Microwave Evaluation of Electromagnetic Compatibility of Dielectric Remedial and Therapeutic Materials with Human Body
International Journal of Biomedical Materials Research
Volume 7, Issue 1, June 2019, Pages: 37-43
Received: Feb. 15, 2019; Accepted: Mar. 26, 2019; Published: Apr. 18, 2019
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Authors
Oleksiy Yanenko, Faculty of Radio Engineering National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute”, Kyiv, Ukraine
Kostiantyn Shevchenko, Faculty of Instrumentation Engineering National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute”, Kyiv, Ukraine
Vladyslav Malanchuk, Department of Maxillo-facial Surgery and Dental Faculty, National O. Bogomolets Medical University, Kyiv, Ukraine
Оleksandra Golovchanska, Dentistry Department, Institute of Postgraduate Education, National O. Bogomolets Medical University, Kyiv, Ukraine
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Abstract
Inherent attribute of the materials using in medicine and biology is microwave range electromagnetic radiation (EMR). The methods of the identification and determination of the compatibility of indicated materials are considered in the paper. The man-made and natural sources of the microwave radiation are described. Examples of the microwave signals using in practical medicine technologies are given. The parameters of microwave signals that can be used to identify biomedical materials are determined. The features of the studied positive and negative electromagnetic radiation streams and possibilities for their use for therapy and identification of biomaterials are described. The results of experimental investigation of the EMR of dental materials are presented. Electromagnetic properties of the dental materials and natural teeth tissues were compared. The recommendations for possible use of the biomaterials electromagnetic identification methods are given. The features of the materials for the physiotherapy were studied experimentally. It was stated that physiotherapeutic materials in determined regimen of the therapy, beside the thermal action, form microwaves streams that could be positive or negative. The level of the microwave component and corresponding physiotherapeutic procedure effectiveness may be regulated by the combination of the physiotherapeutic materials.
Keywords
Biomaterial, Electromagnetic Radiation, Compatibility, Identification
To cite this article
Oleksiy Yanenko, Kostiantyn Shevchenko, Vladyslav Malanchuk, Оleksandra Golovchanska, Microwave Evaluation of Electromagnetic Compatibility of Dielectric Remedial and Therapeutic Materials with Human Body, International Journal of Biomedical Materials Research. Vol. 7, No. 1, 2019, pp. 37-43. doi: 10.11648/j.ijbmr.20190701.15
Copyright
Copyright © 2019 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
References
[1]
Sytko S. P., Scrypnyk Yu. A., Yanenko A. Ph. Apparaturnoje obespechenije sovremennych technologij kvantovoj medidiny. Kyiv, 1999. - 199 p.
[2]
Yanenko O. P. Peregudov S. M., Fedotova I. V., Golovchanska O. D. Eguipmen and technologies of low intensity millimeter therapy Visnyk NTUU "KPI" Seriya: Radiotekhnika. Radioaparatobuduvannya. – № 59 - K.: 2014. P. 103-110.
[3]
Scrypnyk Yu. A., Yanenko A. Ph., V. Ph. Manojlov et coll. Microwavafe radiometr of physical and biological objects., 2003.- 408 p.
[4]
Kutsenko V. P., Scrypnyk Yu. A., Tregubov M. Ph., Shevchenko K. L., Yanenko A. Ph. Radiometrychnyi NVCH control vlastyvostey materialiv. /- Donetsk: ІPSHI «Naukaіosvita», 2012. - 348 p.
[5]
Checkman I. S., Malanchuk V. O., Rybachuk A. V. The basis of the nanomedicine. -К.: “Logos”, 2011. -250 p.
[6]
Skripnik Yu., Sitko S., Shevchenko K., Yanenko O. The development of methods of the superweak intensity radiation mesurement from physical and biological objects.// 10th IMEKO TC7 International Sympozium on Advances of Measurement Science, June 30 – Julay 2, 2004, Saint-Peterburg, Russia. P. 311 – 315.
[7]
Stepanov B. I. Osnovy spektroskopii otricatelnyh svetovyh potokov / Stepanov B. I. - Minsk.: Izd-vo Belgosuniversiteta, 1961. – 124 p.
[8]
Bundiuk L. S., Kuzmenko O. R., Poniezha G. V., Sytko S. P., Scrypnyk Yu. A., Yanenko A. Ph. Sposib mikrohvyliovoji terapii. Patent Ukrainy №59399, 2003. Bull. №9.
[9]
Yanenko O. Ph., Peregudov S. M., Golovchanska O. D. Sposib vymiriuvannia potuzhnosti electromagnitnogo sygnala ta identifikacii stomatologichnyh materialiv. Patent Ukrainy №49357, 2008. Bull. №15.
[10]
Yanenko, A. F., Shevchenko, K. L., Ostapchuk, I. P., Assessment of radiating ability of drupaceous seeds in the millimeter range of wavelengths/ CriMiCo 2013 - 2013 23rd International Crimean Conference Microwave and Telecommunication Technology, Conference Proceedings. P. 1079 -1080.
[11]
Yanenko O. Ph., Krasiuk O. D., Golovchanska O. D., Peregudov S. M. Ozinka sumisnosti stomatologichnyh materialiv/ Visnyk NTUU “KPI”. Pryladobuduvannia. - 2008. Vyp. 35. – P. 143-147.
[12]
R. van Nurt. Osnovy stomatologicheskogo materialovedeniia. 2-еizd.: M. Mosby, London – 2002. – 302 p.
[13]
Specialnaia fizioterapiia/ pod redakcijei L. Nikolovoj ─ Sofiia.: Medicina I fizkultura, 1983. – 433 p.
[14]
Kutsenko V. P., Scrypnyk Yu. A., Tregubov M. Ph., Shevchenko K. L., Yanenko A. Ph. Metody I sredstva sverchvysokochastotnoy radiometrii /- Donetsk: ІPSHI «Naukaіosvita», 2011. - 324 p.
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