Search results for "radiotherapy [Medulloblastoma]"

showing 10 items of 87 documents

Fludarabine combined with radiotherapy in patients with locally advanced NSCLC lung carcinoma: a phase I study

2011

Abstract Background and purpose Fludarabine is an adenine nucleoside analogue that has significant activity in hematological malignancies and has shown promising activity in combination with radiation in preclinical solid tumor models. We designed a phase I trial exploring concurrent fludarabine and radiotherapy in patients with advanced non-small cell lung cancer (NSCLC) to determine the maximum tolerated dose (MTD) of fludarabine given with concurrent irradiation. Materials and methods Thirteen patients with stage IIIB NSCLC received thoracic irradiation of 60 Gy. Fludarabine was administered during the 5th and 6th week of radiotherapy. Doses started at 10 mg/m2 per day and increased by s…

Oncologymedicine.medical_specialtyCancer ResearchRadiation-Sensitizing AgentsLung Neoplasmsmedicine.medical_treatmentAntineoplastic AgentsNSCLCMedicine & Public Health; Hematology; Oncology; Internal Medicine; Cancer Research03 medical and health sciencesFludarabine0302 clinical medicineInternal medicineCarcinoma Non-Small-Cell LungCarcinomaMedicineCombined Modality TherapyHumansConcurrent fludarabine and radiotherapy030304 developmental biologyNeoplasm Staging0303 health sciencesOriginal PaperHematologyNucleoside analoguebusiness.industryRadiotherapy DosageGeneral MedicineAdenine nucleosideRadiochemotherapy in stage III NSCLC locally advanced inoperable NSCLCNucleoside analoguemedicine.diseaseCombined Modality Therapy3. Good healthFludarabinerespiratory tract diseasesClinical trialRadiation therapyOncology030220 oncology & carcinogenesisRadiotherapy phase I studybusinessFludarabine; NSCLC; Nucleoside analogue; Concurrent fludarabine and radiotherapy; Radiotherapy phase I study; Radiochemotherapy in stage III NSCLC locally advanced inoperable NSCLCVidarabinemedicine.drug
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Intensity modulated radiation therapy with simultaneous integrated boost in early breast cancer irradiation. Report of feasibility and preliminary to…

2015

To investigate the feasibility and tolerance in the use of adjuvant intensity modulated radiation therapy (IMRT) and simultaneous integrated boost in patients with a diagnosis of breast cancer after breast-conserving surgery.Between September 2011 to February 2013, 112 women with a diagnosis of early breast cancer (T1-2, N0-1, M0) were treated with IMRT and simultaneous integrated boost after breast-conserving surgery in our institution. A dose of 50Gy in 25 fractions was prescribed to the whole breast and an additional dose of radiation was prescribed on the tumour bed. A dose prescription of 60Gy in 25 fractions to the tumour bed was used in patients with negative margins after surgery, w…

Oncologymedicine.medical_treatmentSegmentalMastectomy SegmentalSeverity of Illness IndexBreast cancerNuclear Medicine and ImagingDuctalIntensity-Modulated80 and overBreastMastectomyAdjuvantEarly breast cancerAged 80 and overCarcinoma Ductal BreastSIBRadiotherapy DosageMiddle AgedOncologyBreast cancer; IMRT; SIB; Toxicity; Adult; Aged; Aged 80 and over; Breast Neoplasms; Carcinoma Ductal Breast; Carcinoma Lobular; Esthetics; Feasibility Studies; Female; Follow-Up Studies; Humans; Mastectomy Segmental; Middle Aged; Radiodermatitis; Radiotherapy Dosage; Radiotherapy Adjuvant; Severity of Illness Index; Radiotherapy Intensity-Modulated; Oncology; Radiology Nuclear Medicine and ImagingToxicityFemaleRadiologyRadiodermatitisRadiologyAdjuvantSimultaneous integrated boostAdultmedicine.medical_specialtyEstheticsBreast NeoplasmsLobularBreast cancerInternal medicineSeverity of illnessmedicineHumansRadiology Nuclear Medicine and imagingIMRTAgedToxicityRadiotherapybusiness.industryCarcinomaIntensity-modulated radiation therapymedicine.diseaseAcute toxicityBreast cancer; IMRT; SIB; Toxicity; Oncology; Radiology Nuclear Medicine and ImagingCarcinoma LobularFeasibility StudiesRadiotherapy AdjuvantRadiotherapy Intensity-ModulatedbusinessFollow-Up Studies
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Phantom size in brachytherapy source dosimetric studies

2004

An important point to consider in a brachytherapy dosimetry study is the phantom size involved in calculations or experimental measurements. As pointed out by Williamson [Med. Phys. 18, 776-786 (1991)] this topic has a relevant influence on final dosimetric results. Presently, one-dimensional (1-D) algorithms and newly-developed 3-D correction algorithms are based on physics data that are obtained under full scatter conditions, i.e., assumed infinite phantom size. One can then assume that reference dose distributions in source dosimetry for photon brachytherapy should use an unbounded phantom size rather than phantom-like dimensions. Our aim in this paper is to study the effect of phantom s…

Photonmedicine.medical_treatmentBrachytherapyMonte Carlo methodBrachytherapyModels BiologicalSensitivity and SpecificityImaging phantomRelative biological effectivenessmedicineHumansScattering RadiationDosimetryComputer SimulationPoint (geometry)RadiometryRadioisotopesPhysicsPhantoms Imagingbusiness.industryRadiotherapy Planning Computer-AssistedReproducibility of ResultsRadiotherapy DosageGeneral MedicineRadiusComputational physicsOrgan SpecificityBody BurdenRadiopharmaceuticalsNuclear medicinebusinessMonte Carlo MethodAlgorithmsRelative Biological EffectivenessMedical Physics
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Collision-kerma conversion between dose-to-tissue and dose-to-water by photon energy-fluence corrections in low-energy brachytherapy

2016

The AAPM TG-43 brachytherapy dosimetry formalism, introduced in 1995, has become a standard for brachytherapy dosimetry worldwide; it implicitly assumes that charged-particle equilibrium (CPE) exists for the determination of absorbed dose to water at different locations, except in the vicinity of the source capsule. Subsequent dosimetry developments, based on Monte Carlo calculations or analytical solutions of transport equations, do not rely on the CPE assumption and determine directly the dose to different tissues. At the time of relating dose to tissue and dose to water, or vice versa, it is usually assumed that the photon fluence in water and in tissues are practically identical, so tha…

Photonmedicine.medical_treatmentBrachytherapyMonte Carlo methodBrachytherapyPhoton energyRadiation DosageFluence030218 nuclear medicine & medical imaging03 medical and health sciencesKerma0302 clinical medicinemedicineHumansDosimetryRadiology Nuclear Medicine and imagingRadiometryPhysicsPhotonsRadiological and Ultrasound Technologybusiness.industryWaterRadiotherapy DosageComputational physics030220 oncology & carcinogenesisAbsorbed doseNuclear medicinebusinessMonte Carlo MethodPhysics in Medicine and Biology
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Monte Carlo calculation of dose rate distributions around 192Ir wires.

1997

Monte Carlo calculations of absolute dose rate in liquid water are presented in the form of away-along tables for 1 and 5 cm 192 Ir wires of 0.3 mm diameter. Simulated absolute dose rate values can be used as benchmark data to verify the calculation results of treatment planning systems or directly as input data for treatment planning. Best fit value of attenuation coefficient suitable for use in Sievert-integrals-type calculations has been derived based on Monte Carlo calculation results. For the treatment planning systems that are based on TG43 formalism we have also calculated the required dosimetry parameters.

PhysicsLiquid waterRadiotherapy Planning Computer-AssistedMonte Carlo methodBrachytherapyBiophysicsRadiotherapy DosageGeneral MedicineReference StandardsIridium RadioisotopesBiophysical PhenomenaComputational physicsEvaluation Studies as TopicAttenuation coefficientNeoplasmsDynamic Monte Carlo methodDosimetryHumansComputer SimulationStatistical physicsBenchmark dataDose rateMonte Carlo MethodMedical physics
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Monte Carlo dosimetry of the Buchler high dose rate 192Ir source.

2001

In this study a complete set of dosimetric data is presented for the high dose rate (HDR) source from Amersham used in the Buchler remote afterloading HDR unit. These data have been calculated by means of the Monte Carlo simulation code GEANT taking into account the detailed geometry of the source. Absolute dose rate distributions in water were calculated around this source and are presented as conventional 2D Cartesian look-up tables. All dosimetric quantities recommended by the AAPM Task Group 43 report have been calculated. Quantities determined are: dose rate constant, radial dose function, anisotropy function, anisotropy factor and anisotropy constant. The dose rate distributions of th…

PhysicsRadiological and Ultrasound Technologymedicine.medical_treatmentPhysics::Medical PhysicsMonte Carlo methodBrachytherapyBrachytherapyRadiotherapy DosageFunction (mathematics)Equipment DesignIridium Radioisotopeslaw.inventionComputational physicslawmedicineDosimetryAnisotropyRadiology Nuclear Medicine and imagingCartesian coordinate systemAnisotropyConstant (mathematics)Dose rateMonte Carlo MethodSimulationPhysics in medicine and biology
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SU-F-T-248: FMEA Risk Analysis Implementation (AAPM TG-100) in Total Skin Electron Irradiation Technique

2016

Purpose: Total Skin Electron Irradiation (TSEI) is a radiotherapy treatment which involves irradiating the entire body surface as homogeneously as possible. It is composed of an extensive multi-step technique in which quality management requires high consumption of resources and a fluid communication between the involved staff, necessary to improve the safety of treatment. The TG-100 proposes a new perspective of quality management in radiotherapy, presenting a systematic method of risk analysis throughout the global flow of the stages through the patient. The purpose of this work has been to apply TG-100 approach to the TSEI procedure in our institution. Methods: A multidisciplinary team s…

Quality managementRisk analysis (engineering)Frequency of occurrencebusiness.industryRisk analysis (business)MedicineRadiotherapy treatmentGeneral MedicineGlobal flowProcess mapRisk assessmentbusinessMultidisciplinary teamMedical Physics
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THERP and HEART integrated methodology for human error assessment

2015

Abstract THERP and HEART integrated methodology is proposed to investigate accident scenarios that involve operator errors during high-dose-rate (HDR) treatments. The new approach has been modified on the basis of fuzzy set concept with the aim of prioritizing an exhaustive list of erroneous tasks that can lead to patient radiological overexposures. The results allow for the identification of human errors that are necessary to achieve a better understanding of health hazards in the radiotherapy treatment process, so that it can be properly monitored and appropriately managed.

RadiationComputer scienceProcess (engineering)Medical cyclotronHuman errorFuzzy setTechnique for Human Error Rate PredictionFuzzy logicReliability engineeringIdentification (information)PETRadiotherapy treatmentRadiopharmaceuticalsRadioactive air effluentSettore ING-IND/19 - Impianti Nucleari
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Monte Carlo dosimetric study of the medium dose rate CSM40 source

2013

Abstract The 137Cs medium dose rate (MDR) CSM40 source model (Eckert & Ziegler BEBIG, Germany) is in clinical use but no dosimetric dataset has been published. This study aims to obtain dosimetric data for the CSM40 source for its use in clinical practice as required by the American Association of Physicists in Medicine (AAPM) and the European Society for Radiotherapy and Oncology (ESTRO). Penelope2008 and Geant4 Monte Carlo codes were used to characterize this source dosimetrically. It was located in an unbounded water phantom with composition and mass density as recommended by AAPM and ESTRO. Due to the low photon energies of 137Cs, absorbed dose was approximated by collisional kerma. Add…

RadiationPhotonPhantoms Imagingbusiness.industryChemistryRadiotherapy Planning Computer-Assistedmedicine.medical_treatmentMonte Carlo methodBrachytherapyWaterRadiotherapy DosageImaging phantomComputational physicsKermaCesium RadioisotopesAbsorbed dosemedicineAnisotropyHumansRadiometryNuclear medicinebusinessRadiation treatment planningMonte Carlo MethodUncertainty analysisApplied Radiation and Isotopes
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Dosimetric feasibility study for an extracorporeal BNCT application on liver metastases at the TRIGA Mainz

2010

This study investigates the dosimetric feasibility of Boron Neutron Capture Therapy (BNCT) of explanted livers in the thermal column of the research reactor in Mainz. The Monte Carlo code MCNP5 is used to calculate the biologically weighted dose for different ratios of the (10)B-concentration in tumour to normal liver tissue. The simulation results show that dosimetric goals are only partially met. To guarantee effective BNCT treatment the organ has to be better shielded from all gamma radiation.

Radiationbusiness.industryLiver NeoplasmsBoron Neutron Capture TherapyRadiotherapy DosageModels BiologicalExtracorporealTRIGANeutron captureMonte carlo codeLiver tissueHumansMedicineComputer SimulationRadiometryNuclear medicinebusinessApplied Radiation and Isotopes
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