Methods for Designing Devices and Systems of Medical Electronics

A brief overview of the results of work in the field of “Devices, systems and technologies for medical purposes”, obtained with the direct participation of the authors of the article, is given. The results of the development and research in the field of modeling the effects of physical factors on the human body and digital processing of biomedical signals are presented. The principal aspects of the original systems of long-term monitoring of the human condition and control of the musculoskeletal system are presented.

1. Osipov A. N., Rolich O. C., Kluev A. P., Vladymtsev V. D., Migalevich S. A., Khazanovsky I. O. (2023) Heart Rate Measurement Algorithm in the Monitoring System of Human Body Condition. Digital Transformation. 29 (4), 66–72. http://dx.doi.org/10.35596/1729-7648-2023-29-4-66-72 (in Russian).

2. Osipov A. N., Patseev A. V., Patseev S. V. (2023) Analysis Algorithm of Biomedical Signals in Remote Monitoring Systems of Human Health. Doklady BGUIR. 21 (1), 5–11. http://dx.doi.org/10.35596/1729-7648-2023-21-1-5-11 (in Russian).

3. Patseev A. V., Patseev S. V., Osipov A. N. A Method for Remote Monitoring of the Human Condition. The Decision to Grant a Patent under EA Application No 202390206.

4. Uloza V., Padervinskis E., Vegiene A., Pribuisiene R., Saferis V., Vaiciukynas E., et al. (2015) Exploring the Feasibility of Smart Phone Microphone for Measurement of Acoustic Voice Parameters and Voice Pathology Screening. European Archives of Otorhinolaryngology. 272, 3391–3399.

5. Rusz J., Hlavnička J., Tykalová T., Novotný M., Dušek P., Šonka K., et al. (2018) Smartphone Allows Capture of Speech Abnormalities Associated with High Risk of Developing Parkinson’s Disease. IEEE Transactions on Neural Systems and Rehabilitation Engineering. 26 (8), 1495–1507.

6. Lauraitis A., Maskeliūnas R., Damaševičius R., Krilavičius T. (2020) A Mobile Application for Smart Computeraided Selfadministered Testing of Cognition, Speech, and Motor Impairment. Sensors. 20 (11), 1–22.

7. Vashkevich M., Petrovsky A., Rushkevich Y. (2019) Bulbar ALS Detection Based on Analysis of Voice Perturbation and Vibrato. IEEE Intern. Conf. on Signal Processing: Algorithms, Architectures, Arrangements, and Applications, Poznan, Poland, 18–20 Sept. 267–272.

8. Vashkevich M. I., Azarov I. S. (2020) Determination of the Pathology of the Vocal Apparatus Based on the Analysis of the Modulation Spectrum of Speech in Critical Bands. Proceedings of SPIIRAN. (2), 249–276.

9. Vashkevich M. I., Likhachоv D. S., Azarov I. S. (2022) Voice Analysis and Classification System Based on Perturbation Parameters and Cepstral Presentation in Psychoacoustic Scales. Doklady BGUIR. 20 (1), 73–82. https://doi.org/10.35596/1729-7648-2022-20-1-73-82 (in Russian).

10. Likhachov D., Vashkevich M., Azarov E., Malhina K., Rushkevich Y. (2021) A Mobile Application for Detection of Amyotrophic Lateral Sclerosis Via Voice Analysis. Speech and Computer. SPECOM 2021. Lecture Notes in Computer Science. Springer. 12997, 372–383.

11. Ulashchik V. S., Molchanova A. Yu., Zhavoronok I. P., Melik-Kasumov T. B., Schastnaya N. I., Voichenko N. V., et al. (2018) Electromagnetic Therapy: New Data and Technologies. Minsk, Belaruskaya Navuka.

12. Kamlach P. V., Hroda D. S., Churakov A. V., Kamlach V. I., Bondarik V. M., Madveika S. I., et al. (2020) Model of Electromagnetic Field Effect on Biological Tissues. Doklady BGUIR. 18 (8), 46–52. https://doi.org/10.35596/1729-7648-2020-18-8-46-52 (in Russian).

13. Kamlach P. V., Sidorovich A. Y., Kulikov N. I., Kamlach V. I., Bondarik V. M., Churakov A. V., et al. (2018) Simulator of Electrical Characteristics of Adipose Tissue. Doklady BGUIR. (7) (in Russian).

14. Kamlach P., Sidorovich A., Kulikov M., Kamlach V., Davydova N. (2020) Simulator of Electrical Characteristics of Muscle Tissue. Journal of Engineering Science. (3). DOI: 10.528.

15. 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. https://doi.org/10.35596/1729-7648-2023-21-4-118-123 (in Russian).

16. Gorokh P. I., Semenchik I. N., Bondarik V. M., Voitov V. V. (2022) Study of the Effect of Quantum Radiation on the Restoration Process of the Human Deltoid Muscle. Medelectronics-2022. Medical Electronics and New Medical Technologies: Collection of Scientific Articles of the XIII International Scientific and Technical Conference, Minsk, Dec. 8–9. Minsk, Belarusian State University of Informatics and Radioelectronics. 219–224 (in Russian).

17. Davydova N. S. (2011) Structural and Functional Diagnostics of Human Motor Skills Based on the Construction and Analysis of an Electromyographic Portrait of Movement. News of Biomedical Sciences. 4 (4), 178–186.

18. Davydova N. S., Osipov A. N., Davydov M. V., Mezhennaya M. M. (2012) Method and Technical Means of Controlled Change Human Motor Skill Based on Multichannel Electrical Stimulation. Bulletin of the Polotsk State University. Series C. Fundamental Sciences. (4), 10–15 (in Russian).

19. Zelmansky O. B., Zelmansky B. V. (2015) Automated Oxygen Delivery System to the Patient. Pat. 10536 Rep. Belarus, MPK8 A61M 16/00, B01D 53/04; Applicant Borlen LLC. No u20140236; Published on 26.06.2014; Published on 28.02.2015. Afitsyny Bul. National Center of Intellectual Property. (1), 131–132.

20. Zelmansky O. B., Davidovskaya E. I. (2016) Apparatus for the Long-Term Oxygen Therapy. Doklady BGUIR. (7), 226–230 (in Russian).

21. Zelmansky O. B., Davidovskaya E. I., Dubrovsky A. S. (2020) Respiratory Failure: Technical Means for Diagnosis and Respiratory Support. Doklady BGUIR. 18 (8), 29–36 (in Russian).

22. Zelmansky O. B., Zelmansky B. V. (2019) Therapeutic and Diagnostic Complex for Early Detection and Therapy of Respiratory Diseases, Aggravated by Respiratory and Heart Failure, Apnea/Hypopnea Syndrome. Pat. 11984 Rep. Belarus, u20180333; Declared on 29.11.2018; Published on 15.02.2019. Afitsyny Bul. National Center of Intellectual Property. (2).

23. Zelmansky O. B. (2019) Respiratory Support Device for Creating Positive Pressure in the Respiratory Tract. Pat. 4305 Rep. Belarus, f20190113; Declared on 18.04.2019; Published on 01.10.2019. Afitsyny Bul. National Center of Intellectual Property. (6).

24. Zelmansky O. B. (2020) Oxygen Concentrator. Pat. 4411 Rep. Belarus, f20190242; Application on 03.09.2019; Published on 16.12.2019. Afitsyny Bul. National Center of Intellectual Property. (1).

25. Zelmansky O. B. (2017) Device for Measuring Oxygen Saturation of Arterial Hemoglobin in Human Blood and Heart Rate. Pat. 3721 Rep. Belarus, f20160156; Announcation on 13.09.2016; Published on 16.01.2017. Afitsyny Bul. National Center of Intellectual Property. (2).

26. Zelmansky O. B. (2023) Technical Support for the Application of the Method of Normoxic Therapeutic Compression in Narcological Practice. Medicine and High Technologies. (4), 34–39.

27. Kapytau D. А., Kudin L. I., Kapytau A. V., Zelmansky O. B. (2020) Dynamics of Lipid Status in Alcohol Withdrawal Syndrome Against the Background of Complex Treatment. Medical Journal. (3), 75–83 (in Russian).

28. Kapytau D., Kudin L., Kapytau A., Zelmansky O. B. (2020) Estimation of Efficiency of Complex Treatment Alcohol Withdrawal Syndrome Taking into Account Markers of Hepato-Biliary System. Military Medicine. (3), 32–43 (in Russian).

29. Zelmansky O. B., Zelmansky B. V. (2011) The System of Remote Monitoring and Management of Mobile and Stationary Facilities and Control of Alcohol Content in the Blood of Personnel of These Facilities. Рat. 7487 Rep. Belarus, u20110066; Application on 11.02.2011; Published on 06.05.2011. Official Website. National Center of Intellectual Property. (4), 220–221.