ZONALITY OF MICROHEMODYNAMICS EXPOSED TO HIGH-INTENSE FOCUSED ULTRASOUND (33-37)

Архив в PDF формате
Дата публикации статьи в журнале: 2020/05/12
Название журнала: Восточно Европейский Научный Журнал, Выпуск: 56, Том: 1, Страницы в выпуске: 33-37
Автор: Gryzunov V.V.
, The Pavlov First Saint Petersburg State Medical University , doctor of medicine, professor
Автор: Kim Y.V.
, The Pavlov First Saint Petersburg State Medical University , student
Автор: Kuchinskaia S.A.
, The Pavlov First Saint Petersburg State Medical University , student
Анотация: High-tech treatment methods are now actively introduced into clinical practice, designed to limit the invasiveness of surgical procedures, among these methods, as one of the promising areas, is focused highintensity ultrasound (HIFU). HIFU-therapy is based on thermal destruction of tissue, however, the features of the propagation of the heat wave, the state of blood flow in the peripheral zones remain poorly understood. Due to this, the aim of this study was to evaluate the intravital blood flow of the tongue and the swimming membrane of the grass frog in the perifocal zones after HIFU-induced exposure and the nature of the thermal pattern. The obtained data revealed the zoning of blood flow during vital biomicroscopy, which limited the propagation of the heat wave
Ключевые слова: HIFU   high-frequency focused ultrasound   thermal pattern   thermal wave   thermal ablation   microcirculation   blood flow zones    blood flow zones   
Данные для цитирования: Gryzunov V.V. , Kim Y.V. , Kuchinskaia S.A. . ZONALITY OF MICROHEMODYNAMICS EXPOSED TO HIGH-INTENSE FOCUSED ULTRASOUND (33-37). Восточно Европейский Научный Журнал. Медицинские науки. 2020/05/12; 56(1):33-37.

View Fullscreen
Список литературы: 1.Chaussy C.G., Thuroff S. High-intensity focused ultrasound for the treatment of prostate cancer: A review// J. Endourol. – 2017. – Vol.31, N.S1. – P.30– 37. 2.Elhelf A. S., Albahar H., Shah U., Oto A., Cressman E., and Almekkawy M. High intensity focused ultrasound: The fundamentals, clinical applications and research trends// Diagn. Interventional Imaging. – 2018. – Vol.99, I.6, - P. 349. 3.Guan L., Xu G. Damage effect of high-intensity focused ultrasound on breast cancer tissues and their vascularities//World J. Surg. Oncol. – 2016. – Vol.14, N1. – P.153. doi: 10.1186/s12957-016-0908-3 4.Hsiao Y.H., Kuo S.J., Tsai H.D., Chou M.C., Yeh G.P. Clinical application of high-intensity focused ultrasound in cancer therapy.// J. Cancer. - 2016. - Vol.7, N3. -P.225–231 doi:10.7150/jca.13906 5.Jenne J.W., Preusser T., Günther M. Highintensity focused ultrasound: principles, therapy guidance, simulations and applications//Z. Med. Phys. -2012.- Vol. 22, N4.- P.311-322. doi: 10.1016/j.zemedi.2012.07.001 6.Maloney E., Hwang J.H. Emerging HIFU applications in cancer therapy//Int. J. Hyperthermia.- 2015.-Vol.31, N3.- P.302-309. doi: 10.3109/02656736.2014.969789 7. Napoli A., Anzidei M., Ciolina F., Marotta E., Cavallo Marincola B., Brachetti G., Di Mare L.,Cartocci G., Boni F., Noce V., Bertaccini L., Catalano C. MR-guided high-intensity focused ultrasound: current status of an emerging technology// Cardiovasc. Intervent. Radiol. -2013.- Vol.36, N5.- P.1190-1203. doi: 10.1007/s00270-013-0592-4 8.Peek MCL, Wu F. High-intensity focused ultrasound in the treatment of breast tumours//Ecancermedicalscience. - 2018. - Vol.12.- P.794. doi: 10.3332/ecancer.2018.794 9.Грызунов В.В. Основы клинической патофизиологии: монография / Грызунов В.В., Осипов А.С.; ПСПбГМУ им.акад. И. П. Павлова. – Санкт-Петербург : Политех-Пресс,2020. –C. 239. [Gryzunov V.V. The basics of clinical pathophysiology: monograph / Gryzunov V.V., Osipov A.S .; PSPbGMU named after I.P. Pavlova. - St. Petersburg: Polytechnic Press, 2020. (In Russ).]