Microwave Radiometry of the Pelvic Organs

The problems of designing a microwave radiometer for thermal monitoring of pelvic organs were considered. Based on mathematical modeling, a waveguide antenna for intracavitary diagnostics was developed. The antenna was tested in various phantoms and biological tissues. The obtained results can be used in various fields of medicine and robotics. © 2019, Springer Science+Business Media, LLC, part of Springer Nature.

Authors

Sedankin M.K.^1, ² , Gudkov A.G.³ , Leushin V.Y.³ , Vesnin S.G.⁴ , Sidorov I.A.⁵ , Chupina D.N.³ , Agasieva S.V. ⁶ , Skuratov V.A.⁷ , Chizhikov S.V.³

Journal

Biomedical Engineering

Publisher

Springer New York LLC

Number of issue

Language

English

Pages

288-292

Status

Published

Link

External link

DOI

10.1007/s10527-019-09928-7

Volume

Year

2019

Organizations

¹ Main Research and Testing Robotics Centre of the Ministry of Defense of the Russian Federation (MRTRC), Moscow, Russian Federation
² Burnazyan Federal Medical Biophysical Center, Federal Medical Biological Agency of the Russian Federation, Moscow, Russian Federation
³ Bauman Moscow State Technical University, Moscow, Russian Federation
⁴ RES Company, Moscow, Russian Federation
⁵ JSC Radio Engineering Corporation “Vega”, Moscow, Russian Federation
⁶ Peoples’ Friendship University of Russia, Moscow, Russian Federation
⁷ All-Russian Scientific Research Institute of Radio Engineering, Moscow, Russian Federation

Keywords

Diagnosis; Microwave devices; Biological tissues; Microwave radiometers; Microwave radiometry; Thermal monitoring; Waveguide antennas; Antennas; Article; brightness; electric conductivity; electric field; electric potential; geometry; human; image analysis; mathematical analysis; mathematical model; microwave radiation; pelvic viscera; priority journal; radiometry; simulation; temperature; thermodynamics; uterine cervix cancer

Date of creation

24.12.2019

Date of change

24.12.2019

Short link

https://repository.rudn.ru/en/records/article/record/54949/

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