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Dosimetric Impact of Tumor Position and Lung Density Variations in Lung Stereotactic Body Radiotherapy 被引量:1
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作者 Hideharu Miura Norihisa Masai +4 位作者 Ryoong-Jin Oh Hiroya Shiomi Kouichi Yamada Muhammad Nauman Usmani toshihiko inoue 《International Journal of Medical Physics, Clinical Engineering and Radiation Oncology》 2014年第1期43-48,共6页
Purpose of this study was to evaluate the variation of the dose to gross tumor volume (GTV) related to tumor position and lung density for lung stereotactic body radiotherapy (SBRT) using a virtual phantom. The densit... Purpose of this study was to evaluate the variation of the dose to gross tumor volume (GTV) related to tumor position and lung density for lung stereotactic body radiotherapy (SBRT) using a virtual phantom. The density of the equivalent lung surrounding the GTV (10 mm diameter) was defined as 0.10, 0.15, 0.25, 0.35, and 0.45 g/cm3. A planning target volume (PTV) was generated by adding a uniform 8 mm margin to the internal target volume (ITV). We defined that the 99% of the GTV should be covered by 100% of the prescribed dose using Monte Carlo (MC) calculation. The GTV structure was replicated from ITV to the PTV periphery at 1 mm intervals. Planned dose to the GTV was defined as the predicted dose in the replicated GTV structure. Simulated dose to the GTV was defined as the calculated dose in the replicated GTV structure taking into account the tumor position error. D99 of the planned dose to the GTV at the 8 mm shift position was 78.1%, 81.6%, 87.3%, 91.4% and 94.4% at equivalent lung densities of 0.10, 0.15, 0.25, 0.35, and 0.45 g/cm3, respectively. D99 of the simulated dose to the GTV at the 8 mm shift position was 96.9%, 95.3%, 94.2%, 95.1 % and 96.3% at equivalent lung densities of 0.10, 0.15, 0.25, 0.35, and 0.45 g/cm3, respectively. Planned dose to GTV is strongly dependent on lung density and tumor position errors, while simulated dose to GTV does not show any significant dependence. 展开更多
关键词 LUNG Cancer STEREOTACTIC Body RADIOTHERAPY TUMOR POSITION Error LUNG Density MONTE Carlo
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Comparison of Absorbed Dose to Medium and Absorbed Dose to Water for Spine IMRT Plans Using a Commercial Monte Carlo Treatment Planning System 被引量:1
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作者 Muhammad Nauman Usmani Norihisa Masai +5 位作者 Ryoong-Jin Oh Hiroya Shiomi Daisaku Tatsumi Hideharu Miura toshihiko inoue Masahiko Koizumi 《International Journal of Medical Physics, Clinical Engineering and Radiation Oncology》 2014年第1期60-66,共7页
Dose in radiation therapy has been reported as the water-equivalent dose using conventional dose calculation algorithms. The Monte Carlo (MC) algorithm employs characterization of human tissues by elemental compositio... Dose in radiation therapy has been reported as the water-equivalent dose using conventional dose calculation algorithms. The Monte Carlo (MC) algorithm employs characterization of human tissues by elemental composition and mass density. It enables more accurate dose calculation for radiation therapy treatment planning and typically reports absorbed dose to medium. Whether one should use dose to medium or tissue (Dm) in place of dose to water (Dw) for MC treatment planning remains the subject of debate. The aim of the current study is to evaluate the differences between dose-volume indices for Dm and Dw MC-calculated IMRT plans. Thirty-seven spine patients were selected for this study. The IMRT optimization and MC calculations were performed using the iPlan RT DoseTM ver 4.1.2 (Brainlab, Munich, Germany) treatment planning system (TPS) with an X-ray Voxel Monte Carlo (XVMC) dose calculation engine. Dw and Dm results for target and critical structures were evaluated using the dose-volume-based indices. Systematic differences between dose-volume indices computed with Dw and Dm were up to 5.2%, 4.2%, and 4.5% for D2, D50 and D98 indices of the clinical target volume (CTV), respectively and up to 1% for the critical structure dose indices. Our study demonstrates that employing Dm in place of Dw in MC-calculated IMRT treatment plans introduces a significant systematic difference in target DVHs. We recommend that for diffused target structures (such as spine tumors), dose to water is a better quantity for dose prescription in photon beam treatment planning using existing MC TPS. While for critical structures, it would be reasonable to report Dm always. However in future with the availability of finer spatial resolution, Dm will be the most suitable variable for both target and critical structures’ dose prescription and reporting in MC treatment planning. 展开更多
关键词 DOSE to MEDIUM DOSE to WATER Monte Carlo IMRT
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Measurement of niobium reaction rate for material surveillance tests in fast reactors
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作者 Chikara Ito Shigetaka Maeda +2 位作者 toshihiko inoue Hideki Tomita Tetsuo Iguchi 《辐射防护》 CAS CSCD 北大核心 2020年第6期491-495,共5页
A highly accurate and precise technique for measurement of the 93 Nb(n,n’)93m Nb reaction rate was established for the material surveillance tests,etc.in fast reactors.The self-absorption effect on the measurement of... A highly accurate and precise technique for measurement of the 93 Nb(n,n’)93m Nb reaction rate was established for the material surveillance tests,etc.in fast reactors.The self-absorption effect on the measurement of the characteristic X-rays emitted by 93m Nb was decreased by the dissolution and evaporation to dryness of niobium dosimeter.A highly precise count of the number of 93 Nb atoms was obtained by measuring the niobium solution concentration using inductively coupled plasma mass spectrometry.X-rays of 93m Nb were measured accurately by means of comparing the X-ray intensity of irradiated niobium solution with that of the solution in which stable 93 Nb was added.The difference between both intensities indicates the effect of 182 Ta,which is generated from an impurity tantalum,and the intensity of X-rays from 93m Nb was evaluated.Measurement error of the 93 Nb(n,n’)93m Nb reaction rate was reduced to be less than 4%,which was equivalent to the other reaction rate errors of dosimeters used for Joyo dosimetry.In addition,an advanced technique using Resonance Ionization Mass Spectrometry was proposed for the precise measurement of 93m Nb yield,and 93m Nb will be resonance-ionized selectively by discriminating the hyperfine splitting of the atomic energy levels between 93 Nb and 93m Nb at high resolution. 展开更多
关键词 Isord-10 NIOBIUM reaction rate material surveillance test fast reactor characteristic x-rays experimental fast reactor joyo resonance ionization mass spectrometry hyperfine structure
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Dosimetric Comparison of Different Prescription Modes in Lung Stereotactic Body Radiation Therapy
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作者 Hideharu Miura Norihisa Masai +5 位作者 Ryoong-Jin Oh Hiroya Shiomi Kouichi Yamada Junichi Sasaki Muhammad Nauman Usmani toshihiko inoue 《International Journal of Medical Physics, Clinical Engineering and Radiation Oncology》 2014年第1期14-19,共6页
The purpose of this study was to compare the dose-volume statistics of stereotactic body radiotherapy (SBRT) for lung cancer between planning target volume (PTV): D95 and gross tumor volume (GTV): D99 dose prescriptio... The purpose of this study was to compare the dose-volume statistics of stereotactic body radiotherapy (SBRT) for lung cancer between planning target volume (PTV): D95 and gross tumor volume (GTV): D99 dose prescriptions using Monte Carlo (MC) calculation. Plans for 183 patients treated between October 2010 and April 2013 were generated based on four-dimensional (4D) computed tomography (CT) under free breathing. A uniform margin of 8 mm was added to the internal target volume (ITV) to generate PTV. A leaf margin of 2 mm was added to the PTV. The plans were calculated with two different dose prescription methods: 40 Gy to cover 95% of the PTV (PTV prescription) and 44 Gy to cover 99% of the GTV (GTV prescription). A 6-MV photon beam was used. A dose-volume histogram (DVH) analysis was performed for dose to the GTV using PTV and GTV dose prescriptions. For each treatment plan, we evaluated the minimum dose to 99% of the GTV (D99). The D99 of GTV was 44.5 ± 1.9 Gy and 44.0 ± 0.0 Gy for PTV and GTV prescriptions, respectively. The dose to the GTV had wide variations with PTV prescription. We recommend that GTV based dose prescription should be used to standardize dose to the tumor and to achieve highly conformal dose distributions in SBRT for lung cancer. 展开更多
关键词 DOSE PRESCRIPTION MONTE Carlo Calculation STEREOTACTIC Body Radiation Therapy LUNG Cancer
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Lung Stereotactic Body Radiotherapy Using an Abdominal Compression System, “Air-Bag System”
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作者 Hideharu Miura Ryoong-Jin Oh +3 位作者 Norihisa Masai Hiroya Shiomi Kouichi Yamada toshihiko inoue 《International Journal of Medical Physics, Clinical Engineering and Radiation Oncology》 2014年第2期98-106,共9页
We investigated respiratory tumor motion in lung stereotactic body radiotherapy (SBRT) with use of the “Air-Bag System”. 114 patients underwent four-dimensional (4D) computed tomography (CT) from October 2010 to Apr... We investigated respiratory tumor motion in lung stereotactic body radiotherapy (SBRT) with use of the “Air-Bag System”. 114 patients underwent four-dimensional (4D) computed tomography (CT) from October 2010 to April 2012. Gross tumor volume (GTV) was 8.1 ± 11.0 cc (range 0.3 - 77.5 cc). The tumor site was the upper and middle lobes in 62 cases, and lower lobe in 52 cases. The Air-Bag SystemTM consists of an inelastic air bag connected to a second smaller elastic air bag. The inelastic air bag is placed between the patient’s body surface and a HipFix and is secured by pressure adjustment via the elastic air bag. To assess respiratory tumor motion, the centroid of the tumor position is measured in the left-right, anterior-posterior, and caudal-cranial directions using the iPlan RT DoseTM treatment planning system. Respiratory tumor motion vector for patients with upper/middle and lower lobe tumors was 3.0 ± 2.2 mm (range, 0.4 - 11.7 mm) and 6.5 ± 4.6 mm (range, 0.4 - 22.0 mm) respectively, with this difference being significant (p < 0.05). Mean respiratory tumor motion for all patients was 0.9 ± 0.6 mm (range, 0.1 - 3.6 mm) in the left-right direction, 1.5 ± 1.1 mm (range, 0.1 - 5.7 mm) in the anterior-posterior direction, 4.1 ± 4.0 mm (range, 0.1 - 21.4 mm) in the caudal-cranial direction, and 4.7 ± 4.0 mm (range, 0.4 - 22.0 mm) overall. The Air-Bag System is expected to be provided an effective reduction in the motion of lung tumors. 展开更多
关键词 STEREOTACTIC Body Radiotherapy LUNG Cancer Tumor Motion ABDOMINAL Compression Air-Bag SYSTEM
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Evaluation and Commissioning of Commercial Monte Carlo Dose Algorithm for Air Cavity
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作者 Hideharu Miura Norihisa Masai +5 位作者 Kouichi Yamada Junichi Sasaki Ryoong-Jin Oh Hiroya Shiomi Muhammad Nauman Usmani toshihiko inoue 《International Journal of Medical Physics, Clinical Engineering and Radiation Oncology》 2014年第1期9-13,共5页
The purpose of this study was to compare the Pencil Beam (PB) with Monte Carlo (MC) calculated dosimetric results using phantoms for air cavity region. Measurements in Tough water phantom with air gaps were used to ve... The purpose of this study was to compare the Pencil Beam (PB) with Monte Carlo (MC) calculated dosimetric results using phantoms for air cavity region. Measurements in Tough water phantom with air gaps were used to verify the calculated dose. The plane-parallel ionization chamber was moved from 2 mm to 20 mm behind air gap. Calculations were performed for various air gaps (1.0, 2.0, 3.0 and 4.0 cm) and field sizes (4.2 × 4.2, 6.0 × 6.0 and 9.8 × 9.8 cm2). The lateral missing tissue measurement was performed using the radiochromic RT-QA film. Dose difference between PB and chamber measurement near an air gap was greater for smaller field size, larger air gap thickness, and shallower depth behind air gap. As the distance from the phantom edge became shorter, the dose differences of the PB calculation and film measurement became larger. MC calculations were found within 3% agreement to the measured dose distributions. Our results demonstrate an excellent agreement between ionization chamber and radiochromic RT-QA film measurements and MC calculations. 展开更多
关键词 MONTE Carlo PENCIL Beam Air CAVITY Treatment Planning
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Sustaining the Green Drive
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作者 toshihiko inoue 《China Today》 2015年第9期51-51,共1页
DESERTIFICATION has be- come a threat to the whole planet, jeopardizing econ- omy and society. But for us Japanese, who live on islands and are, therefore, never short of water, desertification is not an issue we are ... DESERTIFICATION has be- come a threat to the whole planet, jeopardizing econ- omy and society. But for us Japanese, who live on islands and are, therefore, never short of water, desertification is not an issue we are familiar with. But still, in recent years, we have encountered sand storms in spring. During the Kubuqi Forum, I witnessed a frank dialogue between researchers from Pakistan, Turkey, Australia, Uzbeki- stan, Tunisia, and Chile and young jour- nalists from Beijing. The former elaborat- ed on their respective countries' specific measures in combating desertifieation in the manner of teachers, which I found il- luminating and impressive. 展开更多
关键词 驱动 社会经济 新闻工作者 巴基斯坦 研究人员 澳大利亚 乌兹别克 荒漠化
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