Modeling of Extracorporeal Infrasound Impact on Human Foot
https://doi.org/10.35596/1729-7648-2024-22-6-90-96
Abstract
Modern requirements for clinical testing of medical devices include biophysical modeling of therapy methodology on human phantoms with known bioelectric properties of all tissues. The article presents modeling on a platform with tools recommended by the FDA for clinical trials and implemented in Sim4Life V8.0. Simulations of the effect of infrasound at frequencies of 18 and 32 Hz on infiltrated tissues of the phantom foot were conducted.
Supporting agencies: The authors express their gratitude to ZMT Zurich MedTech AG for providing the Sim4Life software.
About the Authors
A. V. Churakov
Belarusian State University of Informatics and Radioelectronics
Belarus
Belarus
Churakov A. V., Cand. of Sci., Associate Professor, Associate Professor at the Department of Electronic Engineering and Technology
Minsk
P. V. Kamlach
Belarusian State University of Informatics and Radioelectronics
Belarus
Belarus
Kamlach Pavel Viktorovich, Cand. of Sci., Associate Professor, Associate Professor at the Department of Electronic Engineering and Technology
220013, Minsk, P. Brovki St., 6
Tel.: + 375 17 293-89-63
N. Zh. Elemesov
LLP “Batysmedtehnika”
Kazakhstan
Kazakhstan
Elemesov N. Zh., Director
Uralsk
V. I. Kamlach
Belarusian State University of Informatics and Radioelectronics
Belarus
Belarus
Kamlach V. I., Assistant at the Department of Engineering Psychology and Ergonomics
Minsk
A. I. Ongarbayeva
L. N. Gumilyov Eurasian National University
Kazakhstan
Kazakhstan
Ongarbayeva A. I., Senior Lecturer at the Department of Information Security
Astana
E. V. Leshchevich
Belarusian State University of Informatics and Radioelectronics
Belarus
Belarus
Leshchevich E. V., Postgraduate at the Department of Electronic Engineering and Technology
Minsk
References
1. Sim4Life Light Reference Guide Release 7.0 (2023). Switzerland, Zurich MedTech.
2. Kamlach P. V., Grodo D. S., Churakov A. V., Kamlach V. I., Bondarik V. M., Madveiko S. I., et al. (2020) Model of Electromagnetic Field Impact on Biological Tissues. Doklady BSUIR. 18 (8), 46–52 (in Russian).
3. Churakov A. V. (2019) Principles of Modeling and Designing Devices for Magnetic and Ultrasonic Therapy. Minsk, Belarusian State University of Informatics and Radioelectronics (in Russian).
4. Churakov A. V., Kamlach P. V., Ongarbayeva A. I. (2023) Simulation of Magnetotargeting of Medicines Based on the Calculation of Permeability of Human Tissues by the Electromagnetic Field. Doklady BGUIR. 21 (4), 118–123. http://dx.doi.org/10.35596/1729-7648-2023-21-4-118-123 (in Russian).
5. Churakov A. V., Kamlach P. V., Shulgina I. V. (2022) Model of the Impact of Focused Ultrasound on Biological Tissues. Doklady BSUIR. 20 (6), 70–77 (in Russian).
Review
For citations:
Churakov A.V., Kamlach P.V., Elemesov N.Zh., Kamlach V.I., Ongarbayeva A.I., Leshchevich E.V. Modeling of Extracorporeal Infrasound Impact on Human Foot. Doklady BGUIR. 2024;22(6):90-96. (In Russ.) https://doi.org/10.35596/1729-7648-2024-22-6-90-96
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