Effect of haptic anchor system on rehabilitation of dynamic balance and gait in patients with chronic stroke

• Elbaz, Shams K. A. ^[1] ; Badawy, Mohammed Sadek ^[1] ; Amr Hassan ; Ali, Ahmed S.
  1. [1] Cairo University

     Cairo University

     Egipto

     
• Localización: Revista iberoamericana de psicología del ejercicio y el deporte, ISSN 1886-8576, Vol. 19, Nº. 3, 2024, págs. 320-325
• Idioma: inglés
• Enlaces
  • Texto completo (pdf)
• Resumen

  • ackground: Motor impairment and loss of balance and gait are the main factors affecting the independent function and activity participation of stroke patients. Haptic Anchor System is one of the modalities that can be used in physiotherapy and has a great effect on different impairments like improving postural control, trunk stability during balance tasks, and balance control during walking. Objective: To determine the effect of the haptic anchor system on the rehabilitation of dynamic balance and gait in patients with chronic stroke. Patients and Methods: Thirty patients with unilateral ischemic stroke of both sexes participated in this study, whose ages ranged between 45 to 60 years. They were randomly distributed into two equal groups: the control group (GA) and the study group (GB). The control group received a designed physical therapy program including a conventional balance and gait program, and the study group received the same designed physical therapy program given to the control group for balance and gait in addition to the haptic anchor system. The treatment was conducted for 12 sessions (2 sessions/week) 45 minutes for each session. The study was conducted a 6-week period in which all patients were assessed for dynamic balance and gait at baseline and after a 6-week intervention by using Biodex Balance System (BBS), Biodex gait trainer 2 TM treadmill, dynamic gait index (DGI) and timed up and go test (TUG) Results: Comparison post-treatment results for both groups revealed statistically significant improvement of the step length, ambulation index, walking speed, LOS, TUG, APSI, and OASI in study group B compared to the control group A (P<0.05). Comparison between both groups revealed no significant difference regarding DGI (p = 0.33) and MLSI (p = 0.30) post-treatment. Conclusion: Conventional balance and gait trainings alone may be not sufficient to improve balance and gait in chronic stroke patients .Adding the haptic anchor system to the rehabilitation program seems to be favorable approach in improving dynamic balance parameters (APSI, MLSI, OASI, and LOS) and gait parameters (step length, ambulation index, walking speed, DGI, and TUG) in the rehabilitation of patients with chronic stroke than conventional program alone

• Referencias bibliográficas
  • 1. Alghadir, A.H., Al-Eisa, E.S., Anwer, S. et al. (2018): Reliability,validity, and responsiveness of three scales for measuring balance...
  • 2. Alves, Lucas Vieira, et al. (2014): Evaluation of the tendency to falls in elderly Sergipe. Revista CEFAC. v. 16, n. 5 ,pp. 1389-1396.
  • 3. Arienti, C., Lazzarini, S. G., Pollock, A., & Negrini, S. (2019). Rehabilitation interventions for improving balance following stroke:...
  • 4. Batistela, R.A., Oates, A.R., Costa, A.A., Santos, L.O., & Moraes, R. (2020). Trunk balance control during beam walking improves with...
  • 5. Beyaert, C., Vasa, R., & Frykberg, G. E. (2015). Gait post-stroke: pathophysiology and rehabilitation strategies. Neurophysiologie...
  • 6. Boehm, W. L., & Gruben, K. G. (2016). Post-stroke walking behaviors consistent with altered ground reaction force direction control...
  • 7. Brito, T. S. S., Moraes, R., de Souza, L. A. P. S., & Luvizutto, G. J. (2023). Effectiveness of the haptic anchors during balancing...
  • 8. Brito, T. S., de Souza, L. A., & Luvizutto, G. J. (2022). Acute Effects of a Haptic Anchor System on Postural Sway of Individuals with...
  • 9. Charvet LE, Kasschau M, Datta A, Knotkova H, Stevens MC, Alonzo A, et al. (2015). Remotely-supervised transcranial direct current stimulation (tDCS)...
  • 10. Coelho, A. R., do Rego Andre, A. P., Perobelli, J. L., Sonobe, L. S., and de Abreu, D. C. (2017). Immediate effects of an anchor system...
  • 11. Coelho, A. R., do Rego Andre, A. P., Perobelli, J. L., Sonobe, L. S., and de Abreu, D. C. (2017). Immediate effects of an anchor system...
  • 12. Coelho, A. R., Fontes, R. C., Moraes, R., Barros, C., & de Abreu, D. (2019). Effects of the Use of Anchor Systems in the Rehabilitation...
  • 13. Coupland, A. P., Thapar, A., Qureshi, M. I., Jenkins, H., & Davies, A. H. (2017). The definition of stroke. Journal of the Royal Society...
  • 14. Da Silva Costa, A. A., Dos Santos, L. O., Mauerberg-deCastro, E., & Moraes, R. (2018). Task difficulty has no effect on haptic anchoring...
  • 15. Da Silva Costa, A. A., Manciopi, P. A. R., Mauerberg-deCastro, E., & Moraes, R. (2015). Haptic information provided by the “anchor...
  • 16. Dawson N., Dzurino, D., Karleskint, M., & Tucker, J. (2018). Examining the reliability, correlation, and validity of commonly used...
  • 17. Freitas, M. D. B. Z., Mauerberg-deCastro, E., & Moraes, R. (2013). Intermittent use of an “anchor system” improves postural control...
  • 18. Gharib, N. M., El-Maksoud, G. M. A., & Rezk-Allah, S. S. (2011). Efficacy of gait trainer as an adjunct to traditional physical therapy...
  • 19. Habibi-Koolaee, M., Shahmoradi, L., Niakan Kalhori, S. R., Ghannadan, H., & Younesi, E. (2018). Prevalence of stroke risk factors...
  • 20. Liu, Y.-T., Tsai, H.-T., Hsu, C.-Y., & Lin, Y.-N. (2021). Effects of orthopedic insoles on postural balance in patients with chronic...
  • 21. Mauerberg-de Castro, E., Moraes, R., Tavares, C. P., Figueiredo, G. A., Pacheco, S., & Costa, T. D. (2014). Haptic anchoring and human postural...
  • 22. Mauerberg-deCastro, E. (2004). Developing an “anchor” system to enhance postural control. Motor control, 8(3), 339-358.
  • 23. Moraes, R., Bedo, B. L., Santos, L. O., Batistela, R. A., Santiago, P. R., & Mauerberg-deCastro, E. (2018). Additional haptic information...
  • 24. Oates, A. R., Hauck, L., Moraes, R., & Sibley, K. M. (2017). The effects of haptic input on biomechanical and neurophysiological parameters...
  • 25. Rajsic S, Gothe H, Borba HH, Sroczynski G, Vujicic J, Toell T, Siebert U (2019). Economic burden of stroke: a systematic review on post-stroke care....
  • 26. Reoli, R., Therrien, A., Cherry-Allen, K., Keller, J., Millar, J., & Bastian, A. (2021). Is the dynamic gait index a useful outcome...
  • 27. Rinaldi, L. A., & Monaco, V. (2013). Spatio-temporal parameters and intralimb coordination patterns describing hemiparetic locomotion...
  • 28. Winstein CJ, Stein J, Arena R, Bates B, Cherney LR, Cramer SC, et al.; American Heart Association Stroke Council, Council on Cardiovascular and...
  • 29. Wonsetler, E. C., & Bowden, M. G. (2017). A systematic review of mechanisms of gait speed change post-stroke. Part 2: exercise capacity, muscle...
  • 30. Zhang, B., Li, D., Liu, Y., Wang, J., & Xiao, Q. (2021): Virtual reality for limb motor function, balance, gait, cognition and daily...