Antenna applicator for medical diagnostics in a multilayer brain tissue

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Introduction. Radiothermography is a promising medical diagnostic technique that detects the body's natural radio emissions. Variations in physiological properties, such as temperature and electrophysical characteristics, alter the noise temperature of tissues, signaling potential abnormalities. The efficiency of microwave thermometry increases with focusing, which can be achieved using antenna arrays. However, in the context of human diagnostics, the compactness of array elements is critical due to the limited space within the body.

This study aims at assessing the performance of a developed antenna applicator for use in a multilayer model of brain tissue and proving its functionality in experiments. Electrodynamic modeling was performed using CST STUDIO, a software suite for designing, simulating, and optimizing 3D electromagnetic systems. To evaluate the antenna's performance, a tissue phantom was created to replicate the dielectric properties of real human tissues.

Findings. A compact antenna-sensor for contact radiothermometry was developed, operating at a frequency of 3.85 GHz with a 50 MHz bandwidth. The design addresses the challenge of fitting array elements into a small volume. The experimental results correlated with the electrodynamic model, confirming the functionality of the antenna applicator. Its performance was optimized for a multilayer structure of brain tissue using a below-cutoff waveguide design.

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Sobre autores

Adel Sadykov

Kazan National Research Technical University named after A.N.Tupolev-KAI

Autor responsável pela correspondência
Email: pro3452000@gmail.com
Código SPIN: 7038-4180

PhD student, assistant at the Department for Radio-Electronic and Telecommunication Systems. Research interests – microwave thermal imaging, body screening, internal tissue analysis, brain research, and compact, flush-mounted weakly directional antennas. The author of 30 scientific publications.

Rússia, 10, K. Marx st., Kazan, 420111

Bibliografia

  1. Sedelnikov Ju.E., Kublanov V.S., Potapova O.V. Focused antennas-applicators in the tasks of diagnostic radiothermometry. Journal of radio electronics. 2018;(7). Аvailable from: http://jre.cplire.ru/jre/jul18/4/text.pdf [Accessed 30.03.2024]. doi: 10.30898/1684-1719.2018.7.4 (In Russ.).
  2. Sedelnikov Ju.E, Potapova O.V, Sadykov AR et al. Focused antennas in contact radiothermometry problems. Journal of radio electronics. 2021;(3). Аvailable from: https://doi.org/10.30898/1684-1719.2021.3.11 [Accessed 30.03.2024]. (In Russ.).
  3. Potapova O.V., Halikova K.N. Estimation of the parameters of the focused electromagnetic field using linear apertures in radiothermography. Izvestia of Samara Scientific Center of the Russian Academy of Sciences. 2015;17(2):31-36. (In Russ.).
  4. Sedelnikov Ju.E., Sadykov A.R., Skachkov V.A. Antenna applicator for early detection of congenital or acquired brain tissue anomalies. Vestnik of Volga State University of Technology. Series: Radio Engineering and Infocommunication Systems. 2022;(4):16-23. doi: 10.25686/2306-2819.2022.4.16. (In Russ.).
  5. Vesnin SG, Sedakin KM. Development of an antenna-applicator series for tissue temperature non-invasive measurement of a human body at different pathologies. Herald of the Bauman Moscow State Technical University. 2012;(11):43-61. (In Russ.).
  6. Panchenko B.A., Kublanov V.S., Baranov S.A. et al. Antenna for contact microwave radiometers for monitoring of the brain microwave radiation. 2017 International Applied Computational Electromagnetic Society Symposium – Italy (ACES), Firenze, Italy. 2017:1-2.
  7. Vajsblat A.V. Medical radio thermometer RTM-01-RES. Biomedical technologies and radio electronics. 2001;(8):3-9. (In Russ.).
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  11. Sedelnikov Yu.E., Sadykov A.R., Skachkov V.A. Antenna-applicator for non-invasive detection of anomalies of internal tissues of biological objects. Proceedings of 2021 Antennas Design and Measurement International Conference (ADMInC). Saint-Petersburg: St. Petersburg Electrotechnical University "LETI" (ETU "LETI"), 2021:19-22. (In Russ).
  12. Sadykov A.R., Skachkov V.A. Study of dielectric properties of human body tissues for the development of antenna applicator. Microwave electronics and microelectronics. 2021;1:590-594. (In Russ.).
  13. Yilmaz T., Karacolak T., Topsakal E.. Characterization and testing of a skin mimicking material for implantable antennas operating at ISM band (2.4 GHz-2.48 GHz). IEEE Antennas and Wireless Propagation Letters. 2008;7:418-420. doi: 10.1109/LAWP.2008.2001736

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2. Fig. 1. A multilayer model of the brain

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3. Fig. 2. Antenna design with labeled geometric parameters

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4. Fig. 3. Antenna VSWR for each multilayer structure model from Table 2 a – (27-167-30), b – (12-128-30), c – (152-130-30), d – (137-169-30), e – (60-103-98), f – (105-105-98)

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5. Fig 4. Antenna dimensions

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6. Fig. 5. Antenna VSWR for all models

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7. Fig. 6. Antenna VSWR for all models

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8. Fig. 7. Human tissue phantom

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9. Fig. 8. S-parameters of the sensor antenna

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Используя сайт https://journals.rcsi.science, я (далее – «Пользователь» или «Субъект персональных данных») даю согласие на обработку персональных данных на этом сайте (текст Согласия) и на обработку персональных данных с помощью сервиса «Яндекс.Метрика» (текст Согласия).