Investigation of Tg-43 Dosimetric Parameters for 192 Ir Brachytherapy Source Using Gate Monte Carlo Code

Investigation of Tg-43 Dosimetric Parameters for 192 Ir Brachytherapy Source Using Gate Monte Carlo Code Publisher

Joya M^{1, 2} ; Nedaie HA¹ ; Geraily G¹ ; Rezaei H^{1, 3} ; Bromand A⁴ ; Ghorbani M⁵ ; Sheikhzadeh P^{1, 6}

Show Affiliations

1. Department of Medical Physics and Biomedical Engineering, Faculty of Medicine, Tehran, Iran
2. Department of Radiology, Kabul University of Medical Sciences, Kabul, Afghanistan
3. Research Center for Molecular and Cellular Imaging, Tehran University of Medical Sciences, Tehran, Iran
4. Department of Physics, Ghor Institute of Higher Education, Ghor, Afghanistan
5. Department of Biomedical Engineering and Medical Physics, School of Medicine, Shahid Beheshti University of Medical Sciences, Tehran, Iran
6. Department of Nuclear Medicine, Imam Khomeini Hospital Complex, Tehran University of Medical Sciences, Tehran, Iran

Source: Journal of Medical Physics Published:2023

Abstract

Purpose: According to the revised Task Group number 43 recommendations, a brachytherapy source must be validated against a similar or identical source before its clinical application. The purpose of this investigation is to verify the dosimetric data of the high dose rate (HDR) BEBIG 192 Ir source (Ir2.A85-2). Materials and Methods: The HDR 192 Ir encapsulated seed was simulated and its main dosimetric data were calculated using Geant4 Application for Tomographic Emission (GATE) simulation code. Cubic cells were used for the calculation of dose rate constant and radial dose function while for anisotropy function ring cells were used. DoseActors were simulated and attached to the respective cells to obtain the required data. Results: The dose rate constant was obtained as 1.098 ± 0.003 cGy.h - 1.U - 1, differing by 1.0% from the reference value reported by Granero et al. Similarly, the calculated values for radial dose and anisotropy functions presented good agreement with the results obtained by Granero et al. Conclusion: The results of this study suggest that the GATE Monte Carlo code is a valid toolkit for benchmarking brachytherapy sources and can be used for brachytherapy simulation-based studies and verification of brachytherapy treatment planning systems. © 2023 Wolters Kluwer Medknow Publications. All rights reserved.

Related Docs

View other Related Docs

1. Bebig 60Co Hdr Brachytherapy Source Dosimetric Parameters Validation Using Gate Geant4-Based Simulation Code, Heliyon (2022)

2. Practical Nuclear Medicine and Utility of Phantoms for Internal Dosimetry: Xcat Compared With Zubal, Radiation Protection Dosimetry (2017)

3. Image-Based Versus Atlas-Based Patient-Specific S-Value Assessment for Samarium-153 Edtmp Cancer Palliative Care: A Short Study, Iranian Journal of Nuclear Medicine (2018)

4. Assessment of Combined Modality Therapy for Non-Small-Cell Lung Carcinoma: A Simulation Study Concerning Concurrent Chemo-Brachytherapy, Journal of Cancer Research and Therapeutics (2022)

5. Radiation Dose Escalation by Injecting Bismuth, Gold and Platinum Nanoparticles Into a Tumour During High Dose Rate 192Ir Brachytherapy: A Monte Carlo Study, Radiation and Environmental Biophysics (2025)

6. Impact of Magnetic Fields on Calculated Aapm Tg-43 Parameters for 192Ir and 60Co Hdr Brachytherapy Sources: A Monte Carlo Study, Applied Radiation and Isotopes (2020)

7. Dosimetric Comparison Between Microselectron Iridium-192 and Flexi Cobalt-60 Sources in High-Dose-Rate Brachytherapy Using Geant4 Monte Carlo Code, Journal of Contemporary Brachytherapy (2023)

8. A Dosimetric Evaluation of a High Dose Rate Cobalt-60 Brachytherapy Source Using Shielded, Single and Multi-Channel Cylinder Applicators for Gynecological Cancers, Medical Dosimetry (2022)

Experts (# of related papers)

View all Related Experts

Mehrshad Abbasi (3)

Ghazaleh Geraily (3)

Style	Citing Format
MLA	Joya M, et al.. "Investigation of Tg-43 Dosimetric Parameters for 192 Ir Brachytherapy Source Using Gate Monte Carlo Code." Journal of Medical Physics, vol. 48, no. 3, 2023, pp. 268-273.
APA	Joya M, Nedaie HA, Geraily G, Rezaei H, Bromand A, Ghorbani M, Sheikhzadeh P (2023). Investigation of Tg-43 Dosimetric Parameters for 192 Ir Brachytherapy Source Using Gate Monte Carlo Code. Journal of Medical Physics, 48(3), 268-273.
Chicago	Joya M, Nedaie HA, Geraily G, Rezaei H, Bromand A, Ghorbani M, Sheikhzadeh P. "Investigation of Tg-43 Dosimetric Parameters for 192 Ir Brachytherapy Source Using Gate Monte Carlo Code." Journal of Medical Physics 48, no. 3 (2023): 268-273.
Harvard	Joya M et al. (2023) 'Investigation of Tg-43 Dosimetric Parameters for 192 Ir Brachytherapy Source Using Gate Monte Carlo Code', Journal of Medical Physics, 48(3), pp. 268-273.
Vancouver	Joya M, Nedaie HA, Geraily G, Rezaei H, Bromand A, Ghorbani M, et al.. Investigation of Tg-43 Dosimetric Parameters for 192 Ir Brachytherapy Source Using Gate Monte Carlo Code. Journal of Medical Physics. 2023;48(3):268-273.
BibTex	@article{ author = {Joya M and Nedaie HA and Geraily G and Rezaei H and Bromand A and Ghorbani M and Sheikhzadeh P}, title = {Investigation of Tg-43 Dosimetric Parameters for 192 Ir Brachytherapy Source Using Gate Monte Carlo Code}, journal = {Journal of Medical Physics}, volume = {48}, number = {3}, pages = {268-273}, year = {2023} }
RIS	TY - JOUR AU - Joya M AU - Nedaie HA AU - Geraily G AU - Rezaei H AU - Bromand A AU - Ghorbani M AU - Sheikhzadeh P TI - Investigation of Tg-43 Dosimetric Parameters for 192 Ir Brachytherapy Source Using Gate Monte Carlo Code JO - Journal of Medical Physics VL - 48 IS - 3 SP - 268 EP - 273 PY - 2023 ER -

Science Communicator Platform

Authors

Authors Affiliations

Abstract