Álvarez OA, Vera CH, Noa PBY, Echemendia VA, Aguilar REM, Placeres LY

Language: Spanish
References: 47
Page:
PDF size: 261.47 Kb.

ABSTRACT

The rehabilitation of the patients with neurologicals diseases it’s define as a treatment group through a incapacity persons puting in a mind, physical, ocupational and work conditions of develop in the most possible normal in his social enviroment.In our country, The International Neurological Restore Center (CIREN), It center lead a rehabilitation form and it apply of a multifactor an intensive way, We made a protocol about the motor control in children with brain paralysis of the kind spastic and partial paralysis of the four members more increse in the upper members, this patients realize the neurological restore program in the clinical neuropaediatrics. This work pretend to determinate the influence in the spastic and partial paralysis of the four members more increse in the upper members in motor function in the children with brain paralysis. It has been checked systematically through electronic search and in libraries which have foreign and national magazines indexed in Scielo, Imbiomed and Pubmed within the space of ten years in Spanish and English languages, as well as these check of ending studies and text books with information related to the use of physical exercise during rehabilitation of children who suffer from cerebral palsy. Motor control has a positive influence during the physical rehabilitation of children who suffers from cerebral palsy.

REFERENCES

1. Thompson, A. J. Principles of neurorehabilitation and its application to chronic neurological disorders. 2007. Rev. NeurolSupl, 1-8.

2. Castaño,J. Plasticidad neuronal y bases científicas de la neurohabilitación. 2002. RevNeurol; 34 (Supl 1), 130-135.

3. Holliday, R.C; Ballinger, C.;Playford, E.D. Goal setting in neurological rehabilitation: patient’s perspectives. 2007. Rev DevDisabil Rehab29, 389-94.

4. Johnston M. V. Plasticity in the developing brain: implications for rehabilitation. 2009. DevDisabilRev. 94-101.

5. Doménech, J.A; García-Aymerich, V.; Juste, J.; Ortiz, A. Rehabilitaciónmotora. 2002. Rev. Neurol 34 (Supl 1), 148-50.

6. Niemeier, J.; Karol, R. Therapists’ guide to overcoming grief and loss after brain injury. 2011. New York; Oxford University Press.

7. Judd, D; Wilson S.L. Psychotherapy with brain injury survivors: an investigation of the challenges encountered by clinicians and their modifications to therapeutic practice. 2005. Brain Inj; 19, 437-49.

8. Bangash, A.S; Hanafi, M.Z; Idrees, R.; Zehra, N. Risk factors and types of cerebral palsy. 2014. J Pak Med Assoc.

9. Martin, A.; Abogunrin, S.; Kurth, H.; Dinet, J. Epidemiological, humanistic and economic burden of illness of lower limb spasticity in adults: a systematic review. 2014. Neuropsychiatr Dis Treat. Jan 23; 111-122.

10. Smithers-Sheedy, H.;Badawi, N.; Blair, E.; Cans, C.;Himmelmann, K.;Krägeloh-Mann, I.; McIntyre, S.;Slee, J.;Uldall, P.; Watson, L.; Wilson, M. What constitutes cerebral palsy in the twenty-first century? 2014. Dev Med Child Neurol. Apr. 323-8.

11. Colver, A.;Fairhurst, C.;Pharoah, P.O.; Cerebral palsy. 2014. Lancet. Apr. 383(9924):1240-9.

12. Elitt, C.M.; Rosenberg, P.A. The challenge of understanding cerebral white matter injury in the premature infant. 2014. Neuroscience. May. 341-8.

13. Morton, J.F.; Brownlee, M.; McFadyen, A.K. The effects of progressive resistance training for children with cerebral palsy. 2005. ClinRehabil. May. 283-9.

14. Kulak, W.; Sobaniec, W.; Bockowski, L.; Solowiej, E.; Smigielska-Kuzia, J.; Artemowicz, B.; Sendrowski, K. Neurophysiologic studies of brain plasticity in children with cerebral palsy. 2005.RoczAkad Med Bialymst.Suppl 1. 74-7

15. Morgan, C.; Novak, I.; Badawi, N. Enriched environments and motor outcomes in cerebral palsy: systematic review and meta-analysis. 2013. Pediatrics. Sep. 735-46.

16. Mansvelder, H.D.; Van Ooyen, A.; Meredith, R.M.; Development of dendritic tonic GABAergic inhibition regulates excitability and plasticity in CA1 pyramidal neurons. J Neurophysiol. Apr.

17. Guan, J.S.; Xie, H.; Ding, X. The role of epigenetic regulation in learning and memory. 2014. Exp Neurol. May. 147-52.

18. Guigon, E.; Baraduc, P.; Oesmurget, M. Computacional motor control: redundancy and invariance. 2007. JNeurophysiol. 331-47.

19. Hagberg, B.; Hagberg, G.; Olow, I. The changing panorama of cerebral palsy in Sweden. 1984. ActaPaediatrScand 433-40.

20. Pasqualotto, A.; Taya, S.; Proulx, M.J. Sensory deprivation: visual experience alters the mental number line. 2014. Behav Brain Res. Mar. 261:110.

21. Peruzzotti-Jametti, L.; Donegá, M.; Giusto, E.; Mallucci, G.; Marchetti, B.; Pluchino, S. The role of the immune system in central nervous system plasticity after acute injury. 2014. Neuroscience. Apr 29. 339-42.

22. Díaz Márquez R, Díaz Capote R, Sarduy Sánchez I. Valores humanos y éticos en la rehabilitación de pacientes con afecciones neurológicas. Revista Digital - Buenos Aires [Internet] 2006 [citado 2018 22 Mar]; 11(95): aprox. 5 p. Disponible en: http://www.efdeportes.com/efd95/neuro.htm

23. Hernández-Muela, S.; Mulas, F., Mattos, L. Plasticidad neuronal funcional. 2004. RevNeurol 38. Supl 1.58-68.

24. Himmelmann, K.; Uvebrant, P. The panorama of cerebral palsy in Sweden. XI. Changing patterns in the birth-year period 2003-2006. 2014. ActaPaediatr. Jun; 618-24.

25. Holliday, R.C; Ballinger, C.;Playford, E.D. Goal setting in neurological rehabilitation: patient’s perspectives. 2007. Rev DevDisabil Rehab29, 389-94.

26. Huang, S.; Rozas, C.; Treviño, M.; Contreras, J.; Yang, S.; Song, L.; Yoshioka, T.; Lee, H. K.; Kirkwood, A. Associative hebbian synaptic plasticity in primate visual cortex. 2014. J Neurosci. May. 7575-9.

27. James, S.; Ziviani, J.; Boyd, R. A systematic review of activities of daily living measures for children and adolescents with cerebral palsy. 2014. Dev Med Child Neurol. Mar. 233-44.

28. Judd, D; Wilson S.L. Psychotherapy with brain injury survivors: an investigation of the challenges encountered by clinicians and their modifications to therapeutic practice. 2005. Brain Inj; 19, 437-49.

29. Kalia, M. Brain development: anatomy, connectivity, adaptive plasticity, and toxicity. 2008. Metabolism. Suppl 2; 2-5.

30. Kandel, E.R.; Schwartz, J.H.; Jessell, T.M. Principios de neurociencias. 2001. Madrid: McGraw-Hill.

31. Kavcic, A.; Vodusek, D.B. The definition of cerebral palsy. 2008. April. Dev Med Child Neurol. Mar.240.

32. Keawutan, P.; Bell, K.; Davies, P.S.; Boyd, R.N. Systematic review of the relationship between habitual physical activity and motor capacity in children with cerebral palsy. 2014. Res DevDisabil. Jun.1301-9.

33. Kirton, A. Modeling developmental plasticity after perinatal stroke: defining central therapeutic targets in cerebral palsy. 2013. Pediatr Neurol. Feb. 81-94.

34. Krägeloh-Mann, I.; Cans, C. Plasticity in the developing brain: implications for rehabilitation. 2009. Brain Dev. Aug. 537-44.

35. Latash, M.L. Neurophysiological basis ofmovement. 1998. Windsor: Human Kinetics.

36. Le Métayer, M. Desarrollo del niño. Reeducación cerebro-motriz del niño pequeño. 1995. Barcelona: Masson. p 9-37.

37. Lima, M. A; Bernal-Cano, F.D; Clifford, B. Clinicaloutcome of long-termsurvivors of progressive multifocal leukoencephalopathy. 2010. J NeurolNeurosurg Psychiatry 81: 1288-1291.

38. López-Hidalgo M, SchummersJ.Cortical maps: a role for astrocytes? 2014. CurrOpinNeurobiol. Feb.176-8.

39. Tugui, R.D; Antonescu, D. Cerebral PalsyGait, ClinicalImportance. 2013. Medical (Buchar). Review. Sep; 388-393.

40. Urban, K.R.; Gao; W.J. Performance enhancement at the cost of potential brain plasticity: neural ramifications of nootropic drugs in the healthy developing brain. 2014. Front SystNeurosci. May 13. 8-38.

41. Viehweger, E. Importance of hip problems in daily activities for cerebral palsy patients. 2013. J Child Orthop. Nov. 401-406.

42. Wang, L.; Maffei, A. Inhibitory plasticity dictates the sign of plasticity at excitatory synapses. 2014. J Neurosci. Jan. 1083-9.

43. Weaver, K.E.; Richards, T.L.; Saenz, M.; Petropoulos, H. Fine I. Neurochemical changes within human early blind occipital cortex. 2013. Neuroscience. Nov. 222-33.

44. Wei, Y.; Tsigankov, D.; Koulakov, A. The molecular basis for the development of neural maps. 2013. Ann N Y Acad Sci. Dec. 44-60.

45. Steenbergen, B.; Jongbloed-Pereboom, M.; Spruijt, S.; Gordon, A.M. Impaired motor planning and motor imagery in children with unilateral spastic cerebral palsy: challenges for the future of pediatric rehabilitation. 2013. Dev Med Child Neurol. Nov. Suppl 4. 43-6.

46. Scimemi, A. Plasticity of GABA transporters: an unconventional route to shape inhibitory synaptic transmission. 2014. Front Cell Neurosci. May. 8-128.

47. Sharma, A.; Campbell, J.; Cardon, G. Developmental and cross-modal plasticity in deafness: Evidence from the P1 and N1 event related potentials in cochlear implanted children. 2014. Int J Psychophysiol. Apr 167-76.