Диссертация (1173259), страница 18
Текст из файла (страница 18)
Intracisternal basic fibroblast growth factor (bFGF) enhancesbehavioral recovery following focal cerebral infarction in the rat/ T. Kawamata,N.E. Alexis, W.D. Dietrich, S.P. Finklestein// J Cereb Blood Flow Metab. – 1996.- №16(4).- Р.542-547.104.Ke, Z. The effects of voluntary, involuntary, and forced exercises on motorrecovery in a stroke rat model/Z. Ke, S.P. Yip, L. Li [et al.]// Conf Proc IEEE EngMed Biol Soc. – 2011.- №2011.- Р.8223-8226.105.Kim, G.
Effects of treadmill training on limbmotor function andacetylcholinesterase activity in rats with stroke/G. Kim, E. Kim// J Phys Ther Sci. 2013. - №25(10).- Р.1227-1230.106.Kim, J.O. Effect of Scapular Stabilization Exercise during Standing onUpper Limb Function and Gait Ability of Stroke Patients/ J.O. Kim, J.
Lee, B.H.Lee// J Neurosci Rural Pract. – 2017. - №8(4). – Р.540-544.107.Kim, M.W. Exercise increased BDNF and trkB in the contralateralhemisphere of the ischemic rat brain/ M.W. Kim, M.S. Bang, T.R. Han [et al.]//Brain Res. – 2005. - №1052(1).- Р.16-21.108.Kiper, P. Computational models and motor learning paradigms: Could theyprovide insights for neuroplasticity after stroke? An overview/ P. Kiper, A.Szczudlik, A. Venneri [et al.]// J Neurol Sci. – 2016.- №369.
– р. 141-148.109.Kozlowski, D.A. Use-dependent exaggeration of neuronal injury afterunilateral sensorimotor cortex lesions/D.A. Kozlowski, D.C. James, T. Schallert// JNeurosci. – 1996.- №16(15). – Р. 4776-4786.110.Krebs, H.I. Robot-aided neurorehabilitation/ H.I. Krebs, N. Hogan, M.L.Aisen, B.T. Volpe// IEEE Transactions on Rehabilitation Engineering. – 1998.№6(1).- Р.75–87.111.Kwakkel, G.
Effects of robot-assisted therapy on upper limb recovery afterstroke: a systematic review/ G. Kwakkel, B. Kollen, H. Krebs// NeurorehabilNeural Repair. – 2008.- №22.- Р.111-121.118112.Kwakkel, G. Probability of regaining dexterity in the flaccid upper limb:impact of severity of paresis and time since onset in acute stroke/ G. Kwakkel, B.Kollen, J. Van der Grond, A.
Prevo// Stroke. – 2003.- №34.- Р.2181-2186.113.Kwakkel, G. Impact of early applied upper limb stimulation: the EXPLICIT-stroke programme design/G. Kwakkel, C.G. Meskers, E.E. van Wegen [et al.]//BMC Neurol. – 2008.- №8.- Р.49.114.Kwakkel, G. Effects of augmented exercise therapy time after stroke: ameta-analysis/ G.
Kwakkel, R. van Peppen, R.C. Wagenaar [et al.]// Stroke. - 2004.- №35(11).- Р.2529-2539.115.Kwakkel, G. Invited commentary on comparison of robotics, functionalelectrical stimulation, and motor learning methods for treatment of persistent upperextremity dysfunction after stroke: a randomized controlled trial/ G. Kwakkel, E.E.van Wegen, C.M. Meskers// Archives of Physical Medicine and Rehabilitation. –2015. - №96.- Р.991-993.116.Lam, Y.S. Virtual reality training for stroke rehabilitation/ Y.S.
Lam, D.W.Man, S.F. Tam, [et al.]// NeuroRehabilitation. – 2006.- №21.- Р.245-253.117.Lang, N. Dopaminergic potentiation of rTMS-induced motor cortexinhibition/ N. Lang, S. Speck, J. Harms [et al.]// Biol Psychiatry. – 2008. -№63.Р.231-233.118.Langhorne, P. Stroke rehabilitation/ P. Langhorne, J. Bernhardt, G.Kwakkel// Lancet. – 2011.- №377.- Р.1693-1702.119.Laver, K. Cochrane review: Virtual reality for stroke rehabilitation/ K.Laver, S. George, S. Thomas, [et al.]// Eur J Phys Rehabil Med. – 2012. - №48.Р.523-530.120.Lazar, R.M. Aphasia As a Predictor of Stroke Outcome/ R.M. Lazar, A.K.Boehme// Curr Neurol Neurosci Rep.
– 2017.- №17(11).- Р.83.121.Lee, K.W. Effect of Robot-Assisted Game Training on Upper ExtremityFunction in Stroke Patients/ K.W. Lee, S.B. Kim, J.H. Lee [et al.]// Ann RehabilMed. - 2017.- №41(4).- Р.539-546.119122.Lentz, A.A. Measures of Cardiovascular Health and Physical Function afteran Aerobic Exercise Intervention in a Patient Fifteen Days Post-Stroke/ A.A.Lentz, A.E. Mattlage, A.L. Ashenden [et al.]// J Stud Phys Ther Res. – 2012. №5(2).- Р.72-78.123.Li, L. Muscle activation changes during body weight support treadmilltraining after focal cortical ischemia: A rat hindlimb model/L. Li, W. Rong, Z. Ke[et al.]// J Electromyogr Kinesiol. – 2011.
- №21(2).- Р.318-326.124.Li, L. The effects of training intensities on motor recovery and gaitsymmetry in a rat model of ischemia/L. Li, W. Rong, Z. Ke [et al.]// Brain Inj. –2013.- №27(4).- Р.408-416.125.Liebigt, S. Effects of rehabilitative training and anti-inflammatory treatmenton functional recovery and cellular reorganization following stroke/S. Liebigt, N.Schlegel, J. Oberland et al// Exp Neurol. – 2012.- №233(2).- Р.776-782.126.Lo, A.C. Robotassisted therapy for long-term upper-limb impairment afterstroke/ A.C.
Lo, P.D. Guarino, L.G. Richards [et al.]// N Engl J Med. – 2010. №362.- Р.1772-1783.127.Lo, K. Effectiveness of robotic assisted rehabilitation for mobility andfunctional ability in adult stroke patients: a systematic review/ K. Lo, M.Stephenson, C. Lockwood// JBI Database System Rev Implement Rep. – 2017. №15(12).- Р. 3049-3091.128.Lohse, K. Virtual reality therapy for adults post stroke: a systematic reviewand meta-analysis exploring virtual environments and commercial games intherapy/ K.
Lohse, C. Hilderman, K. Cheung [et al.]// PLoS One. – 2014.- №9.Р.93318.129.Loureiro, R. Advances in upper limb stroke rehabilitation: a technologypush/ R. Loureiro, W. Harwin, K. Nagai, M. Johnson// Med Biol Eng Comput. –2011.- №49. – Р.1103-1118.130.Lozano, R. Global and regional mortality from 235 causes of death for 20age groups in 1990 and 2010: a systematic analysis for the Global Burden of120Disease Study 2010/ R. Lozano, M. Naghavi, K. Foreman, [et al.]// Lancet.
–2012.- №380.- Р. 2095-2128.131.Luft, A.R. Brain activation of lower extremity movement in chronicallyimpaired stroke survivors/A.R. Luft, L. Forrester, R.F. Macko [et al.]//Neuroimage. – 2005.- №26(1).- Р.184-194.132.Luft, A.R. Treadmill exercise activates subcortical neural networks andimproves walking after stroke: a randomized controlled trial/A.R. Luft, R.F.Macko, L.W. Forrester [et al.]// Stroke. – 2008.- №39(12).- Р.3341-3350.133.Luft, A.R. Lesion location alters brain activation in chronically impairedstroke survivors/A.R.
Luft, S. Waller, L. Forrester [et al.]// Neuroimage. – 2004.№21(3).- Р.924-935.134.Lum, P.S. Robot-assisted movement training compared with conventionaltherapy techniques for the rehabilitation of upperlimb motor function afterstroke/P.S. Lum, C.G. Burgar, P.C. Shor [et al.]// Arch Phys Med Rehabil. – 2002.№83.- Р.952-959.135.Lum, P.S. MIME robotic device for upper-limb neurorehabilitation insubacute stroke subjects: A follow-up study/ P.S. Lum, C.G. Burgar, M. Van derLoos [et al.]// J Rehabil Res Dev.
– 2006.- №43.- Р.631-642.136.Macko, R.F. Treadmill exercise rehabilitation improves ambulatory functionand cardiovascular fitness in patients with chronic stroke: a randomized, controlledtrial/R.F. Macko, F.M. Ivey, L.W. Forrester [et al.]// Stroke. – 2005. - №36(10).- Р.2206-2211.137.Mang, C.S. Promoting neuroplasticity for motor rehabilitation after stroke:considering the effects of aerobic exercise and genetic variation on brain-derivedneurotrophic factor/C.S. Mang, K.L. Campbell, C.J. Ross, L.A.
Boyd// Phys Ther.– 2013. - №93(12). - Р.1707-1716.138.Marin, R. The effect of voluntary exercise exposure on histological andneurobehavioral outcomes after ischemic brain injury in the rat/R. Marin, A.Williams, S. Hale [et al.]// Physiol Behav. – 2003.- №80(2-3).- Р.167-175.121139.Marsden, D.L. Characteristics of exercise training interventions to improvecardiorespiratory fitness after stroke: a systematic review with meta-analysis/ D.L.Marsden, A.
Dunn, R. Callister [et al.]// Neurorehabil Neural Repair. – 2013.№27(9).- Р.775-788.140.Marsh, R. A virtual realitybased fMRI study of reward-based spatiallearning/ R. Marsh, X. Hao, D. Xu, [et al.]// Neuropsychologia. – 2010. - №48.Р.2912-2921.141.Masiero, S. Randomized trial of a robotic assistive device for the upperextremity during early inpatient stroke rehabilitation/ S. Masiero, M. Armani, G.Ferlini [et al.]// Neurorehabil Neural Repair.
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