 53

Neural cell adhesion molecule (NCAM) is down-regulated during periods of embryological cell migration and may be important in local tumor migration or metastases. Conflicting information exists in the literature about NCAM expression in human glial tumors and little is known about its expression in human brain metastases. We immunohistochemically stained a panel of 43 primary human brain tumors and their cultured counterparts for NCAM including glioblastoma multiformes, anaplastic astrocytomas, oligodendrogliomas, and contrasted their staining with a panel of 3 meningiomas, 11 brain metastases, and 5 normal brain samples utilizing the monoclonal antibody NKH-1. Most gliomas and metastatic melanomas and lung carcinomas showed a high percentage of cells positive for NCAM expression while NCAM staining was negative for other carcinomas. No difference was seen between intensity or percentage of cells that were NCAM positive, based on tumor grade or type. In glioma cell lines, NCAM expression was lost upon passage. In 15 glioma cell lines we also determined NCAM isoform expression by reverse transcription/polymerase chain reaction (RT/PCR) and found that 6 of 15 had message for NCAM 180, 8 of 15 for NCAM 140, and only 3 of 15 had message for NCAM 120. Normal brains always contained message for the 180 isoform and usually had mRNA for all 3 isoforms. Using monoclonal antibodies for retinoic acid receptor alpha (RAR alpha), we found nuclear staining in melanomas and lung carcinomas metastatic to brain and only rarely in gliomas. Neither the relative antigen density of NCAM nor the percent of NCAM-positive cells appreciably changed upon incubation with retinoic acid (RA), as measured by flow cytometry. RAR alpha was not found at a level measurable by immunohistochemistry in nuclei of most glial tumors, providing an explanation for why RA might not induce NCAM expression. Whether paucity of RAR alpha on primary gliomas might also correlate with results from clinical trials showing limited efficacy of RA in treatment of human gliomas awaits further study.
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PMID:Paucity of retinoic acid receptor alpha (RAR alpha) nuclear immunostaining in gliomas and inability of retinoic acid to influence neural cell adhesion molecule (NCAM) expression. 1022 20

Vascular endothelial growth factor (VEGF), a key regulatory protein in neoangiogenesis, is strongly expressed in a variety of primary brain tumors, particularly malignant gliomas. In previous studies, high levels of VEGF were also reported in tumor cysts of glioblastomas. Using an ELISA method we measured the concentration of VEGF in matched samples of aspiration fluid from tumor cysts and serum. Samples were collected from 14 patients with primary brain tumors of various histology (six glioblastomas, one protoplasmatic astrocytoma, two pilocytic astrocytomas, one ependymoma, one meningioma, and three craniopharyngiomas) and two patients with solitary cystic brain metastases from adenocarcinomas of the lung. Aspiration fluids of tumor cysts from all patients revealed high VEGF levels ranging between 882 and 1,263,000 pg/ml, which were 2 to more than 2,000 times higher than the corresponding serum levels. Maximum VEGF levels were detectable in cyst fluids from recurrent glioblastoma. Serum VEGF levels ranged between 125 and 716 pg/ml and did not differ from serum levels in 145 healthy volunteers. In a single patient with metastatic lung cancer the concentration of VEGF in serum and cyst fluid was determined during disease progression. During 60 days of follow-up VEGF concentrations in the cyst fluid collected by puncture of an Ommaya reservoir increased 650-fold, while serum levels remained rather constant. These findings indicate that immunoreactive VEGF is produced at the tumor site and abundantly released into the cyst fluid of primary and metastatic brain tumors. Interestingly, this abundant local release is not reflected in serum VEGF levels, even in the case of very high VEGF concentrations in tumor cysts. Thus, VEGF may be biologically relevant for the formation of tumor cysts in brain tumors and correlates with local disease progression.
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PMID:Vascular endothelial growth factor (VEGF) is elevated in brain tumor cysts and correlates with tumor progression. 1091 27

Diagnostically primary central nervous system lymphomas (PCNSL) have to be differentiated from glioblastoma and brain metastases. Histologically the overwhelming majority of PCNSL is represented by diffuse large B-cell lymphomas, in this series with a BCL6 expression in 80% of the cases detected by immunohistochemistry. Stereotactic biopsy is the method of choice in establishing the definite diagnosis and intraoperative smear cytology will detect the lymphoid blasts. To confirm the B-cell lineage, immunohistochemistry is needed (CD20, CD79a). Small reactive T-lymphocytes and monohistiocytic cells and activated "microglia" are found within and at the periphery of PCNSL foci. The infiltrated brain tissue shows partially pleomorphic reactive astrocytes that can be confused with neoplastic astrocytes, especially in small specimens. In contrast to high-grade gliomas, however, PCNSLs do not show endothelial proliferations. Subtypes or variants of diffuse large B-cell lymphomas can also be observed in cases of PCNSL: the anaplastic variant with large multinucleated tumour cells resembling Reed-Sternberg cells, T-cell rich B-cell lymphoma and intravascular B-cell lymphoma with primary manifestation within the brain or the spinal cord. HIV/AIDS-associated PCNSLs are characterised by large plasmoblastic or small Burkitt-like cells and tumour necrosis. Primary leptomeningeal large B-cell lymphomas do occur very rarely and are diagnosed by cerebrospinal fluid cytology.
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PMID:[Primary CNS lymphomas. Morphology and diagnosis]. 1218 81

Epileptic seizures are common in patients with cerebral metastases as well as in patients with primary brain tumors. In cancer patients without primary brain tumors or brain metastasis, epileptic seizures may occur due to metabolic or toxic causes, or due to infections. We performed a retrospective analysis from our neurooncological database concerning the occurrence of seizures in patients with primary brain tumors, patients with cerebral metastases and in cancer patients without brain tumors. Patients with low grade gliomas, such as astrocytoma WHO I + II (69%), oligodendroglioma WHO II (50%), and mixed glioma WHO II-III (56%) were more likely to have seizures than patients with anaplastic glioma WHO III (44%), glioblastoma WHO IV (48%) or meningeoma (45%). In patients with brain metastasis, melanoma (67%), cancer of the lung (29%), and gastrointestinal tumors (21%) were the primaries with the highest frequency of seizures. In cancer patients without brain metastases or primary brain tumors, seizures occurred in 4%. In conclusion, the occurrence of epileptic seizures in patients suffering from primary brain tumors, as well as in patients with cerebral metastases, varied within the tumor entity. Therefore, especially in brain tumors where a higher probability of epileptic seizures is expected, they should be taken into account in the care of cancer patients.
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PMID:[The frequency of seizures in patients with primary brain tumors or cerebral metastases. An evaluation from the Ludwig Boltzmann Institute of Neuro-Oncology and the Department of Neurology, Kaiser Franz Josef Hospital, Vienna]. 1252 23

Motexafin gadolinium [gadolinium (III) texaphyrin, gadolinium texaphyrin, Gd-Tex, GdT2B2, PCI 0120] is a radiosensitising agent developed for use in cancer therapy. It is cytotoxic in haematological malignancies by selectively localising in cancer cells that have high rates of metabolism. Motexafin gadolinium inhibits cellular respiration resulting in the production of reactive oxygen species and inducing apoptosis. It is being developed by Pharmacyclics in the US. Bulk motexafin gadolinium is supplied to Pharmacyclics by the US company, Celanese, through a manufacturing and supply agreement between the two companies. In June 2003, at the 39th Annual Meeting of the American Society of Clinical Oncology (ASCO-2003), the importance of having an agent for the treatment of brain metastases from lung cancer was highlighted. Results of a phase III study were presented that showed that motexafin gadolinium treatment was associated with a delay in time to neurological and neurocognitive progression in lung cancer patients. This was an important finding, as 46.6% of lung cancer patients already have brain metastases at the time of initial diagnosis, compared with only 2.7% of breast cancer patients. Brain metastases are also often the only site of metastatic disease in patients with lung cancer. In December 2002, Pharmacyclics began a phase III trial of motexafin gadolinium in patients with brain metastases (brain cancer in phase table) from lung cancer in the US, Europe, Canada and Australia. The trial is known as the Study of neurologic progression with Motexafin gadolinium And Radiation Therapy (SMART) and will compare whole-brain irradiation with whole-brain irradiation plus motexafin gadolinium in 550 patients. The primary efficacy endpoint is time to neurological progression and the secondary endpoints are survival and neurocognitive function. In January 2003, the US FDA completed its Special Protocol Assessment (SPA) of the SMART trial with a positive result and by June 2003, enrollment had begun. In addition, phase I trials are underway in children with intrinsic pontine glioma and adults with head and neck, lung and pancreatic cancers. A phase II trial is also being conducted in the US in patients with glioblastoma multiforme. Enrollment in this trial has been completed and preliminary results have been reported. Pharmacyclics has completed enrollment and follow-up of adults in its pivotal phase III trial of motexafin gadolinium as a radiation sensitiser for the treatment of brain metastases. The trial was conducted at 35 centres in Europe, Canada and the US. Full results from this initial phase III trial were presented at the annual meeting of the American Society of Clinical Oncology (ASCO) in Orlando, Florida, USA, held in May 2002. Pharmacyclics also announced in October 2002, at the 44th Annual Meeting of the American Society for Therapeutic Radiology and Oncology (ASTRO), that motexafin gadolinium significantly prolonged time to neurological progression when added to whole brain radiation therapy and reduced the number of deaths in patients with brain tumour. Pharmacyclics announced in September 2000 that it has initiated two NCI-sponsored phase I trials conducted under a Cooperative Research and Development Agreement (CRADA) between Pharmacyclics and the NCI. The first trial, conducted in patients with stage IIIA non-small cell lung cancer, was designed to determine the safety of two different dosing regimens of motexafin gadolinium during preoperative radiotherapy after induction chemotherapy. The second study was designed to examine the use of motexafin gadolinium in combination with stereotactic Gamma Knife radiosurgery in patients with primary glioblastoma mutiforme. Two phase I clinical trials have also been conducted for the treatment of newly diagnosed glioblastoma multiforme at the UCLA Jonsson Comprehensive Cancer Center, USA. These phase I studies were sponsored by the NCI and were conducted under a CRADA with the NCI. Pharmacyclics has also completed multicentre US phase II clinical trials of motexafin gadolinium fin gadolinium in patients with metastatic tumours of the brain who require whole brain radiotherapy. Motexafin gadolinium is in a phase II trial in patients with lymphomas and multiple myeloma in the US.
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PMID:Motexafin gadolinium: gadolinium (III) texaphyrin, gadolinium texaphyrin, Gd-Tex, GdT2B2, PCI 0120. 1472 95

Glutamine (Gln) is a growth determinant in neoplastic tissues. We analysed by RT-PCR the expression of mRNAs coding for the human variants of Gln transporters: ASCT2 (system ASC), SNAT1 [ATA1] (system A), SNAT3 [SN1] and SNAT5 [SN2] (system N), in samples of human malignant gliomas WHO grades III/IV (anaplastic astrocytoma and glioblastoma), glioma-derived cell cultures, brain metastases from peripheral organs, and control brain tissue. SNAT3 mRNA showed a 3-5 times stronger expression in gliomas than in metastases or control tissue, and was virtually absent from glioma cultures. Native glioblastoma immunostained positively with anti-SNAT3 antibody. The expression of ASCT2 mRNA, but not SNAT5 or SNAT1 mRNAs, was increased in all neoplastic tissues studied. Hence, increased expression of SNAT3 is a marker of primary malignant gliomas in situ.
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PMID:Increased expression of a glutamine transporter SNAT3 is a marker of malignant gliomas. 1509 55

Efaproxiral [RSR 13, GSJ 61, JP 4, KDD 86, RS 4] is a synthetic, small-molecule, radiation-sensitising agent being developed by Allos Therapeutics primarily for the treatment of cancer. It works by binding and allosterically stabilising deoxyhaemoglobin in hypoxic regions of tumour tissue. This increases oxygen uptake of the tumour tissue and restores its sensitivity to radiation therapy, making therapy potentially more successful. This first-of-its-class compound is particularly applicable for the treatment of certain tumour types that lack oxygen, such as brain metastases. In contrast to conventional chemotherapeutic agents or radiation sensitisers, there is no requirement for efaproxiral to be administered directly into tumours or to cross the blood-brain barrier for it to display efficacy. Efaproxiral is under review for approval in the US and EU as an adjunct to whole-brain radiation therapy (WBRT) for the treatment of brain metastases originating from breast cancer. It is also under clinical evaluation for a variety of other cancers, including glioblastoma, non-small cell lung cancer (NSCLC) and cervical cancer. Allos is seeking partnership opportunities for efaproxiral's development and marketing. The company has indicated that the development of efaproxiral would be in cooperation with a corporate partner, according to its 2003 Annual Report. In 1994, Allos Therapeutics acquired exclusive worldwide rights to intellectual property relating to efaproxiral from the Center for Innovative Technology (CIT). Allos has entered into arrangements with two contract manufacturers for the supply of efaproxiral, and a third manufacturer for the supply of the formulated drug product. Hovione FarmaCiencia is the primary supplier of efaproxiral, and is contracted to manufacture sufficient quantities on a commercial scale. In addition, a second manufacturer, Raylo Chemicals, is also producing quantities of efaproxiral. In December 2003, Allos entered into a long-term development and supply agreement with Baxter Healthcare who will formulate the efaproxiral into an injection. Allos is also seeking to establish an alternate supplier of efaproxiral injection. Allos submitted a rolling NDA to the US FDA consisting of three data components. Submission began in the third quarter of 2003 and was completed by the fourth quarter of 2003. The first part of the application containing non-clinical information was submitted on 5 August 2003. The second part of the NDA containing information about efaproxiral's chemistry, manufacture and controls (CMC) was submitted in October 2003. Allos submitted its final component of the rolling NDA in December 2003. In February 2004, Allos announced that the FDA had accepted the company's NDA under priority review status. The FDA granted efaproxiral orphan drug status in August 2004 as an adjunct to WBRT for the treatment of brain metastases among breast cancer patients. Efaproxiral also received fast-track status in November 2000 for the same indication in the US. In February 2004, Allos initiated a phase III trial, called ENRICH (Enhancing Whole Brain Radiation Therapy In Patients with Breast Cancer and Hypoxic Brain Metastases) to investigate efaproxiral as an adjunct to WBRT for the treatment of brain metastases. Median survival time is the primary endpoint of the study. The National Breast Cancer Coalition (NBCC) is collaborating with the company to support trial enrolment and to gain additional insight about ways to improve radiation treatment in this patient population. The ENRICH trial protocol was approved by the FDA under a Special Protocol Assessment process; as part of the protocol, two interim analyses for safety and efficacy will be performed.This multicentre, randomised, open-label study has a target enrolment of approximately 360 patients at >100 medical centres across the US, Canada, Europe and South America. Allos announced in September 2004 that recruitment of clinical sites for the trial is ongoing across the US and Canada. Completion of trial enrolment in North America is anticipated in December 2005. Subsequently, Allos announced in January 2005 that recruitment into the ENRICH trial has commenced and is ongoing in Europe; enrolment at European sites is expected to conclude by the third quarter of 2006. Allos Therapeutics announced in June 2004 that it had filed an MAA with the EMEA for marketing of exaproxiral as an adjunct to WBRT for treatment of patients with brain metastases originating from breast cancer. The application is based on positive data from a pivotal phase III (REACH, RT-009) trial in this indication. The completed REACH trial investigated efaproxiral among patients with brain metastases undergoing WBRT. The trial was conducted at multiple sites in 11 countries, including the US, Canada, Europe and Australia. In August 2002 Allos completed the enrolment of 538 patients in the study. Initially only 408 patients were to be enrolled, but the company increased the size of the trial to conduct an appropriately powered subgroup analysis in patients with brain metastases from breast and NSCLC. The study was designed to demonstrate a 35% increase in median survival in the subgroup of patients compared with standard WBRT alone. The primary endpoint was survival. Allos began screening US patients for a phase III trial in NSCLC in early 2003. However, in May 2003, the company announced that as part of its revised operating plan it had suspended the screening of patients for this trial. The trial, which was known as ELITE (Enhanced Lung cancer treatment with Induction chemotherapy and Thoracic radiation and Efaproxiral), was comparing induction chemotherapy followed by thoracic radiation therapy with supplemental oxygen, with or without efaproxiral. The trial was enrolling patients with locally advanced, unresectable NSCLC. ELITE was planned to enrol up to 600 patients across North America and Western and Eastern Europe. Phase II trials in patients with inoperable NSCLC have been conducted in the US and Canada. Patient enrolment in one of these studies was completed in August 2000, with a total of 52 patients enrolled. This was an open-label, multicentre study of induction therapy with paclitaxel plus carboplatin followed by chest irradiation and efaproxiral in patients with locally advanced NSCLC. Positive results from this study were reported at the annual meeting of the European Society for Therapeutics Radiology and Oncology in September 2002. Efaproxiral has completed phase I trials as a treatment of surgical hypoxia in elective surgery patients receiving general anaesthesia. However, no recent development has been reported for these indications. In 1994, Allos signed an agreement with CIT for the exclusive worldwide rights to 17 US patents, a European patent covering the UK, France, Italy and Germany plus two pending patents in these territories, two issued patents in Japan, and a pending patent in Canada. These patents cover methods of allosterically modifying haemoglobin with efaproxiral and other compounds, the binding site of efaproxiral and therapy in certain indications including cancer, ischaemia and hypoxia. In addition to the licensed patents from CIT, Allos exclusively owns two patent families with pending applications directed to a formulation of efaproxiral and to methods of its use in BLOD MRI (blood oxygenation level-dependent magnetic resonance imaging) applications. These patents are pending in the US, Canada and Europe, and include an international patent application. In a May 2002 interview with the Wall Street Transcript, the CEO of Allos estimated the overall market for radiation therapy to be approximately 750 000 patients/year. Of this, brain metastases, NSCLC and glioblastoma therapy accounts for about 170 000, 140 000 and 6000 patients, respectively. Allos intend to use a speciality sales force to market efaproxiral directly to radiation therapists in North America. To penetrate the non-oncology market in the US, the company will seek partnership with one or more pharmaceutical companies with direct sales forces and with established distribution systems. Allos is also hoping to secure an oncology marketing partner for non-North American territories. At the time, the company had been issued 21 patents in the US, Canada, Europe and Japan.
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PMID:Efaproxiral: GSJ 61, JP 4, KDD 86, RS 4, RSR 13. 1586 22

Temozolomide (TMZ) is an alkylating agent earlier approved for recurrent anaplastic astrocytoma and approved for the treatment of newly diagnosed glioblastoma in the USA and Europe in 2005. TMZ shows good blood-brain barrier penetration and exhibits a favorable side effect profile. Its key mode of action appears to be methylation at N(7) and O(6)-positions of guanine. The level of expression and activity of the DNA repair enzyme O(6)-methylguanine DNA methyltransferase is thought to be a major predictor of response to TMZ. The demonstration of prolonged survival when TMZ was added to radiotherapy in the European Organisation for Research and Treatment of Cancer 26981/22981/NCIC CE.3 trial has been a breakthrough in the treatment of newly diagnosed glioblastoma. The early preliminary evidence for activity in recurrent malignant gliomas further resulted in a broad evaluation of TMZ for other tumors in neuro-oncology, mainly low-grade gliomas, brain metastases and primary cerebral lymphomas.
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PMID:Temozolomide: a milestone in the pharmacotherapy of brain tumors. 1655 52

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