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Development of a neurodevice for rehabilitation and compensation of movement function

Proceeding
DOI: 10.21661/r-80148
Open Access
VIII International applied research conference «Scientific studies: from theory to practice». Volume 1
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VIII International applied research conference «Scientific studies: from theory to practice». Volume 1
Authors:
Silina E. V. 1 , Bogdanov E. A. 2 , Shusharina N. N. 3 , Patrushev M. V. 3 , Stupin V. A. 4
Work direction:
Медицинские науки
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1 SBEI of HPE "I.M. Sechenov First Moscow State Medical University" of Ministry of Healthcare of the Russian Federation
2 FSAEI of HE "Immanuel Kant Baltic Federal University"
3 Chemical-biological institute of FSAEI of HPE "Immanuel Kant Baltic Federal University"
4 SBEI of HPE "Pirogov Russian National Research Medical University" of Ministry of Health of the Russian Federation
For citation:
Silina E. V., Bogdanov E. A., Shusharina N. N., Patrushev M. V., & Stupin V. A. (2016). Development of a neurodevice for rehabilitation and compensation of movement function. Scientific studies: from theory to practice, 1(2 (8)), 67-71. Cheboksary: SCC "Interactive plus", LLC. https://doi.org/10.21661/r-80148
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Abstract

Разработано многофункциональное нейроустройство с биологической обратной связью на основе биометрических сигналов управления электромиографии (ЭМГ), электроэнцефалографии (ЭЭГ), электроокулографии, фотоплетизмографии, термометрии и двигательной активности. Проведены эксперименты каждого метода. Авторами исследована гибридизация ЭЭГ и ЭМГ сигналов, показавшее преимущество над одномодальными системами, что позволяет подключать нейроустройство к экзоскелетам для компенсации утраченной двигательной функции.

References

  1. 1. Darzi А., Officer A., Abualghaib O., Ak E. Stakeholders’ perceptions of rehabilitation services for individuals living with disability: a survey study // Health Qual Life Outcomes. – 2016. – 14: 2.
  2. 2. Officer A., Shakespeare T. The world report on disability and people with intellectual disabilities (vol. 10, pg. 86, 2013) // J Policy Pract Intel. – 2013. –10 (3): 268–269.
  3. 3. Hosseinpoor A.R., Williams J.A.S., Gautam J., Posarac A., Officer A., Verdes E., et al. Socioeconomic inequality in disability among adults: a multicountry study using the world health survey // Am J Public Health. – 2013. – 103 (7): 1278–1286.
  4. 4. Von Groote P.M., Bickenbach J.E., Gutenbrunner C. The World Report on Disability-implications, perspectives and opportunities for physical and rehabilitation medicine (PRM) // J Rehabil Med. – 2011. – 43 (10): 869–875.
  5. 5. Weeks M. Digital Signal Processing Using MATLAB and Wavelets // Infinity Science Press. – 2007. – 452 р.
  6. 6. Tonet O., Marinelli M., Citi L., Rossini P., Megali G., Dario P. Defining brain-machine interface applications by matching interface performance with device requirements // Journal of neuroscience methods. – 2008. – 167 (1): 91–104.
  7. 7. Collinger J.L., Wodlinger B., Downey J.E., Wang W., Tyler-Kabara E.C., Weber D.J. et al. High-performance neuroprosthetic control by an individual with tetraplegia // Lancet. – 2013. – 381 (9866): 557–564.
  8. 8. Agashe H., Contreras-Vidal J.L. Reconstructing hand kinematics during reach to grasp movements from electroencephalographic signals // Engineering in Medicine and Biology Society. – EMBC, 2011. – Annual International Conference of the IEEE. – 2011: 5444–5447.
  9. 9. Mohamed A.K., Marwala T., John L.R. Single-trial EEG discrimination between wrist and finger movement imagery and execution in a sensorimotor BCI // Engineering in Medicine and Biology Society. – EMBC, 2011. – Annual International Conference of the IEEE. – 2011: 6289–6293.
  10. 10. Yang J. Singh H, Hinesc E, Schlagheckend F, Iliescuc DD., Leesonc MS et al. Channel selection and classification of electroencephalogram signals: An artificial neural network and genetic algorithm-based approach // Artificial intelligence in medicine. – 2012. – 55 (2): 117–126.

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