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Construction Shielding Design for Medical X-Ray Imaging Equipment

Received: 19 September 2014     Accepted: 29 September 2014     Published: 30 September 2014
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Abstract

There are analytic methods for designing protective barriers however, they lack sufficient efficiency and considering the NCRP (National Council on Radiation Protection and measurements) reports, designing mechanical protective barrier in order to protect the initial x-ray radiation and absorption of the ray quality of such radiation is different. In this study, computer software was designed to calculate the needed barrier with high accuracy. For proper determination of thickness of the protective barrier, relevant information about curves of radiation weakness, dose limit and other items should be entered. This program was done in windows and designed in such a way that the operator works easily, flexibility of the program is acceptable and its accuracy and sensitivity is high. Meanwhile sometimes shielding is more than what required which lacks technical standards and cost effectiveness. When the application index is contrasting zero, thickness of NCRP49 calculation is about 20% less than the calculated rate done by the method of this study. The multi radiation sources in a single room are considered and non guaranteed radiation of NCRP hypothesis is removed. Difference between the theoretical and calculated rates of this method is X2 =10-5 which indicates accuracy and high efficiency of this software.

Published in American Journal of Physics and Applications (Volume 2, Issue 5)
DOI 10.11648/j.ajpa.20140205.11
Page(s) 104-107
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2014. Published by Science Publishing Group

Keywords

Shielding, Diagnostic X-Ray, Attenuation Curve, Building Materials

References
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[2] NCRP Report 49, " structural Shielding Design and evaluation for medical use of x-ray rays and gamma rays of energies up to 10 mev" , national council on radiation protection and measurements, 1976.
[3] Edward L. Nickoloff and Eileen M. Donnelly"Use of gypsum drywall as shielding material for mammography" Health physics Vol.54, No.6,(June) , pp. 465-468,1989.
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[8] International commission on radiological protection, "1990 recommendations of the international commission on radiological protection," ICRP publication 60.
[9] M.petrantonaki,C,kappas, E.P. Efstathopiulos, Y, theodorakos, GlPanagiotakis, "Calculating shielding requirements in diagnostic x-ray departments", August 1998
[10] ICRP Publication 26 (1977), "recommendations of the international commission on radiological protection".
[11] Seyed Ali Rahimi,EVALUATION of RADIOLOGY PERSONNEL PRACTICE OF Mazandaran UNIVERSITY OF MEDICAL SCIENCES HOSPITALS. QANTRM(2006)-Organized by the ,IAEA- Vienna- Austria.
[12] Seyed Ali Rahimi, Study on the performance of recommended standards in the diagnostic radiology units of the hospitals affiliated to the Mazandaran University of Medical Scienc,Journal of X-Ray Science and Technology - Amsterdam Ios press- 15(2007)57-63- Netherlands.
[13] Methé BM. Shielding design for a PET imaging suite: a case study. Health Phys. 2003 May; 84(5 Suppl):S83-8.
[14] Casanova AO, López N, Gelen A, Guevara MV, Díaz O, Cimino L, D'Alessandro K, Melo JC. Shielding analysis of the Microtron MT-25 bunker using the MCNP-4C code and NCRP Report 51. Radiat Prot Dosimetry. 2004;109(3):189-95.
[15] Fog LS, Cormack J. Mathematical modeling of the radiation dose received from photons passing over and through shielding walls in a PET/CT suite. Health Phys. 2010 Dec;99(6):769-79. doi: 10.1097/HP.0b013e3181e47a39.
[16] Fujita Y, Myojoyama A, Saitoh H. BREMSSTRAHLUNG AND PHOTONEUTRON PRODUCTION IN A STEEL SHIELD FOR 15-22-MEV CLINICAL ELECTRON BEAMS. Radiat Prot Dosimetry. 2014 May 12.
[17] Mori H, Koshida K, Ishigamori O, Matsubara K. A novel removable shield attached to C-arm units against scattered X-rays from a patient's side. Eur Radiol. 2014 Aug;24(8):1794-9.
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  • APA Style

    Seyed Ali Rahimi. (2014). Construction Shielding Design for Medical X-Ray Imaging Equipment. American Journal of Physics and Applications, 2(5), 104-107. https://doi.org/10.11648/j.ajpa.20140205.11

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    ACS Style

    Seyed Ali Rahimi. Construction Shielding Design for Medical X-Ray Imaging Equipment. Am. J. Phys. Appl. 2014, 2(5), 104-107. doi: 10.11648/j.ajpa.20140205.11

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    AMA Style

    Seyed Ali Rahimi. Construction Shielding Design for Medical X-Ray Imaging Equipment. Am J Phys Appl. 2014;2(5):104-107. doi: 10.11648/j.ajpa.20140205.11

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  • @article{10.11648/j.ajpa.20140205.11,
      author = {Seyed Ali Rahimi},
      title = {Construction Shielding Design for Medical X-Ray Imaging Equipment},
      journal = {American Journal of Physics and Applications},
      volume = {2},
      number = {5},
      pages = {104-107},
      doi = {10.11648/j.ajpa.20140205.11},
      url = {https://doi.org/10.11648/j.ajpa.20140205.11},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajpa.20140205.11},
      abstract = {There are analytic methods for designing protective barriers however, they lack sufficient efficiency and considering the NCRP (National Council on Radiation Protection and measurements) reports, designing mechanical protective barrier in order to protect the initial x-ray radiation and absorption of the ray quality of such radiation is different. In this study, computer software was designed to calculate the needed barrier with high accuracy. For proper determination of thickness of the protective barrier, relevant information about curves of radiation weakness, dose limit and other items should be entered. This program was done in windows and designed in such a way that the operator works easily, flexibility of the program is acceptable and its accuracy and sensitivity is high. Meanwhile sometimes shielding is more than what required which lacks technical standards and cost effectiveness. When the application index is contrasting zero, thickness of NCRP49 calculation is about 20% less than the calculated rate done by the method of this study. The multi radiation sources in a single room are considered and non guaranteed radiation of NCRP hypothesis is removed. Difference between the theoretical and calculated rates of this method is X2 =10-5 which indicates accuracy and high efficiency of this software.},
     year = {2014}
    }
    

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  • TY  - JOUR
    T1  - Construction Shielding Design for Medical X-Ray Imaging Equipment
    AU  - Seyed Ali Rahimi
    Y1  - 2014/09/30
    PY  - 2014
    N1  - https://doi.org/10.11648/j.ajpa.20140205.11
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    T2  - American Journal of Physics and Applications
    JF  - American Journal of Physics and Applications
    JO  - American Journal of Physics and Applications
    SP  - 104
    EP  - 107
    PB  - Science Publishing Group
    SN  - 2330-4308
    UR  - https://doi.org/10.11648/j.ajpa.20140205.11
    AB  - There are analytic methods for designing protective barriers however, they lack sufficient efficiency and considering the NCRP (National Council on Radiation Protection and measurements) reports, designing mechanical protective barrier in order to protect the initial x-ray radiation and absorption of the ray quality of such radiation is different. In this study, computer software was designed to calculate the needed barrier with high accuracy. For proper determination of thickness of the protective barrier, relevant information about curves of radiation weakness, dose limit and other items should be entered. This program was done in windows and designed in such a way that the operator works easily, flexibility of the program is acceptable and its accuracy and sensitivity is high. Meanwhile sometimes shielding is more than what required which lacks technical standards and cost effectiveness. When the application index is contrasting zero, thickness of NCRP49 calculation is about 20% less than the calculated rate done by the method of this study. The multi radiation sources in a single room are considered and non guaranteed radiation of NCRP hypothesis is removed. Difference between the theoretical and calculated rates of this method is X2 =10-5 which indicates accuracy and high efficiency of this software.
    VL  - 2
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    ER  - 

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Author Information
  • Health Sciences Research Center , Mazandaran University of Medical Sciences, Kilometer 18 Khazarabad Road, P.O.BOX:48175-1553, Sari, Iran

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