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Elena V. Biryukova

PhD in Physics and Mathematics, Senior Scientist

biomechanics, motor control, neurorehabilitation, brain-computer interface

Laboratory of Mathematical Neurobiology of Learning

Moscow institute of physics and technology, diploma of engineer-physicist (1975).

Moscow institute of physics and technology, graduate shcool (1979-1982) under supervision of prof. G.V.Korenev

Moscow state university, Department of mathematics and mechanics, PhD thesis “Dynamics of bone-muscle apparatus of the human hand”, theoretical mechanics (1983).

Institute of higher nervous activity and neurophysiology of Russian academy of science, senior researcher, 70 publications in referenced scientific journals.

Publication list

  1. Biryukova E.V., Bobrov P.D. Neurorehabilitation with the Use of an Arm Exoskeleton Controlled via Brain–Computer Interface: Implemented Interdisciplinary Project. Human Physiology. 2021. V. 47. N. 7. P. 709-715. DOI: 10.1134/S036211972107001X.
  2. Bobrov P.D., Biryukova E.V., Polyaev B.A., Lajsheva O.A., Usachjova E.L., Sokolova A.V., Mikhailova D.I., Dementeva K.N., Fedotova I.R. Rehabilitation of patients with cerebral palsy using hand exoskeleton controlled by brain-computer interface. Bulletin of RSMU. 2020. N. 4. P. 34-41. DOI: 10.24075/vrgmu.2020.047.
  3. Kondur A.A., Biryukova E.V., Frolov A.A., Bobrov P.D., Turbina L.G., Kotov S.V., Zajceva E.V. Post stroke motor function recovery using brain computer interface controllling hand exoskeleton. Delayed effect. Human Physiology. 2020. V. 46. N. 3. P. 99-110. DOI: 10.31857/S013116462003008X.
  4. Biryukova E.V., Sirotkina I. Forward to Bernstein: Movement Complexity as a New Frontier. Frontiers In Neuroscience. 2020. V. 14. P. 553. DOI: 10.3389/fnins.2020.00553.
  5. Bobrov P.D., Biryukova E.V., Polyaev B.A., Lajsheva O.A., Usachjova E.L., Sokolova A.V., Mikhailova D.I., Dementeva K.N., Fedotova I.R. Rehabilitation of patients with cerebral palsy using hand exoskeleton controlled by brain-computer interface. Bulletin of RSMU. 2020. V. 4. P. 41-48. DOI: 10.24075/brsmu.2020.047.
  6. Frolov A., Bobrov P.D., Biryukova E.V., Isaev M.R., Kerechanin Y.V., Bobrov D., Lekin A. Using multiple decomposition methods and cluster analysis to find and categorize typical patterns of EEG activity in motor imagery brain–computer interface experiments. Frontiers in Robotics and AI. 2020. V. 7. Article 88. DOI: 10.3389/frobt.2020.00088.
  7. Biryukova E.V. Heritage of N.A.Bernstein in the theory and practice of motor recovery after stroke. Eds. G.P.Kostiuk, B.M.Velitchkovski, A.E.Tchernavski. Moscow: Universitetskaia kniga. 2019. P. 148-163.
  8. Dzhalagoniya I., Biryukova E.V., Bushkova Y., Kurganskaia M., Bobrov P.D., Frolov A. Biomechanical assessment of Fugl-Meyer score: the case of one post stroke patient who has undergone the rehabilitation using hand exoskeleton controlled by brain-computer interface. International Journal of Physical Medicine & Rehabilitation. 2018. V. 6. N. 3. P. 1000468. DOI: 10.4172/2329-9096.1000468.
  9. Frolov A., Bobrov P.D., Biryukova E.V., Silchenko A., Kondur A., Dzhalagoniya I., Massion J. Electrical, hemodynamic, and motor activity in BCI post-stroke rehabilitation: clinical case study. Frontiers in neurology. 2018. V. 9. P. 1135. DOI: 10.3389/fneur.2018.01135.
  10. Frolov A.A., Kozlovskaya I.B., Biryukova E.V., Bobrov P.D. Use of robotic devices in post-stroke rehabilitation. Neuroscience and Behavioral Physiology. 2018. V. 48. N. 9. P. 1053-1066. DOI: 10.1007/s11055-018-0668-3.
  11. Frolov A.A., Kozlovskaia I.B., Biryukova E.V., Bobrov P.D. Robotic Devices in Poststroke Rehabilitation. Zhurnal Vysshei Nervnoi Deyatelnosti Imeni I.P. Pavlova. 2017. V. 67. N. 4. P. 394-413. DOI: 10.7868/S004446771704-0017.
  12. Frolov A.A., Husek D., Biryukova E.V., Bobrov P.D., Mokienko O.A., Alexandrov A.V. Principles of motor recovery in post-stroke patients using hand exoskeleton controlled by the brain-computer interface based on motor imagery. Neural Network World. 2017. V. 27. N. 1. P. 107-137. DOI: 10.14311/Nnw.2017.27.006.
  13. Frolov A.A., Mokienko O., Lyukmanov R., Biryukova E.V., Kotov S., Turbina L., Nadareyshvily G., Bushkova Y. Post-stroke Rehabilitation Training with a Motor-Imagery-Based Brain-Computer Interface (BCI)-Controlled Hand Exoskeleton: A Randomized Controlled Multicenter Trial. Frontiers In Neuroscience. 2017. V. 11. P. 400. DOI: 10.3389/fnins.2017.00400.
  14. Kotov S.V., Turbina L.G., Biryukova E.V., Frolov A.A., Kondur A.A., Zaitseva E.V., Bobrov P.D. Rehabilitation potential of post-stroke patients training for kinesthetic movement imagination: Motor and cognitive aspects. Human Physiology. 2017. V. 43. N. 5. P. 532-541. DOI: 10.1134/S0362119717050097.
  15. Biryukova E.V., Pavlova O.G., Kurganskaya M.E., Bobrov P.D., Turbina L.G., Frolov A.A., Davydov V.I., Silchenko A.V., Mokienko O.A. Arm motor function recovery during rehabilitation with the use of hand exoskeleton controlled by brain-computer interface: a patient with severe brain damage. Human Physiology. 2016. V. 42. N. 1. P. 19-30. DOI: 10.7868/S0131164616010033.
  16. Frolov A.A., Biryukova E.V., Bobrov P.D., Kurganskaya M.E., Pavlova O.G., Kondur A.A., Turbina L.G., Kotov S.V. Efficacy of complex neurorehabilitation of patients with a post-stroke arm paresis with the use of a brain-computer interface + exoskeleton system. Almanac of Clinical Medicine. 2016. V. 44. N. 3. 280–286.
  17. Frolov A.A., Biryukova E.V., Pavlova O.G., Mokienko O.A., Budilin S.Yu., Kondur A.A., Ivanova G.E., Staritsyn A.N., Bushkova Yu.V., Dzhalagoniya I.Z., Aziatskaya G.A., Khizhnikova A.E., Chervyakov A.V., Lyukmanov R.Kh., Chernikova L.A., Kotov S.V., Turbina L.G., Bobrov P.D., Kurganskaya M.E., Lukyanov A.L., Nadareyshvily G.G. Preliminary results of a controlled study of BCI–exoskeleton technology efficacy in patients with poststroke arm paresis. Bulletin of RSMU. 2016. N. 2. P. 16-23.
  18. Kotov S.V., Turbina L.G., Bobrov P.D., Frolov A.A., Pavlova O.G., Kurganskaya M.E., Biryukova E.V. The use of a complex “brain-computer interface and exo-skeleton” and movement imagination technique for post-stroke rehabilitation. Almanac of Clinical Medicine. 2015. V. 39. 15–21.
  19. Biryukova E.V., Bril B., Frolov A.A., Koulilov M.A. Movement kinematics characterise the level of motor skill: the case of stone knapping in India. Motor Control. 2015. V. 19. N. 1. P. 34-59. DOI: 10.1123/mc.2013-0042.
  20. Kotov S.V., Turbina L.G., Bobrov P.D., Frolov A.A., Pavlova O.G., Kurganskaya M.E., Biryukova L.M. Rehabilitation of post stroke patients using a bioengineering system «brain-computer interface + exoskeleton. Zhurnal Nevrologii i Psikhiatrii imeni S.S. Korsakova. 2014. V. 114. N. 12. P. 66-72. DOI: 10.17116/jnevro201411412266-71.
  21. Biryukova E.V., Sirotkina I.E. From the history of the Russian physsiology of movements. I.P.Pavlov Journaal of Higher Nervous Activity. 2013. V. 63. N. 1. P. 154-172. DOI: 10.7868/S004446771301005X.
  22. Frolov A.A., Biryukova E.V., Bobrov P.D., Mokienko O.A., Platonov A.K., Pryanichnikov V.E. Principles of neurorehabilitation based on brain-computer interface and biologically plausible control of the exoskeleton. Human physiology. 2013. V. 39. N. 2. P. 99-113. DOI: 10.7868/S0131164613020033.
  23. Prokopenko R.A., Frolov A.A., Biryukova E.V., Roby-Brami A. Assessment of the accuracy of a human arm model with seven degrees of freedom. Journal of Biomechanics. 2001. V. 34. N. 2. P. 177-185. DOI: 10.1016/S0021-9290(00)00179-2.
  24. Biryukova E.V., Roby-Brami A., Frolov A.A., Mokhtari M. Kinematics of human arm reconstructed from spatial tracking system recordings. Journal of Biomechanics. 2000. V. 33. N. 8. P. 985-995. DOI: 10.1016/S0021-9290(00)00040-3.
  25. Biryukova E.V., Roschin V.Y., Frolov A.A., Ioffe M.E., Massion J., Dufosse M. Forearm postural control during unloading: Anticipatory changes in elbow stiffness. Experimental Brain Research. 1999. V. 124. N. 1. P. 107-117. DOI: 10.1007/s002210050605.
 

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