Measurement of the Contralateral Breast Photon and Thermal Neutron Doses in Breast Cancer Radiotherapy: A Comparison Between Physical and Dynamic Wedges

Measurement of the Contralateral Breast Photon and Thermal Neutron Doses in Breast Cancer Radiotherapy: A Comparison Between Physical and Dynamic Wedges Publisher Pubmed

Bagheri H¹ ; Mahdavi SR² ; Shekarchi B¹ ; Manouchehri F³ ; Farhood B⁴

Show Affiliations

1. Radiation and Wave Research Center, Aja University of Medical Science, Tehran, Iran
2. Department of Medical Physics, Iran University of Medical Sciences, Tehran, Iran
3. Nuclear Science and Rechnology Research Institute (NSTRI), Tehran, Iran
4. Medical Physics and Medical Engineering Department, Faculty of Medicine, Tehran, Iran

Source: Radiation Protection Dosimetry Published:2018

Abstract

This research aimed to measure the received photon and thermal neutron doses to contralateral breast (CB) in breast cancer radiotherapy for various field sizes in presence of physical and dynamic wedges. The measurement of photon and thermal neutron doses was carried out on right breast region of RANDO phantom (as CB) for 18MV photon beams. The dose measurements were performed by thermoluminescent dosimeter chips. These measurements obtained for various field sizes in presence of physical and dynamic wedges. The findings of this study showed that the received doses (both of the photon and thermal neutron) to CB in presence of physical wedge for 11 × 13, 11 × 17 and 11 × 21 cm2 field sizes were 5.92, 6.36 and 6.77% of the prescribed dose, respectively as well as for dynamic wedge were 2.92, 4.63 and 5.60% of the prescribed dose, respectively. The results showed that the received photon and thermal neutron doses to CB increase with increment of field sizes. The received photon and thermal neutron doses to CB in presence of physical wedge were more than dynamic wedge. According to obtained findings, it is suggested that using a dynamic wedge is preferable than physical wedge, especially for medial tangential field. © The Author 2017.

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Style	Citing Format
MLA	Bagheri H, et al.. "Measurement of the Contralateral Breast Photon and Thermal Neutron Doses in Breast Cancer Radiotherapy: A Comparison Between Physical and Dynamic Wedges." Radiation Protection Dosimetry, vol. 178, no. 1, 2018, pp. 73-81.
APA	Bagheri H, Mahdavi SR, Shekarchi B, Manouchehri F, Farhood B (2018). Measurement of the Contralateral Breast Photon and Thermal Neutron Doses in Breast Cancer Radiotherapy: A Comparison Between Physical and Dynamic Wedges. Radiation Protection Dosimetry, 178(1), 73-81.
Chicago	Bagheri H, Mahdavi SR, Shekarchi B, Manouchehri F, Farhood B. "Measurement of the Contralateral Breast Photon and Thermal Neutron Doses in Breast Cancer Radiotherapy: A Comparison Between Physical and Dynamic Wedges." Radiation Protection Dosimetry 178, no. 1 (2018): 73-81.
Harvard	Bagheri H et al. (2018) 'Measurement of the Contralateral Breast Photon and Thermal Neutron Doses in Breast Cancer Radiotherapy: A Comparison Between Physical and Dynamic Wedges', Radiation Protection Dosimetry, 178(1), pp. 73-81.
Vancouver	Bagheri H, Mahdavi SR, Shekarchi B, Manouchehri F, Farhood B. Measurement of the Contralateral Breast Photon and Thermal Neutron Doses in Breast Cancer Radiotherapy: A Comparison Between Physical and Dynamic Wedges. Radiation Protection Dosimetry. 2018;178(1):73-81.
BibTex	@article{ author = {Bagheri H and Mahdavi SR and Shekarchi B and Manouchehri F and Farhood B}, title = {Measurement of the Contralateral Breast Photon and Thermal Neutron Doses in Breast Cancer Radiotherapy: A Comparison Between Physical and Dynamic Wedges}, journal = {Radiation Protection Dosimetry}, volume = {178}, number = {1}, pages = {73-81}, year = {2018} }
RIS	TY - JOUR AU - Bagheri H AU - Mahdavi SR AU - Shekarchi B AU - Manouchehri F AU - Farhood B TI - Measurement of the Contralateral Breast Photon and Thermal Neutron Doses in Breast Cancer Radiotherapy: A Comparison Between Physical and Dynamic Wedges JO - Radiation Protection Dosimetry VL - 178 IS - 1 SP - 73 EP - 81 PY - 2018 ER -

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