Search results for "Neutron Capture Therapy"

showing 6 items of 16 documents

Determination of the irradiation field at the research reactor TRIGA Mainz for BNCT.

2009

For the application of the BNCT for the excorporal treatment of organs at the TRIGA Mainz, the basic characteristics of the radiation field in the thermal column as beam geometry, neutron and gamma ray energies, angular distributions, neutron flux, as well as absorbed gamma and neutron doses must be determined in a reproducible way. To determine the mixed irradiation field thermoluminescence detectors (TLD) made of CaF(2):Tm with a newly developed energy-compensation filter system and LiF:Mg,Ti materials with different (6)Li concentrations and different thicknesses as well as thin gold foils were used.

Radiation-Sensitizing AgentsMaterials scienceAstrophysics::High Energy Astrophysical PhenomenaPhysics::Medical PhysicsBoron Neutron Capture TherapyIn Vitro TechniquesThermoluminescenceTransplantation AutologousTRIGAFast NeutronsFluoridesIsotopesNeutron fluxNuclear ReactorsGermanyHumansNeutronIrradiationBoronRadiationPhantoms ImagingRadiotherapy Planning Computer-AssistedRadiochemistryLiver NeoplasmsGamma rayLiver TransplantationTransplantationEnergy TransferGamma RaysLithium CompoundsThermoluminescent DosimetryThermoluminescent dosimeterApplied radiation and isotopes : including data, instrumentation and methods for use in agriculture, industry and medicine
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Combined TL and 10B-alanine ESR dosimetry for BNCT

2004

The dosimetric technique described in this paper is based on electron spin resonance (ESR) detectors using an alanine-boric compound acid enriched with 1 0 B, and beryllium oxide thermoluminescent (TL) detectors; with this combined dosimetry, it is possible to discriminate the doses due to thermal neutrons and gamma radiation in a mixed field. Irradiations were carried out inside the thermal column of a TRIGA MARK II water-pool-type research nuclear reactor, also used for Boron Neutron Capture therapy (BNCT) applications, with thermal neutron fluence from 10 9 to 10 1 4 n t h cm - 2 . The ESR dosemeters using the alanine-boron compound indicated ESR signals about 30-fold stronger than those…

inorganic chemicalsMaterials scienceBeryllium oxidechemistry.chemical_elementBoron Neutron Capture TherapyRadiationRisk AssessmentSensitivity and SpecificityThermoluminescencelaw.inventiondosimeters electron paramagnetic resonancespin resonancechemistry.chemical_compoundRadiation ProtectionIsotopeslawHumansDosimetryRadiology Nuclear Medicine and imagingBoronElectron paramagnetic resonanceBoronNeutronsRadiationRadiological and Ultrasound Technologybusiness.industryRadiotherapy Planning Computer-AssistedRadiochemistryElectron Spin Resonance SpectroscopyPublic Health Environmental and Occupational HealthReproducibility of ResultsRadiotherapy DosageGeneral MedicineSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)Neutron temperatureSystems IntegrationNeutron capturechemistryGamma RaysBody BurdenThermoluminescent DosimetryNuclear medicinebusinessRelative Biological EffectivenessRadiation Protection Dosimetry
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Dose calculation in biological samples in a mixed neutron-gamma field at the TRIGA reactor of the University of Mainz

2010

To establish Boron Neutron Capture Therapy (BNCT) for non-resectable liver metastases and for in vitro experiments at the TRIGA Mark II reactor at the University of Mainz, Germany, it is necessary to have a reliable dose monitoring system. The in vitro experiments are used to determine the relative biological effectiveness (RBE) of liver and cancer cells in our mixed neutron and gamma fi eld. We work with alanine detectors in combination with Monte Carlo simulations, where we can measure and characterize the dose. To verify our calculations we perform neutron fl ux measurements using gold foil activation and pin-diodes . Material and methods . When L- α -alanine is irradiated with ionizing …

inorganic chemicalsPhysics::Instrumentation and DetectorsQuantitative Biology::Tissues and OrgansPhysics::Medical PhysicsBoron Neutron Capture TherapyValidation Studies as TopicModels BiologicalIonizing radiationTRIGAHospitals UniversityNuclear ReactorsCell Line TumorGermanyRelative biological effectivenessMedicineDosimetryHumansRadiology Nuclear Medicine and imagingNeutronNeutronsbusiness.industryRadiotherapy Planning Computer-AssistedRadiochemistryLiver NeoplasmsRadiotherapy DosageHematologyGeneral MedicineHep G2 CellsNeutron temperatureNeutron captureOncologyGamma RaysAbsorbed dosebusinessNuclear medicineColorectal Neoplasms
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closo-borane conjugated regulatory peptides retain high biological affinity: synthesis of closo-borane conjugated Tyr(3)-octreotate derivatives for B…

2008

Despite the improvements in cancer therapy during the past years, high-grade gliomas and many other types of cancer are still extremely resistant to current forms of therapy. Boron neutron capture therapy (BNCT) provides a promising way to destroy cancer cells without damaging healthy tissue. However, BNCT in practice is still limited due to the lack of boron-containing compounds that selectively deliver boron to cancer cells. Since many neuroendocrine tumors show an overexpression of the somatostatin receptor, it was our aim to synthesize compounds that contain a large number of boron atoms and still show high affinity toward this transmembrane receptor. The synthetic peptide Tyr (3)-octre…

inorganic chemicalsStereochemistryBiomedical EngineeringPharmaceutical ScienceBioengineeringPeptideBoron Neutron Capture TherapyCHO CellsConjugated systemBoranePeptides CyclicCell Linechemistry.chemical_compoundCricetulusCricetinaeNeoplasmsMoietyAnimalsHumansBinding siteBoranesPharmacologychemistry.chemical_classificationOctreotateBinding SitesSomatostatin receptorOrganic ChemistryCell MembranechemistryCancer cellBiotechnologyBioconjugate chemistry
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Receptor-mediated uptake of boron-rich neuropeptide y analogues for boron neutron capture therapy.

2014

Peptidic ligands selectively targeting distinct G protein-coupled receptors that are highly expressed in tumor tissue represent a promising approach in drug delivery. Receptor-preferring analogues of neuropeptide Y (NPY) bind and activate the human Y1 receptor subtype (hY1 receptor), which is found in 90% of breast cancer tissue and in all breast-cancer-derived metastases. Herein, novel highly boron-loaded Y1 -receptor-preferring peptide analogues are described as smart shuttle systems for carbaboranes as (10) B-containing moieties. Various positions in the peptide were screened for their susceptibility to carbaborane modification, and the most promising positions were chosen to create a mu…

inorganic chemicalsStereochemistrymedia_common.quotation_subjectMolecular Sequence Datachemistry.chemical_elementPeptideBoron Neutron Capture TherapyBreast NeoplasmsBiochemistrySolid-phase synthesisDrug DiscoveryChlorocebus aethiopsAnimalsHumansNeuropeptide YAmino Acid SequenceGeneral Pharmacology Toxicology and PharmaceuticsReceptorInternalizationBoronBoranesmedia_commonPharmacologychemistry.chemical_classificationChemistryOrganic ChemistryReceptor-mediated endocytosisNeuropeptide Y receptorReceptors Neuropeptide YHEK293 CellsDrug deliveryCOS CellsMolecular MedicineFemaleChemMedChem
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High-Resolution 3-D CZT Drift Strip Detectors for Prompt Gamma Ray and Neutron Detection in BNCT

2021

Spectroscopic imagers based on high-Z and wide-bandgap compound semiconductor detectors are widely proposed for the detection of prompt gamma rays in boron neutron capture therapy (BNCT). BNCT is a therapy based on the neutron capture reaction 10B (n,α)7Li. To perform a real-time monitoring of the spatial distribution of 10B during the treatments, the detection of the prompt gamma rays (478 keV), produced by the 7Li recoil nuclei, can be helpful. In this work, we presented the potentialities of new high-resolution CZT drift strip detectors, recently developed by our group, for BNCT measurements. The detectors, exploiting the analysis of the collected-induced charge pulses from anodes, catho…

semiconductor detectorsboron neutron capture therapySettore FIS/01 - Fisica SperimentaleCZT detectorSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)
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