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Olʹga G. Pavlova

Leading Scientist, D.Sc. in Biology

central organization of movements, motor learning, stroke, recovery mechanisms, proprioception

Laboratory of Mathematical Neurobiology of Learning
Scopus ID
7005867161
ORCID ID
0000-0001-5238-8383
Web of Science ResearcherID
AAC-3619-2022
SPIN code
7578-4049

Ist Moscow Medical Institute named after I.M. Sechenov1972), Candidate of Medical Sciences(1979), Doctor of Biological Sciences (2011)

Publication list

Papers

  • Roschin V.Y., Pavlova O.G., Selionov V.A., Solopova I.A., Zhvansky D.S., Staroverova O.N., Khatkova S.E. Comparison of Objective Indicators of Proprioception of Single– Joint Arm Movements in Healthy Subjects and Post–Stroke Patients in Sitting and Lying Positions. Human Physiology. 2019. V. 45. N. 4. P. 62-70. DOI: 10.1134/S0131164619040131
  • Roschin V.Y., Pavlova O.G., Sidorova M.V., Ivanova G.E. Objective Assessment of Intactness of Proprioceptive Perception in the Arm. // New Approaches for Classical Problems. Eds. Kozlovskaya I.B., Vinogradova O.L., Shenkman B.S. Voronezh: Nauchnaya kniga. 2019. P. 28-28.
  • Roschin V.Y., Pavlova O.G., Selionov V.A., Solopova I.A., Zhvansky D.S., Staroverova O.N., Khatkiva S.E. Comparison of Objective Indicators of Proprioception of Single– Joint Arm Movements in Healthy Subjects and Post–Stroke Patients in Sitting and Lying Positions. Human Physiology. 2019. V. 45. N. 4. P. 397-404. DOI: 10.1134/S0362119719040133
  • Pavlova O.G., Roschin V.Y., Sidorova M.V., Selionov V.A., Kulikov M.A., Staritsyn A.N. Method for Qualitative and Quantitative Assessment of Proprioceptive Perception of Single-Joint Arm Movements. Human Physiology. 2018. V. 44. N. 4. P. 84-95. DOI: 10.1134/S0131164618040124
  • 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
  • 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.
  • 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.
  • 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.
  • 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