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

Fifteen brain tumor patients were treated with slow neutron. It proved to extend life span of terminal glioblastoma patients irresponsive to Co-60, to 2 years, but quality of survival is poor due to complications of previous treatments. Two glioblastoma patients excluding other treatments, the only genuine Boron-neutron capture therapy cases, have been living for 39+ and 34+ months working full-scale without neurological deficit.
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PMID:A revised boron-neutron capture therapy for malignant brain tumors. II. Interim clinical result with the patients excluding previous treatments. 5 Oct 55

The essential feature of tumour therapy rests upon host-tumour interaction. To achieve therapeutic effects, a prerequisite to immunotherapy is the reduction of tumour cells in the host's body. Such measures should not be immunosuppressive. Cytotoxic chemotherapy is not appropriate in this regard. Supraradical surgery and non-specific radiotherapy are not desirable for preservation of nervous function, if their immunosuppression is not as severe as cytotoxic substances. Boron-neutron capture therapy is a highly specific and least immunosuppressive means of reducing tumour cells of the central nervous system. A brief introductory review of basic research is presented. The interim clinical results are: (i) Treatment of recurrent glioblastoma: Survival extension obtained by neutron capture therapy is 21.9 +/- 7.2 mos in contrast to that obtained by conventional treatments of 6.7 +/- 0.6 mos (p less than 0.001), (Total survival 26.3 +/- 6.7 mos); and (ii) only three patients including two glioblastoma cases were treated with neutron by the same surgeon who, by performing the first tumour operation, had the advantage in topographic knowledge for determining the radiation field. They survived 4, 5, and 6 years in almost fully active conditions. The new Musashi Institute of Technology Reactor Thermal Neutron Therapy Facility and the increased domestic production of boron-10 isotope have enlarged the therapeutic capacity to two dozen patients a year.
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PMID:Boron-neutron capture therapy in relation to immunotherapy. 69 45

The effectiveness of boron neutron capture therapy is predicted to be dependent not only on the amount of boron taken up by the target cells but also on the intracellular distribution of boron. Using the isotopic imaging technique ion microscopy, we have quantitatively determined uptake and intracellular distribution of Na2B12H11SH, a promising boron drug for boron neutron capture therapy, in four human cell lines: U87 glioblastoma cells, HeLa epithelioid carcinoma cells, GM 2408b mutant skin fibroblasts, and GM 3348b skin fibroblasts. The boron uptake of all four cell lines, after exposure to 100-500 micrograms/ml Na2B12H11SH, increased as the dosages were increased but showed a tendency toward saturation. Boron was more concentrated in the cytoplasm than in the nucleus but was not strongly localized within cells. There were no significant differences in boron uptake among the four cell lines. A retention experiment identified at least two different intracellular boron pools, and cells lost greater than 60% of intracellular boron within 1 h upon changing to Na2B12H11SH-free medium, indicating a largely low affinity binding.
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PMID:Quantitative imaging of a radiotherapeutic drug, Na2B12H11SH, at subcellular resolution in tissue cultures using ion microscopy. 139 24

The role of Neutron Capture Therapy for the treatment of uncontrollable, localised tumours is examined. Several boron carrier biochemicals are already in use for the selective accumulation of boron in cancer cells, and therapeutic boron concentrations have been achieved in glioblastoma and melanoma in animal models and in patients. Local control of glioblastoma and subcutaneous melanoma has been reported after thermal neutron irradiation. Different neutron beam requirements apply for the treatment of these cancers, in the former case a thermal beam is adequate but a more penetrating epithermal beam is needed for the treatment of deep-seated tumours. A thermal facility for small animal irradiations is available in Australia, and the development of a patient thermal/epithermal facility is under active consideration.
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PMID:The potential of neutron capture therapy in the management of uncontrollable localised tumours. 196 83

The present report provides an overview of the multidisciplinary research effort on BNCT that currently is in progress at The Ohio State University. Areas under investigation include the preparation of boron containing monoclonal antibodies, the synthesis of boron containing derivatives of promazines and phathalocyanines, the development of a rat model for the treatment of glioblastoma by means of BNCT, the design of an accelerator-based neutron irradiation facility, and 10B concentration measurements using alpha track autoradiographic methods. Progress in each of these areas is described and the direction of future research is indicated.
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PMID:Pre-clinical studies on boron neutron capture therapy. 275 23

Boron-neutron capture therapy (BNCT) is theoretically a highly selective treatment of infiltrating tumours, in that the tumoricidal heavy particle radiation is limited to a sphere of 10 microns around a tumour cell which is loaded with non-radioactive boron-10 atoms. There were 73 gliomas among the 83 cases treated by boron-neutron capture therapy. For grade III-IV cerebral gliomas, 5 and 10 year survival rates were an unimpressive 19 and 10% respectively. This was the result of technical problems such as unsatisfactory reactors and inadequate craniotomies for the majority of the patients. If the analysis was limited to those whose tumours had been irradiated with more than 2.5 x 10(12) neutrons/cm2 (yielding more than 3,000 rem or more), the 5 and 10 year survival were almost 100 and 50%. The longest surviving glioblastoma (grade IV) patient has lived in a satisfactory manner for the past 15 years. For the cases who had been treated with borderline doses (lethal or sublethal), interpretation of the postoperative CTs was frequently intriguing. Several cases had to undergo re-opening and occasionally even another BNCT, only to find no viable tumour tissue. Death occurred in some, either due to discontinuation of supportive treatments by local physicians, or due to excessive therapies by the author directly involved in the patient's care, both of whom had erroneously believed in recurrence. At autopsy, residual tumour cells were recognized only in the areas where the above-mentioned neutron fluence had not been delivered at the time of the treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Experience of boron-neutron capture therapy for malignant brain tumours--with special reference to the problems of postoperative CT follow-ups. 318 8

Biodistribution of two compounds presently considered for use in neutron capture therapy has been studied in mice carrying a transplantable Harding-Passey melanoma. A method is described by which quantitative assessment can be made of the boron distribution in whole-body sections of such animals. An alpha-particle-sensitive film is placed in close contact with a freeze-dried section of an animal and exposed to neutrons. The tracks visible after etching are analyzed optoelectronically in fields of 0.6 X 0.6 mm2 and compared to standards of boron homogeneously distributed in liver homogenates. The dynamic range of this method is about two orders of magnitude in concentration, with a lower detection limit of 0.1 to 0.01 ppm 10B, depending on the rate of induction of spurious tracks by fast neutrons present in the neutron beam chosen. In a transplantable Harding-Passey melanoma in mice, it was found that the sulfhydryl boron hydride Na2B12H11SH presently used for therapy of glioblastoma clears blood, muscle, and brain very rapidly. Its accumulation in tumors was persistent for more than three days. A higher tumor accumulation was observed with its disulfide, which has been suggested for neutron capture therapy. For both compounds, a marked heterogeneity of boron distribution within one tumor was found.
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PMID:Quantitative neutron capture radiography for studying the biodistribution of tumor-seeking boron-containing compounds. 365 47

Twenty-five neonatal beagles were used for this study. Gliosarcoma was injected into the cerebral hemisphere of 7 neonatal beagles (Group I). These animals were then treated by boron neutron capture therapy. The response of the tumor to therapy was evaluated by serial CT scans and 3 times magnification of cerebral angiography. The animals were sacrificed at varying post-therapy periods for histological study. Fifteen neonatal beagles implanted gliosarcoma without therapy (Group II) and 3 normal controls without tumor (Group III) were subjected to the same follow-up studies. (Results) (1) Neonatal beagles with implanted tumor showed moderate degree of ventricular dilatation within a short period. The finding of communicating hydrocephalus was interpreted as initial growth of tumor. (2) Animals after therapy had variable cavitation in the hemisphere that had contained calcium deposit on CT. Moderate dilatation of the lateral ventricle was present without any significant midline shift and there was an area of porencephaly extending out from the right lateral ventricle on CT (Fig. 1, Case 2). Cerebral angiography demonstrated hydrocephalus with an avascular region in the right cerebral hemisphere, compatible with the previously described porencephalic cyst (Fig. 2, Case 2). (3) Three cases out of 7 showed neurological symptoms after tumor implantation (Cases 3, 5 and 6). Carotid angiography showed large temporal lobe tumor with some tumor stain and also some involvement of the right frontal lobe after therapy (Fig. 7, Case 3). In postmortem examination, there was tumor seen coating the right lateral ventricle as well as the left temporal horn. The right cerebral hemisphere was slightly smaller than the left. The left lateral ventricle was remarkably enlarged (Fig. 9). (4) Four out of 7 treated animals with injected gliosarcoma showed no evidence of tumor at postmortem examination. CT demonstrated moderate dilatation of the lateral ventricle without any significant midline shift, an area of porencephaly and definite decrease in size of the right cerebral hemisphere and calvarium (Fig. 4). (5) Fifteen neonatal beagles implanted gliosarcoma without therapy (Group II) developed symptomatic and died within two weeks. (6) Control animals showed no ventricular dilatation or other abnormalities. (7) Microscopic examinations showed no similarities between implanted gliosarcoma and human glioblastoma. (Conclusion) Serial CT scans and magnification cerebral angiography in this experimental model appear extremely helpful in following the effects of therapy and important tool for the evaluation of a tumor growth or regression.
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PMID:[Neuroradiological Evaluation of an experimentally implanted tumor into cerebral hemisphere of neonatal beagles (author's transl)]. 709 78

Because of the short range of the highly energetic particles helium-4 and lithium-7 that results from neutron-induced disintegration of boron-10, the efficacy of Boron Neutron Capture Therapy (BNCT) is heavily dependent on 10B-microlocation. Despite the crucial importance of boron-10, there is little specific information with regard to the agent currently used for inducing BNCT, namely Na2B12H11SH. In the present study, a subcellular 10B-location was investigated in tumor tissue obtained from seven patients with glioblastoma World Health Organization Grade IV. These patients received Na2B12H11SH at doses used in therapeutic trials (75 mg/kg body weight in five patients, and 150 mg/kg body weight in two patients, respectively). In three cases, boron-10 was identified in glioblastoma cells by laser microprobe mass analysis. In these tumors, boron-10 was found only in the nuclei of neoplastic cells but not in other cell compartments. These preliminary results suggest a predominant association of Na2B12H11SH with the nuclei of malignant glioma cells and thus support the value of Na2B12H11SH as a suitable boron carrier for BNCT.
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PMID:Subcellular boron-10 localization in glioblastoma for boron neutron capture therapy with Na2B12H11SH. 793 21

Data on biodistribution and pharmacokinetics of Na2B12H11SH are few and lack in standardization. This study comprises a uniform series of 10 patients with glioblastoma administered Na2B12H11SH i.v. 24 h before surgery at a dose level used in earlier therapeutical trials (75 mg/kg body weight). Boron concentrations in tumor, normal brain, peritumoral edematous brain, blood, and urine were determined by inductively coupled plasma-atomic emission spectroscopy 24 h after Na2B12H11SH administration; boron uptake in tumor (mean, 12.2 micrograms/g) was sufficiently selective compared to concentrations in normal and edematous brain (1.2 and 2.3 micrograms/g, respectively). Mean concentration ratio of tumor:blood was slightly above unity. Boron concentration in blood decreased according to an open two-compartment model, mean excretion in urine over 24 h was 81.9%. The only side effect was an inconstant facial flush. Among efforts aiming at an optimized treatment protocol a dose escalation study seems to be justified.
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PMID:Boron neutron capture therapy: boron biodistribution and pharmacokinetics of Na2B12H11SH in patients with glioblastoma. 798 20


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