Dosimetric optimization of a truncated conical-shaped transmission target for electronic brachytherapy X-ray source: A Monte Carlo study
The purpose of this study is to determine the optimal target configurations to improve the uniformity of dose distribution for the electronic brachytherapy source. A truncated conical-shaped transmission type was designed. Monte Carlo simulation technique was used to investigate the target thickness...
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| Published in | Journal of the Korean Physical Society Vol. 71; no. 3; pp. 178 - 184 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Seoul
The Korean Physical Society
01.08.2017
Springer Nature B.V 한국물리학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0374-4884 1976-8524 |
| DOI | 10.3938/jkps.71.178 |
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| Abstract | The purpose of this study is to determine the optimal target configurations to improve the uniformity of dose distribution for the electronic brachytherapy source. A truncated conical-shaped transmission type was designed. Monte Carlo simulation technique was used to investigate the target thickness, geometry of electron beam, and target angle of a truncated conical-shaped target for the electronic brachytherapy X-ray source. Dosimetric parameters recommended by TG-43U1 protocol were used to determine the optimal target design of electronic brachytherapy source. The target thicknesses for maximizing the transmitted X-ray intensity were approximately 1.2 to 1.5
μ
m for 0° and 90°. In a range of optimal thickness, transmitted X-ray intensity at 90° was approximately 92% of maximum photon intensity. The effects of electron beam shapes on 2D anisotropy functions were investigated at radial distances of 0.5, 1.0, 2.0, 3.0, and 5.0 cm. Minimum variations for all radiation distances and angular ranges were observed for uniform cylindrical electron beam with a radius of 2.0 mm. Anisotropy functions at 0°,
F
(
r
, 0° ), were close to unity and slightly more than unity for non-uniform cylindrical (
R
= 1.0 - 2.0 mm) electron beam and uniform cylindrical electron beam with a radius of 2.0 mm. The angles of target anode between 45° and 50° show minimum fluctuations in the anisotropy functions and are close to unity for
F
(
r
, 0° ). The optimal target configurations are a truncated conical-shaped target having an angle between 45° and 50°. It is concluded that tungsten target having the thickness of 1.2 to 1.5
μ
m and uniform circular with a radius of 2.0 mm as electron beam produces optimal dosimetric characteristics for electronic brachytherapy X-ray source. |
|---|---|
| AbstractList | The purpose of this study is to determine the optimal target configurations to improve the uniformity of dose distribution for the electronic brachytherapy source. A truncated conical-shaped transmission type was designed. Monte Carlo simulation technique was used to investigate the target thickness, geometry of electron beam, and target angle of a truncated conical-shaped target for the electronic brachytherapy X-ray source. Dosimetric parameters recommended by TG-43U1 protocol were used to determine the optimal target design of electronic brachytherapy source. The target thicknesses for maximizing the transmitted X-ray intensity were approximately 1.2 to 1.5 μm for 0 and 90. In a range of optimal thickness, transmitted X-ray intensity at 90 was approximately 92% of maximum photon intensity. The effects of electron beam shapes on 2D anisotropy functions were investigated at radial distances of 0.5, 1.0, 2.0, 3.0, and 5.0 cm. Minimum variations for all radiation distances and angular ranges were observed for uniform cylindrical electron beam with a radius of 2.0 mm. Anisotropy functions at 0, F(r, 0), were close to unity and slightly more than unity for non-uniform cylindrical (R = 1.0 - 2.0 mm) electron beam and uniform cylindrical electron beam with a radius of 2.0 mm. The angles of target anode between 45 and 50 show minimum fluctuations in the anisotropy functions and are close to unity for F(r, 0). The optimal target configurations are a truncated conical-shaped target having an angle between 45 and 50.
It is concluded that tungsten target having the thickness of 1.2 to 1.5 μm and uniform circular with a radius of 2.0 mm as electron beam produces optimal dosimetric characteristics for electronic brachytherapy X-ray source. KCI Citation Count: 0 The purpose of this study is to determine the optimal target configurations to improve the uniformity of dose distribution for the electronic brachytherapy source. A truncated conical-shaped transmission type was designed. Monte Carlo simulation technique was used to investigate the target thickness, geometry of electron beam, and target angle of a truncated conical-shaped target for the electronic brachytherapy X-ray source. Dosimetric parameters recommended by TG-43U1 protocol were used to determine the optimal target design of electronic brachytherapy source. The target thicknesses for maximizing the transmitted X-ray intensity were approximately 1.2 to 1.5 μm for 0° and 90°. In a range of optimal thickness, transmitted X-ray intensity at 90° was approximately 92% of maximum photon intensity. The effects of electron beam shapes on 2D anisotropy functions were investigated at radial distances of 0.5, 1.0, 2.0, 3.0, and 5.0 cm. Minimum variations for all radiation distances and angular ranges were observed for uniform cylindrical electron beam with a radius of 2.0 mm. Anisotropy functions at 0°, F(r, 0° ), were close to unity and slightly more than unity for non-uniform cylindrical (R = 1.0 - 2.0 mm) electron beam and uniform cylindrical electron beam with a radius of 2.0 mm. The angles of target anode between 45° and 50° show minimum fluctuations in the anisotropy functions and are close to unity for F(r, 0° ). The optimal target configurations are a truncated conical-shaped target having an angle between 45° and 50°. It is concluded that tungsten target having the thickness of 1.2 to 1.5 μm and uniform circular with a radius of 2.0 mm as electron beam produces optimal dosimetric characteristics for electronic brachytherapy X-ray source. The purpose of this study is to determine the optimal target configurations to improve the uniformity of dose distribution for the electronic brachytherapy source. A truncated conical-shaped transmission type was designed. Monte Carlo simulation technique was used to investigate the target thickness, geometry of electron beam, and target angle of a truncated conical-shaped target for the electronic brachytherapy X-ray source. Dosimetric parameters recommended by TG-43U1 protocol were used to determine the optimal target design of electronic brachytherapy source. The target thicknesses for maximizing the transmitted X-ray intensity were approximately 1.2 to 1.5 μ m for 0° and 90°. In a range of optimal thickness, transmitted X-ray intensity at 90° was approximately 92% of maximum photon intensity. The effects of electron beam shapes on 2D anisotropy functions were investigated at radial distances of 0.5, 1.0, 2.0, 3.0, and 5.0 cm. Minimum variations for all radiation distances and angular ranges were observed for uniform cylindrical electron beam with a radius of 2.0 mm. Anisotropy functions at 0°, F ( r , 0° ), were close to unity and slightly more than unity for non-uniform cylindrical ( R = 1.0 - 2.0 mm) electron beam and uniform cylindrical electron beam with a radius of 2.0 mm. The angles of target anode between 45° and 50° show minimum fluctuations in the anisotropy functions and are close to unity for F ( r , 0° ). The optimal target configurations are a truncated conical-shaped target having an angle between 45° and 50°. It is concluded that tungsten target having the thickness of 1.2 to 1.5 μ m and uniform circular with a radius of 2.0 mm as electron beam produces optimal dosimetric characteristics for electronic brachytherapy X-ray source. |
| Author | Cho, Byungchul Cho, Sung Oh Choi, Wonsik Park, Sung Ho Ahn, Woo Sang Kwak, Jungwon Kim, Hyun Jin Ahn, Seung Do Shin, Seong Soo |
| Author_xml | – sequence: 1 givenname: Woo Sang surname: Ahn fullname: Ahn, Woo Sang organization: Department of Radiation Oncology, Gangneung Asan Hospital, University of Ulsan College of Medicine – sequence: 2 givenname: Wonsik surname: Choi fullname: Choi, Wonsik email: 16choi@hanmail.net organization: Department of Radiation Oncology, Gangneung Asan Hospital, University of Ulsan College of Medicine – sequence: 3 givenname: Byungchul surname: Cho fullname: Cho, Byungchul organization: Department of Radiation Oncology, Asan Medical Center, University of Ulsan College of Medicine – sequence: 4 givenname: Jungwon surname: Kwak fullname: Kwak, Jungwon organization: Department of Radiation Oncology, Asan Medical Center, University of Ulsan College of Medicine – sequence: 5 givenname: Seung Do surname: Ahn fullname: Ahn, Seung Do organization: Department of Radiation Oncology, Asan Medical Center, University of Ulsan College of Medicine – sequence: 6 givenname: Hyun Jin surname: Kim fullname: Kim, Hyun Jin organization: Department of Radiation Oncology, Asan Medical Center, University of Ulsan College of Medicine – sequence: 7 givenname: Sung Oh surname: Cho fullname: Cho, Sung Oh organization: Department of Nuclear and Quantum Engineering, Korea Advanced Institute of Science and Technology (KAIST) – sequence: 8 givenname: Sung Ho surname: Park fullname: Park, Sung Ho organization: Department of Neurosurgery, Ulsan University Hospital – sequence: 9 givenname: Seong Soo surname: Shin fullname: Shin, Seong Soo organization: Department of Radiation Oncology, Gangneung Asan Hospital, University of Ulsan College of Medicine |
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| SubjectTerms | Angles (geometry) Anisotropy Circularity Computer simulation Mathematical and Computational Physics Monte Carlo simulation Optimization Particle and Nuclear Physics Physics Physics and Astronomy Radiation therapy Studies Target thickness Theoretical Tungsten Unity X-rays 물리학 |
| Title | Dosimetric optimization of a truncated conical-shaped transmission target for electronic brachytherapy X-ray source: A Monte Carlo study |
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