DOI: 10.24075/vrgmu.2019.056

ОРИГИНАЛЬНОЕ ИССЛЕДОВАНИЕ

Динамика кинематического портрета постинсультного пареза руки на фоне реабилитации

А. Е. Хижникова, А. С. Клочков, А. М. Котов–Смоленский, Н. А. Супонева, М. А. Пирадов
Информация об авторах

Научный центр неврологии, Москва, Россия

Для корреспонденции: Анастасия Евгеньевна Хижникова
Волоколамское шоссе, д. 80, г. Москва, 125367; moc.liamg@lapakhsutsan

Информация о статье

Финансирование: работа выполнена в рамках государственного заказа № 0512-2014-0036.

Вклад авторов в работу: А. Е. Хижникова — планирование исследования, анализ литературы, сбор, анализ и интерпретация данных, подготовка черновика рукописи; А. С. Клочков — планирование исследования, анализ литературы, интерпретация данных, подготовка рукописи; А. М. Котов–Смоленский — проведение тренировок с пациентами, включенными в исследование, осмотр пациентов по клиническим шкалам; Н. А. Супонева — планирование исследования, интерпретация данных, подготовка рукописи; М. А. Пирадов — подготовка рукописи.

Статья получена: 16.08.2019 Статья принята к печати: 30.08.2019 Опубликовано online: 31.08.2019
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  1. Lawrence ES, Coshall C, Dundas R, et al. Estimates of the prevalence of acute stroke impairments and disability in a multiethnic population. J Stroke. 2001; (32): 1279–84.
  2. Persson HC, Parziali M, Danielsson A, Sunnerhagen KS. Outcome and upper extremity function within 72 hours after first occasion of stroke in an unselected population at a stroke unit. A part of the SALGOT study. J BMC Neurol. 2012; (12): 162.
  3. Langhorne P, Coupar F, Pollock A. Motor recovery after stroke: a systematic review. Lancet Neurol. 2009; 8 (8): 741–54.
  4. Veerbeek JM, Kwakkel G, van Wegen EE, Ket JC, Heymans MW. Early prediction of outcome of activities of daily living after stroke: a systematic review. Stroke. 2011; 42 (5): 1482–8.
  5. Brunnstrom S. Movement Therapy in Hemiplegia: A Neurophysiological Approach. Facts and Comparisons. NewYork: Harper and Row, 1970.
  6. Santello M, Lang CE. Are movement disorders and sensorimotor injuries pathologic synergies? When normal multi-joint movement synergies become pathologic. J Front Hum Neurosci. 2015; (8): 1050.
  7. van Kordelaar J, van Wegen EE, Kwakkel G. Unraveling the interaction between pathological upper limb synergies and compensatory trunk movements during reach-to-grasp after stroke: a cross-sectional study. J Exp Brain Res. 2012; 221 (3): 251–62.
  8. Van Vliet PM, Sheridan MR. Coordination between reaching and grasping in patients with hemiparesis and healthy subjects. J Arch Phys Med Rehabil. 2007; (88): 1325–31.
  9. Hogan L, Dipietro HI, Krebs SE, et al. Changing Motor Synergies in Chronic Stroke. J Neurophysiol. 2007; (98): 757–68.
  10. Compston A. Aids to the investigation of peripheral nerve injuries. Medical Research Council: Nerve Injuries Research Committee. His Majesty’s Stationery Office: 1942; pp. 48 (iii) and 74 figures and 7 diagrams; with aids to the examination of the peripheral nervous system. By Michael O’Brien for the Guarantors of Brain. Saunders Elsevier. Brain. 2010; 133 (10): 2838–44.
  11. Oldfield RC. The assessment and analysis of handedness: the Edinburgh inventory. Neuropsychologia. 1971; (9): 97–113.
  12. Sanford J, Moreland J, Swanson LR, Stratford PW. Reliability of the Fugl-Meyer assessment for testing motor performance in patients following stroke. J Gowland C Phys Ther. 1993; 73 (7): 447–54.
  13. Bohannon RW, Smith MB. Interrater reliability of a modified Ashworth scale of muscle spasticity. J Phys Ther. 1987; 67 (2): 206–7.
  14. Doussoulin SA, Rivas SR, Campos SV. Validation of «Action Research Arm Test» (ARAT) in Chilean patients with a paretic upper limb after a stroke. Rev Med Chil. 2012; 140 (1): 59–65.
  15. Alt Murphy M, Willén C, Sunnerhagen KS. Movement kinematics during a drinking task are associated with the activity capacity level after stroke. J Neurorehabil Neural Repair. 2012; 26 (9): 1106–15.
  16. Valdés BA, Glegg SMN, Van der Loos HFM. Trunk Compensation During Bimanual Reaching at Different Heights by Healthy and Hemiparetic Adults. J Mot Behav. 2017; 49 (5): 580–92.
  17. van Kordelaar J, van Wegen EE, Kwakkel G. Unraveling the interaction between pathological upper limb synergies and compensatory trunk movements during reach-to-grasp after stroke: a cross-sectional study. J Exp Brain Res. 2012; 221 (3): 251–62.
  18. Roh J, Rymer WZ, Perreault EJ, et al. Saturated muscle activation contributes to compensatory reaching strategies after stroke. J Neurophysiol. 2013; 109 (3): 768–81.
  19. Basteris A, Nijenhuis SM, Stienen AH, et al. Training modalities in robot-mediated upper limb rehabilitation in stroke: a framework for classification based on a systematic review. J Neuroeng Rehabil. 2014; 10 (11): 111.
  20. Daunoraviciene K, Adomaviciene A, Grigonyte A, Griškevičius J, Juocevicius A. Effects of robot-assisted training on upper limb functional recovery during the rehabilitation of poststroke patients. J Technol Health Care. 2018; 26 (2): 533–42.
  21. Устинова К. И., Черникова Л. А., Хижникова А. Е., Пойдашева А. Г., Супонева Н. А., Пирадов М. А. Теоретическое обоснование классических методов двигательной реабилитации в неврологии. Анналы клинической и экспериментальной неврологии. 2018; 12 (3): 54–60.