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Biomedical Engineering

, Volume 53, Issue 1, pp 28–31 | Cite as

A Miniature Source of Ionizing Radiation for Electronic Brachytherapy

  • M. L. Taubin
  • D. A. ChesnokovEmail author
Article
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The paper presents a miniature source of ionizing radiation for intracavitary therapy of cancer. The developed source can be implanted near the tumor. It is shown that small radiation sources can provide satisfactory treatment results if made of new materials that have not been previously used in X-ray technology. The results of a model study of the radiation dose emitted by the source are presented. The developed source can be used in gynecology, urology, proctology, mammology, etc.

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References

  1. 1.
    “Xoft Axxent Electronic Brachytherapy and Ir-192 HDR brachytherapy in the treatment of endometrial cancer,” Brachytherapy, No. 7, 154 (2008).Google Scholar
  2. 2.
    Caccialanza, M., Piccinno, R., et al., “Contact X-ray therapy versus soft X-ray therapy in the treatment of extensive basal and squamous cell carcinomas of the skin,” G. Ital. Dermatol. Venereol., 4 (134), 283-288 (1999).Google Scholar
  3. 3.
    Beatty, J., Biggs, P. J., Gall, K., Okunieff, P., and Pardo, F. S., “A new miniature x-ray device for interstitial radiosurgery: Dosimetry,” Med. Phys., No. 23, 53-62 (1996).Google Scholar
  4. 4.
    Biggs, D. S. and Thomson, E. S. “Radiation properties of a miniature X-ray device for radiosurgery,” Br. J. Radiol., No. 69, 544-547 (1996).Google Scholar
  5. 5.
    Vaidya, J. S., Baum, M., Tobias, J. S., D’Souza, D. P., Naidu, S. V., Morgan, S., Metaxas, M., Harte, K. J., Sliski, A. P., and Thomson, E., “Targeted intra-operative radiotherapy (Targit). An innovative method of treatment for early breast cancer,” Ann. Oncol., No. 12, 1075-1080 (2001).Google Scholar
  6. 6.
    Cosgrove, G. R., Hochberg, F. H., Zervas, N. T., Pardo, F. S., Valenzuela, R. F., and Chapman, P., “Interstitial irradiation of brain tumours using a minature radiosurgery device: Initial experience,” Neurosurgery, No. 40, 518-525 (1997).Google Scholar
  7. 7.
    Kraus-Tiefenbacher, U., Steil, V., Bauer, L., Melchert, F., and Wenz, F. A., “Novel mobile device for intraoperative radiotherapy (IORT),” Onkologie, No. 26, 596-598 (2003).Google Scholar
  8. 8.
    Rivard, M. J. et al., “Calculated and measured brachytherapy dosimetry parameters in water. X-Ray source: An electronic brachytherapy source,” Med. Phys., No. 33, 4020-4032 (2006).Google Scholar
  9. 9.
    Taubin, M. L., Pavlov, A. A., Chesnokov, D. A., and Yaskolko, A. A., “Development and application of nano- and monocrystalline materials for medical miniature X-ray tubes,” IOP Conf. Ser. Mat. Sci. Eng., 175 (2017), http://iopscience.iop.org/article/10.1088/1757-899X/175/1/012010 (accessed January 30, 2018).
  10. 10.
    Taubin, M. L. and Yaskolko, A. A., “Miniature sources for radiation therapy produced from mono and nanomaterial,” 3rd Global Conf. Materials Science and Engineering (CMSE 2014), Shanghai (2014), pp. 96-99.Google Scholar

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© Springer Science+Business Media, LLC, part of Springer Nature 2019

Authors and Affiliations

  1. 1.Scientific Research Institute Scientific Industrial Association LUCHPodolskRussia
  2. 2.National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)MoscowRussia

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