J. H. Lee scite author profile

A standard protocol of dosimetric measurements is used by the organizations responsible for verifying that the doses delivered in radiation-therapy institutions are within authorized limits. This study evaluated a self-designed simple auditing phantom for use in verifying the dose of radiation therapy; the phantom design, dose audit system, and clinical tests are described. Thermoluminescent dosimeters (TLDs) were used as postal dosimeters, and mailable phantoms were produced for use in postal audits. Correction factors are important for converting TLD readout values from phantoms into the absorbed dose in water. The phantom scatter correction factor was used to quantify the difference in the scattered dose between a solid water phantom and homemade phantoms; its value ranged from 1.084 to 1.031. The energy-dependence correction factor was used to compare the TLD readout of the unit dose irradiated by audit beam energies with 60Co in the solid water phantom; its value was 0.99 to 1.01. The setup-condition factor was used to correct for differences in dose-output calibration conditions. Clinical tests of the device calibrating the dose output revealed that the dose deviation was within 3%. Therefore, our homemade phantoms and dosimetric system can be applied for accurately verifying the doses applied in radiation-therapy institutions.

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Evaluation of Wall Correction Factor of INER's Air-Kerma Primary Standard Chamber and Dose Variation by Source Displacement for HDR¹⁹²Ir Brachytherapy

Lee

Wang

Huang

et al. 2013

BioMed Research International

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The aim of the present study was to estimate the wall effect of the self-made spherical graphite-walled cavity chamber with the Monte Carlo method for establishing the air-kerma primary standard of high-dose-rate (HDR) 192Ir brachytherapy sources at the Institute of Nuclear Energy Research (INER, Taiwan). The Monte Carlo method established in this paper was also employed to respectively simulate wall correction factors of the 192Ir air-kerma standard chambers used at the National Institute of Standards and Technology (NIST, USA) and the National Physical Laboratory (NPL, UK) for comparisons and verification. The chamber wall correction calculation results will be incorporated into INER's HDR 192Ir primary standard in the future. For the brachytherapy treatment in the esophagus or in the bronchi, the position of the isotope may have displacement in the cavity. Thus the delivered dose would differ from the prescribed dose in the treatment plan. We also tried assessing dose distribution due to the position displacement of HDR 192Ir brachytherapy source in a phantom with a central cavity by the Monte Carlo method. The calculated results could offer a clinical reference for the brachytherapy within the human organs with cavity.

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Rapid determination of90Sr by Compton suppression gamma-ray spectrometry

Wang

Yuan

Lee

1997

J Radioanal Nucl Chem

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Beam profile monitoring system for proton therapy and Monte Carlo modeling of proton beam lateral development in water in 100–400MeV

Lin¹,

Cai

Chang³

et al. 2012

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Parallel plate ionization chambers with segmented strips or pixels are developed for proton beam monitoring and dose measurement. 256 channels of readout electronics together with high voltage power supplier, FPGA and USB are built on a single PCB and readout by LABVIEW based DAQ system. With replaceable resistors, sensitivity of each channel varies from 1 ADC / 1 nA to 1 ADC / 5 pA to handle large dynamical range in proton therapy. Chambers are tested with 100,200 and 394 MeV proton beams with narrow beam widths. Beam profiles obtained by strip and by pad chambers are compared. Depth dose distributions of protons in water are obtained with 100 and 200MeV proton beams. Results from the GEANT4 simulation reproduce measurement reasonably.

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J. H. Lee

Comparison of national air kerma standards for ISO 4037 narrow spectrum series in the range 30 kV to 300 kV

A Novel Simple Phantom for Verifying the Dose of Radiation Therapy

Evaluation of Wall Correction Factor of INER's Air-Kerma Primary Standard Chamber and Dose Variation by Source Displacement for HDR¹⁹²Ir Brachytherapy

Rapid determination of90Sr by Compton suppression gamma-ray spectrometry

Beam profile monitoring system for proton therapy and Monte Carlo modeling of proton beam lateral development in water in 100–400MeV

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J. H. Lee

Comparison of national air kerma standards for ISO 4037 narrow spectrum series in the range 30 kV to 300 kV

A Novel Simple Phantom for Verifying the Dose of Radiation Therapy

Evaluation of Wall Correction Factor of INER's Air-Kerma Primary Standard Chamber and Dose Variation by Source Displacement for HDR192Ir Brachytherapy

Rapid determination of90Sr by Compton suppression gamma-ray spectrometry

Beam profile monitoring system for proton therapy and Monte Carlo modeling of proton beam lateral development in water in 100&#x2013;400MeV

Contact Info

Product

Resources

About

Evaluation of Wall Correction Factor of INER's Air-Kerma Primary Standard Chamber and Dose Variation by Source Displacement for HDR¹⁹²Ir Brachytherapy

Beam profile monitoring system for proton therapy and Monte Carlo modeling of proton beam lateral development in water in 100–400MeV