Search results for "DOSIMETRY"

showing 10 items of 297 documents

Characterization of PTW-31015 PinPoint ionization chambers in photon and proton beams

2018

The increased use of complex forms of radiotherapy using small-field photon and proton beams has invoked a growing interest in the use of micro-ionization chambers. In this study, 48 PTW-TM31015 PinPoint-type micro-ionization chambers that are used in the commissioning and patient specific QA of a proton pencil beam scanning (PBS) delivery system have been characterized in proton and high-energy photon beams. In both beam modalities, the entire set of PinPoint chambers was characterized by imaging them, by evaluating their stability using check source measurements, by experimentally determining the ion recombination, polarity effect and by cross calibrating them in terms of absorbed dose to…

PhotonProton030218 nuclear medicine & medical imaging03 medical and health sciences0302 clinical medicineOpticscross-calibrationIonizationProton TherapyCalibrationHumansDosimetryRadiology Nuclear Medicine and imagingCobalt RadioisotopesRadiometryPencil-beam scanningpolarity effectPinPoint ionization chamberPhysicsPhotonsion recombinationRadiological and Ultrasound Technologybusiness.industryphoton030220 oncology & carcinogenesisCalibrationPhysics::Accelerator PhysicsProtonLaser beam qualityProtonsbusinessRelative Biological EffectivenessBeam (structure)Physics in Medicine & Biology
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The FiR 1 photon beam model adjustment according to in-air spectrum measurements with the Mg(Ar) ionization chamber.

2014

Abstract The mixed neutron–photon beam of FiR 1 reactor is used for boron–neutron capture therapy (BNCT) in Finland. A beam model has been defined for patient treatment planning and dosimetric calculations. The neutron beam model has been validated with an activation foil measurements. The photon beam model has not been thoroughly validated against measurements, due to the fact that the beam photon dose rate is low, at most only 2% of the total weighted patient dose at FiR 1. However, improvement of the photon dose detection accuracy is worthwhile, since the beam photon dose is of concern in the beam dosimetry. In this study, we have performed ionization chamber measurements with multiple b…

PhotonQuantitative Biology::Tissues and OrgansPhysics::Medical PhysicsMonte Carlo methodAnalytical chemistryBoron Neutron Capture TherapySensitivity and SpecificityOpticsNuclear ReactorsDosimetryPenelopeIonization ChamberDosimetryComputer SimulationPhoton beamRadiometryMonte CarloPhysicsPhotonsRadiationModels Statisticalbusiness.industryAirRadiotherapy Planning Computer-AssistedReproducibility of ResultsEquipment DesignNeutron radiationEquipment Failure AnalysisIonization chamberBNCTPhysics::Accelerator PhysicsComputer-Aided DesignDose ratebusinessMCNP5Beam (structure)Applied radiation and isotopes : including data, instrumentation and methods for use in agriculture, industry and medicine
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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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Erratum: “Fitted dosimetric parameters of high dose-rate 192Ir sources according to the AAPM TG43 formalism” [Med. Phys. 28 (4), 654-660 (2001)]

2001

PhysicsFormalism (philosophy of mathematics)Quantum electrodynamicsDosimetryGeneral MedicineStatistical physicsDose rateMedical Physics
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SU-E-T-467: Monte Carlo Dosimetric Study of the New Flexisource Co-60 High Dose Rate Source.

2017

Recently, a new HDR 60Co brachytherapy source, Flexisource Co-60, has been developed (Nucletron B.V.). This study aims to obtain quality dosimetric data for this source for its use in clinical practice as required by AAPM and ESTRO.Penelope2008 and GEANT4 Monte Carlo codes were used to dosimetrically characterize this source. Water composition and mass density was that recommended by AAPM. Due to the high energy of the 60Co, dose for small distances cannot be approximated by collisional kerma. Therefore, we have considered absorbed dose to water for r0.75 cm and collisional kerma from 0.75r20 cm. To provide adequate spatial resolution, cells were 0.01 cm in thickness for r2 cm from the sour…

PhysicsHigh energybusiness.industrymedicine.medical_treatmentMonte Carlo methodBrachytherapyGeneral MedicineComputational physicsWater compositionKermaAbsorbed dosemedicineDosimetryDose rateNuclear medicinebusinessMedical physics
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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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A Monte Carlo-based dosimetric characterization of Esteya® , an electronic surface brachytherapy unit

2018

PURPOSE The purpose of this work is threefold: First, to obtain the phase space of an electronic brachytherapy (eBT) system designed for surface skin treatments. Second, to explore the use of some efficiency enhancing (EFEN) strategies in the determination of the phase space. Third, to use the phase space previously obtained to perform a dosimetric characterization of the Esteya eBT system. METHODS The Monte Carlo study of the 69.5 kVp x-ray beam of the Esteya® unit (Elekta Brachytherapy, Veenendaal, The Netherlands) was performed with PENELOPE2014. The EFEN strategies included the use of variance reduction techniques and mixed Class II simulations, where transport parameters were fine-tune…

PhysicsMonte Carlo methodDose profileGeneral MedicinePhoton energy030218 nuclear medicine & medical imagingPercentage depth dose curveComputational physics03 medical and health sciences0302 clinical medicine030220 oncology & carcinogenesisAbsorbed doseDosimetryVariance reductionEnergy sourceMedical Physics
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Erratum: “Technical note: Monte-Carlo dosimetry of the HDR 12i and Plus 192Ir sources” [Med. Phys. 28 , 2586-2591 (2001)]

2004

PhysicsMonte Carlo methodDosimetryTechnical noteGeneral MedicineStatistical physicsMedical Physics
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SU-GG-T-227: Dynamic IMRT Split Beam Technique Verification Using EPID Based Dosimetry

2010

Purpose: On dynamic IMRT plans with Millenium 80 (Varian) fields wider of 15 cm must be splitted. Since the EPIDdosimetry software does not allow to sum splitted subfluences in the same dosimetric portal image they have to be measured separately and compared independently with the subfluences previously calculated by the TPS Eclipse. The purpose of our work is the development of a tool to: 1) analyze the correct match between the two abutted ports for splitted fields. 2) study the effect of gravity and analyze repercussions of possible misalignments and 3) illustrate that the gamma evaluation should be made with the global summed fluence per field instead of with the individual subfluences.…

PhysicsNormalization (statistics)business.industryGeneral MedicineOpticsSoftwareMedical imagingDosimetrybusinessNuclear medicineMATLABcomputerBeam (structure)Image-guided radiation therapyEclipsecomputer.programming_languageMedical Physics
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