Academic Journal
INTEGRATED PHOTOGENERATION OF BIOLOGICAL TISSUES AT DAMAGES OF ITS STATE
| Title: | INTEGRATED PHOTOGENERATION OF BIOLOGICAL TISSUES AT DAMAGES OF ITS STATE |
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| Authors: | Klotchko, Tatiana, Hrybanova, Iryna, Skytsiouk, Volodymyr, Dastjerdi, Amir Hosein Mohammadi |
| Source: | Вісник Національного технічного університету України "Київський політехнічний інститут". Серія Приладобудування; № 55(1) (2018); 144-149 Вестник Национального технического университета Украины "Киевский политехнический институт". Серия приборостроение; № 55(1) (2018); 144-149 Bulletin of National Technical University of Ukraine "Kyiv Polytechnic Institute". Series Instrument Making; № 55(1) (2018); 144-149 |
| Publisher Information: | Kyiv Politechnic Institute, 2018. |
| Publication Year: | 2018 |
| Subject Terms: | phantom, regeneration, optical radiation, time regimes, biological tissue, integrated physiotherapeutic wave, фантом, регенерація, оптичне випромінювання, часові режими, біологічна тканина, інтегрована фізіотерапевтична хвиля, регенерация, оптическое излучение, временные режимы, биологическая ткань, интегрированная физиотерапевтическая волна, 3. Good health |
| Description: | Introduction. Studies on the regeneration of living tissue tissues with chromotherapy show good results compared to standard treatment methods.Main part. The article is offered the creation of new therapeutic radiation regimes that are intended to regenerate damaged biological tissues. Studied new modes of physiotherapy integrated radiation molded considering possible changes in the time correction mode and under biological structures, which made influence. Thus, the mode shape of physiotherapeutic wave are integrated optical radiation that affects the living organism due to the frequency of the main carrier signal and frequency modulation, which correspond to the spectral range of variations selected body systems. The use of combinations of pulse mode is possible for some systems of the body, as each structure of a living organism has a frequency range of spectral characteristics. So, the author’s device "PROMIN-ARIA" was applied. The influence of thermal fields on the depth of radiation penetration in a phantom of biological multilayer specimen, which is formed as a result of irradiation by an integrated physiotherapeutic wave, is investigated. Conclusion. The results of the work make a new study of the temperature changes of the design sample of the phantom of biological tissue using specific radiation modes and can be used in other studies and practice of treatment of injuries.In the future, it is important to use different types of pulse modulation to create the necessary initial radiation parameters, because such a method of treatment is flexible and allows the physician to choose the effect that will be made on the affected tissue or organs in one or another case, based on the localization of the lesion, the type of illness, the method of irradiation of the site, the area of influence. |
| Document Type: | Article Other literature type |
| File Description: | application/pdf |
| ISSN: | 2663-3450 0321-2211 |
| DOI: | 10.20535/1970.55(1).2018.135839 |
| Access URL: | http://visnykpb.kpi.ua/article/download/135839/132733 http://visnykpb.kpi.ua/article/download/135839/132733 http://visnykpb.kpi.ua/article/view/135839 http://visnykpb.kpi.ua/article/view/135839 |
| Accession Number: | edsair.doi.dedup.....10cde76d6d8e43fd3b38d1c8c2e766b7 |
| Database: | OpenAIRE |
| ISSN: | 26633450 03212211 |
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| DOI: | 10.20535/1970.55(1).2018.135839 |