Ui‐Jung Hwang scite author profile

Ui‐Jung Hwang

5Publications

90Citation Statements Received

89Citation Statements Given

How they've been cited

101

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Affiliations

Chungnam National University Hospital, National Medical Center, National Cancer Center

Publications

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Dose response of commercially available optically stimulated luminescent detector, AL2O3:C for megavoltage photons and electrons

Kim

Chung

Shin

et al. 2011

Radiation Protection Dosimetry

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This study examined the dose response of an optically stimulated luminescence dosemeter (OSLD) to megavoltage photon and electron beams. A nanoDot™ dosemeter was used to measure the dose response of the OSLD. Photons of 6-15 MV and electrons of 9-20 MeV were delivered by a Varian 21iX machine (Varian Medical System, Inc. Milpitas, CA, USA). The energy dependency was <1 %. For the 6-MV photons, the dose was linear until 200 cGy. The superficial dose measurements revealed photon irradiation to have an angular dependency. The nanoDot™ dosemeter has potential use as an in vivo dosimetric tool that is independent of the energy, has dose linearity and a rapid response compared with normal in vivo dosimetric tools, such as thermoluminescence detectors. However, the OSLD must be treated very carefully due to the high angular dependency of the photon beam.

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Clinical application of glass dosimeter for in vivo dose measurements of total body irradiation treatment technique

Rah¹,

Hwang²,

Jeong³

et al. 2011

Radiation Measurements

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Development of a novel proton dosimetry system using an array of fiber-optic Cerenkov radiation sensors

Son

Kim

Shin

et al. 2015

Radiotherapy and Oncology

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Combination effects of tissue heterogeneity and geometric targeting error in stereotactic body radiotherapy for lung cancer using CyberKnife

Kang

Jeong

Choi

et al. 2015

J Applied Clin Med Phys

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We have investigated the combined effect of tissue heterogeneity and its variation associated with geometric error in stereotactic body radiotherapy (SBRT) for lung cancer. The treatment plans for eight lung cancer patients were calculated using effective path length (EPL) correction and Monte Carlo (MC) algorithms, with both having the same beam configuration for each patient. These two kinds of plans for individual patients were then subsequently recalculated with adding systematic and random geometric errors. In the ordinary treatment plans calculated with no geometric offset, the EPL calculations, compared with the MC calculations, largely overestimated the doses to PTV by ∼21%, whereas the overestimation were markedly lower in GTV by ∼12% due to relatively higher density of GTV than of PTV. When recalculating the plans for individual patients with assigning the systematic and random geometric errors, no significant changes in the relative dose distribution, except for overall shift, were observed in the EPL calculations, whereas largely altered in the MC calculations with a consistent increase in dose to GTV. Considering the better accuracy of MC than EPL algorithms, the present results demonstrated the strong coupling of tissue heterogeneity and geometric error, thereby emphasizing the essential need for simultaneous correction for tissue heterogeneity and geometric targeting error in SBRT of lung cancer.PACS numbers: 87.55.D, 87.55.kh, 87.53.Ly, 87.55.‐x

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The Effect of a Contrast Agent on Proton Beam Range in Radiotherapy Planning Using Computed Tomography for Patients With Locoregionally Advanced Lung Cancer

Hwang

Shin

Kim

et al. 2011

International Journal of Radiation Oncology*Biology*Physics

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Ui‐Jung Hwang

Dose response of commercially available optically stimulated luminescent detector, AL2O3:C for megavoltage photons and electrons

Clinical application of glass dosimeter for in vivo dose measurements of total body irradiation treatment technique

Development of a novel proton dosimetry system using an array of fiber-optic Cerenkov radiation sensors

Combination effects of tissue heterogeneity and geometric targeting error in stereotactic body radiotherapy for lung cancer using CyberKnife

The Effect of a Contrast Agent on Proton Beam Range in Radiotherapy Planning Using Computed Tomography for Patients With Locoregionally Advanced Lung Cancer

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