Диссертация (1173259), страница 19
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– 2014.- №28.- Р.377-386.142.Masiero, S. Upper-limb robotassisted therapy in rehabilitation of acutestroke patients: Focused review and results of new randomized controlled trial/ S.Masiero, M. Armani, G. Rosati// J Rehabil Res Dev. – 2011.- №48.- Р.355-366.143.Masiero, S. A novel robot device in rehabilitation of post-stroke hemiplegicupper limbs/ S. Masiero, A. Celia, M. Armani [et al.]// Aging Clin Exp Res. –2006.- №18.- Р.531-535.144.Masiero, S. Robotic-assisted rehabilitation of the upper limb after acutestroke/ S. Masiero, A.
Celia, G. Rosati [et al.]// Arch Phys Med Rehabil. – 2007.№88.- Р.142-149.145.Matsuda, F. The effects of early exercise on brain damage and recovery afterfocal cerebral infarction in rats/F. Matsuda, H. Sakakima, Y. Yoshida// ActaPhysiol (Oxf). – 2011.- №201(2).- Р.275-287.146.Mazzoleni, S. Combining Upper Limb Robotic Rehabilitation with OtherTherapeutic Approaches after Stroke: Current Status, Rationale, and Challenges/ S.Mazzoleni, C.
Duret, A.G. Grosmaire, E. Battini// Biomed Res Int. - 2017. №2017.- Р.8905637.147.McAlees, J.W. Epigenetic regulation of beta2 adrenergic receptor expressionin T1 and T2 cells/J.W. McAlees, L.T. Smith, R.S. Erbe [et al.]// Brain BehavImmun. – 2011.- №25(3).- Р.408-415.122148.Mehrholz, J.
Electromechanical and robot-assisted arm training forimproving arm function and activities of daily living after stroke/ J. Mehrholz, T.Platz, J. Kugler, M. Pohl// Cochrane Database Syst Rev. – 2008.- №4.Р.CD006876.149.Mehrholz, J. Electromechanical and robot-assisted arm training forimproving activities of daily living, arm function, and arm muscle strength afterstroke/ J.
Mehrholz, M. Pohl, T. Platz [et al.]// Cochrane Database Syst Rev. –2015.- №11.- Р. CD006876.150.Mizutani, K. Analysis of protein expression profile in the cerebellum ofcerebral infarction rats after treadmill training/K. Mizutani, S. Sonoda, N. Hayashi[et al.]// Am J Phys Med Rehabil. – 2010.- №89(2).- Р.107-114.151.Monte-Silva, K.
Dose-dependent inverted U-shaped effect of dopamine (D2-like) receptor activation on focal and nonfocal plasticity in humans/ K. MonteSilva, M.F. Kuo, N. Thirugnanasambandam [et al.]// J Neurosci. – 2009. - №29.Р.6124-6131.152.Morris, J. Predicting health related quality of life 6 months after stroke: therole of anxiety and upper limb dysfunction/ J. Morris, F. Van Wijck, S.
Joice, M.Donaghy// Disabil Rehabil. – 2013.- №35.- Р.291-299.153.Müller, H.D. Brain-derived neurotrophic factor but not forced armuseimproves long-termoutcome after photothrombotic stroke and transientlyupregulates binding densities of excitatory glutamate receptors in the ratbrain/H.D. Müller, K.M. Hanumanthiah, K.
Diederich [et al.]// Stroke. – 2008.№39(3).- Р.1012-1021.154.Murphy, T. Plasticity during stroke recovery: from synapse to behavior/ T.Murphy, D. Corbett// Nat Rev Neurosci. – 2009.- №10.- Р.861-872.155.Murray, C. Global, regional, and national disability-adjusted life years(DALYs) for 306 diseases and injuries and healthy life expectancy (HALE) for188 countries, 1990-2013: quantifying the epidemiological transition/ C. Murray,R. Barber, K. Foreman [et al.]// Lancet. – 2015.
- №386.- Р.2145-2191.123156.Murray, C. Disability-adjusted life years (DALYs) for 291 diseases andinjuries in 21 regions, 1990-2010: a systematic analysis for the Global Burden ofDisease Study 2010/ C. Murray, T. Vos, R. Lozano [et al.]// Lancet. – 2012.№380.- Р. 2197-2223.157.Nijland, R. Presence of finger extension and shoulder abduction within 72hours after stroke predicts functional recovery: early prediction of functionaloutcome after stroke: the EPOS cohort study/ R.
Nijland, E. Van Wegen, B.Harmeling-Van der Wel, G. Kwakkel// Stroke. – 2010.- №41.- Р.745-750.158.Nudo, R.J. Role of adaptive plasticity in recovery of function after damageto motor cortex/ R.J. Nudo, E.J. Plautz, S.B. Frost// Muscle Nerve. – 2001.№24(8).- Р.1000-1019.159.Nudo, R.J. Adaptive plasticity in motor cortex: Implications forrehabilitation after brain injury/ R.J. Nudo// J Rehabil Med. – 2003.- №41.- Р.7-10.160.Nudo, R.J. Neural bases of recovery after brain injury/ R.J.
Nudo// JCommun Disord. – 2011.- Р.44(5). - Р.515-520.161.O_Doherty, J. Abstract reward and punishment representations in the humanorbitofrontal cortex/ J. O_Doherty, M.L. Kringelbach, E.T. Rolls, [et al.]// NatNeurosci. – 2001. - №4.- Р.95-102.162.O_Doherty, J.P. Reward representations and rewardrelated learning in thehuman brain: Insights from neuroimaging/ J.P. O_Doherty// Curr Opin Neurobiol.– 2004.- №14.- Р.769-776.163.Onyango, I.G. Regulation of neuron mitochondrial biogenesis and relevanceto brain health/I.G. Onyango, J.
Lu, M. Rodova [et al.]// Biochim Biophys Acta. –2010.- №1802(1).- Р.228-234.164.Piao, C.S. Late exercise reduces neuroinflammation and cognitivedysfunction after traumatic brain injury/C.S. Piao, B.A. Stoica, J. Wu [et al.]//Neurobiol Dis. – 2013.- №54.- Р.252-263.165.Pila, O. Evolution of upper limb kinematics four years after subacute robot-assisted rehabilitation in stroke patients/ O.
Pila, C. Duret, J.M. Gracies [et al.]// IntJ Neurosci. – 2018.- Р.1-10.124166.Pila, O. Pattern of improvement in upper limb pointing task kinematics aftera 3-month training program with robotic assistance in stroke/ O. Pila, C. Duret,F.X. Laborne [et al.]// J Neuroeng Rehabil. – 2017.- №14(1).- Р.105.167.Pin-Barre, C. Acute neuromuscular adaptation at the spinal level followingmiddle cerebral artery occlusion-reperfusion in the rat/C. Pin-Barre, J. Laurin,M.S. Felix [et al.]// PLoS One. – 2014.- №9(2).- Р.89953.168.Pin-Barre, C.
Physical Exercise as a Diagnostic, Rehabilitation, andPreventive Tool: Influence on Neuroplasticity and Motor Recovery after Stroke/ C.Pin-Barre, J. Laurin// Neural Plast. – 2015.- №2015.- Р.608581.169.Ploughman, M. Brain-derived neurotrophic factor contributes to recovery ofskilled reaching after focal ischemia in rats/M. Ploughman, V. Windle, C.L.MacLellan [et al.]// Stroke. – 2009.- №40(4).- Р.1490-1495.170.Pollock, A. Interventions for improving upper limb function after stroke/ A.Pollock, S.E. Farmer, M.C. Brady [et al.]// Cochrane Database Syst Rev. -2014.№11.- Р.CD010820.171.Prabhakaran, S.
Inter-individual variability in the capacity for motorrecovery after ischemic stroke/ S. Prabhakaran, E. Zarahn, C. Riley [et al.]//Neurorehabil Neural Repair. – 2008. - №22.- Р.64-71.172.Prange, G.B. Systematic review of the effect of robot-aided therapy onrecovery of the hemiparetic arm after stroke/ G.B. Prange, M.J. Jannink, C.G.Groothuis-Oudshoorn[etal.]//JournalofRehabilitationResearchandDevelopment.
– 2006.- №43(2).- Р.171–184.173.Prange, G.B. The effect of arm support combined with rehabilitation gameson upper-extremity function in subacute stroke: A randomized controlled trial/G.B. Prange, A.I. Kottink, J.H. Buurke [et al.]// Neurorehabil Neural Repair. –2015.- №29.- Р.174-182.174.Puyal, J. Targeting autophagy to prevent neonatal stroke damage/ J. Puyal,P.G.
Clarke// Autophagy. – 2009.- №5(7).- Р.1060-1061.175.Rajaratnam, B.S. Does the inclusion of virtual reality games withinconventional rehabilitation enhance balance retraining after a recent episode of125stroke?/ B.S. Rajaratnam, J. Gui Kaien, K. Lee Jialin [et al.]// Rehabil Res Pract. –2013.- №2013.- Р.649561.176.Reinkensmeyer, D.J.
Understanding and treating arm movement impairmentafter chronic brain injury: progress with the ARM Guide/ D.J. Reinkensmeyer,L.E. Kahn, M. Averbuch [et al.]// Journal of Rehabilitation Research andDevelopment. – 2000.- №37(6).- Р.653–662.177.Riener, R. Robot-aided neurorehabilitation of the upper extremities/ R.Riener, T.
Nef, G. Colombo // Med Biol Eng Comput. – 2005.- №43.- Р.2-10.178.Risedal, A. Early training may exacerbate brain damage after focal brainischemia in the rat/A. Risedal, J. Zeng, B.B. Johansson// J Cereb Blood FlowMetab. – 1999.- №19(9).- Р.997-1003.179.Rosati, G. Design, implementation and clinical tests of a wire-based robotfor neurorehabilitation/ G. Rosati, P. Gallina, S. Masiero// IEEE Trans Neural SystRehabil Eng. – 2007.- №15.- Р.560-569.180.Schäbitz, W.R.
Effect of brainderived neurotrophic factor treatment andforced arm use on functional motor recovery after small cortical ischemia/W.R.Schäbitz, C. Berger, R. Kollmar [et al.]// Stroke. – 2004.- №35(4).- Р.992-997.181.Schäbitz, W.R. Intravenous brain-derived neurotrophic factor reduces infarctsize and counterregulates Bax and Bcl-2 expression after temporary focal cerebralischemia/W.R. Schäbitz, C. Sommer, W. Zoder [et al.]// Stroke. – 2000.- №31(9).Р.2212-2217.182.Schäbitz, W.R.
Intravenous brain-derived neurotrophic factor enhancespoststroke sensorimotor recovery and stimulates neurogenesis/W.R. Schäbitz, T.Steigleder, C.M. Cooper-Kuhn et al// Stroke. – 2007.- №38(7).- Р.2165-2172.183.Schaechter, J.D. Motor rehabilitation and brain plasticity after hemipareticstroke/J.D. Schaechter// Prog Neurobiol. – 2004.- №73(1).- Р.61-72.184.Schmidt, A. Meta-analysis of the efficacy of different training strategies inanimal models of ischemic stroke/A. Schmidt, J. Wellmann, M.
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