Benefits of innovative Exopulse Mollii full-body electric garment intervention on lower limb strength, gait speed, lower back pain, quality of life, and fatigue in a female with multiple sclerosis – a case study

Marcin Uszynski; Catherine McCarron

doi:10.5114/phr.2022.123158

eISSN: 2719-9665
ISSN: 2719-5139

Physiotherapy Review

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Artykuł oryginalny

Benefits of innovative Exopulse Mollii full-body electric garment intervention on lower limb strength, gait speed, lower back pain, quality of life, and fatigue in a female with multiple sclerosis – a case study

Marcin Kacper Uszynski

¹

,

Catherine McCarron

¹

Physiotherapy, AxonRehab, Birdhill, Ireland

Physiotherapy Review, 2022, 26(4), 49-55

DOI: https://doi.org/10.5114/phr.2022.123158

Data publikacji online: 2022/12/24

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- 4_2022_art4.pdf [0.21 MB]

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AMA

Uszynski MK, McCarron C. Benefits of innovative Exopulse Mollii full-body electric garment intervention on lower limb strength, gait speed, lower back pain, quality of life, and fatigue in a female with multiple sclerosis – a case study. Physiotherapy Review. 2022;26(4):49-55. doi:10.5114/phr.2022.123158.

APA

Uszynski, M. K.,  & McCarron, C. (2022). Benefits of innovative Exopulse Mollii full-body electric garment intervention on lower limb strength, gait speed, lower back pain, quality of life, and fatigue in a female with multiple sclerosis – a case study. Physiotherapy Review, 26(4), 49-55. https://doi.org/10.5114/phr.2022.123158

Chicago

Uszynski, Marcin K,  and Catherine McCarron. 2022. "Benefits of innovative Exopulse Mollii full-body electric garment intervention on lower limb strength, gait speed, lower back pain, quality of life, and fatigue in a female with multiple sclerosis – a case study". Physiotherapy Review 26 (4): 49-55. doi:10.5114/phr.2022.123158.

Harvard

Uszynski, M.,  and McCarron, C. (2022). Benefits of innovative Exopulse Mollii full-body electric garment intervention on lower limb strength, gait speed, lower back pain, quality of life, and fatigue in a female with multiple sclerosis – a case study. Physiotherapy Review, 26(4), pp.49-55. https://doi.org/10.5114/phr.2022.123158

MLA

Uszynski, Marcin et al. "Benefits of innovative Exopulse Mollii full-body electric garment intervention on lower limb strength, gait speed, lower back pain, quality of life, and fatigue in a female with multiple sclerosis – a case study." Physiotherapy Review, vol. 26, no. 4, 2022, pp. 49-55. doi:10.5114/phr.2022.123158.

Vancouver

Uszynski M, McCarron C. Benefits of innovative Exopulse Mollii full-body electric garment intervention on lower limb strength, gait speed, lower back pain, quality of life, and fatigue in a female with multiple sclerosis – a case study. Physiotherapy Review. 2022;26(4):49-55. doi:10.5114/phr.2022.123158.

Metryki PlumX:

1. GBD 2016 Multiple Sclerosis Collaborators. Global, regional, and national burden of multiple sclerosis 1990-2016: a systematic analysis for the Global Burden of Disease Study 2016. Lancet Neurol. 2019; 18 (3): 269-285.

2. Larocca NG. Impact of walking impairment in multiple sclerosis: perspectives of patients and care partners. Patient. 2011;4 (3): 189-201.

3. White LJ, McCoy SC, Castellano V, Gutierrez G, Stevens JE, Walter GA, et al. Resistance training improves strength and functional capacity in persons with multiple sclerosis. Mult Scler. 2004; 10 (6): 668-674.

4. Rizzo MA, Hadjimichael OC, Preiningerova J, Vollmer TL. Prevalence and treatment of spasticity reported by multiple sclerosis patients. Mult Scler. 2004; 10 (5): 589-595.

5. Motl RW, Sandroff BM, Benedict RH. Cognitive dysfunction and multiple sclerosis: developing a rationale for considering the efficacy of exercise training. Mult Scler. 2011; 17 (9): 1034-1040.

6. Compston A, Coles A. Multiple sclerosis. Lancet. 2008; 372 (9648): 1502-1517.

7. Finlayson M, Peterson E, Matsuda PN. Participation as an Outcome in Multiple Sclerosis Falls-Prevention Research: Consensus Recommendation from the International MS Falls Prevention Research Network. Int J MS Care. 2014; 16 (4): 171-177.

8. Palmcrantz S, Pennati GV, Bergling H, Borg J. Feasibility and potential effects of using the electro-dress Mollii on spasticity and functioning in chronic stroke. J Neuroeng Rehabil. 2020; 17 (1): 109.

9. Hedin H, Wong C, Sjödén A. The effects of using an electrodress (Mollii®) to reduce spasticity and enhance functioning in children with cerebral palsy: a pilot study. Eur J Physiother. 2020; 24 (3): 1-10. 10. Perez MA, Field-Fote EC, Floeter MK. Patterned sensory stimulation induces plasticity in reciprocal ia inhibition in humans. J Neurosci. 2003; 23 (6): 2014-2018.

10. Tinazzi M, Zarattini S, Valeriani M, Romito S, Farina S, Moretto G, et al. Long-lasting modulation of human motor cortex following prolonged transcutaneous electrical nerve stimulation (TENS) of forearm muscles: evidence of reciprocal inhibition and facilitation. Exp Brain Res. 2005; 161 (4): 457-464. 55 Physiotherapy Review | Volume XXVI Issue 4/2022

11. Møller AB, Bibby BM, Skjerbæk AG, Jensen E, Sørensen H, Stenager E, et al. Validity and variability of the 5-repetition sit-to-stand test in patients with multiple sclerosis. Disabil Rehabil. 2012; 34 (26): 2251-2258..

12. Cattaneo D, Regola A, Meotti M. Validity of six balance disorders scales in persons with multiple sclerosis. Disabil Rehabil. 2006; 28 (12): 789-795..

13. Boonstra AM, Schiphorst Preuper HR, Reneman MF, Posthumus JB, Stewart RE. Reliability and validity of the visual analogue scale for disability in patients with chronic musculoskeletal pain. Int J Rehabil Res. 2008; 31 (2): 165-169.

14. Fisk JD, Ritvo PG, Ross L, Haase DA, Marrie TJ, Schlech WF. Measuring the functional impact of fatigue: initial validation of the fatigue impact scale. Clin Infect Dis. 1994; 18 Suppl 1: S79-83.

15. Kos D, Kerckhofs E, Carrea I, Verza R, Ramos M, Jansa J. Evaluation of the Modified Fatigue Impact Scale in four different European countries. Mult Scler. 2005; 11 (1): 76-80..

16. Kos D, Kerckhofs E, Nagels G, D'Hooghe BD, Duquet W, Duportail M, et al. Assessing fatigue in multiple sclerosis: Dutch modified fatigue impact scale. Acta Neurol Belg. 2003; 103 (4): 185-191.

17. Hobart J, Lamping D, Fitzpatrick R, Riazi A, Thompson A. The Multiple Sclerosis Impact Scale (MSIS29): a new patient-based outcome measure. Brain. 2001; 124 (Pt 5): 962-973..

18. McGuigan C, Hutchinson M. The multiple sclerosis impact scale (MSIS-29) is a reliable and sensitive measure. J Neurol Neurosurg Psychiatry. 2004; 75 (2): 266-269.

19. Flachenecker P, Kümpfel T, Kallmann B, Gottschalk M, Grauer O, Rieckmann P, et al. Fatigue in multiple sclerosis: a comparison of different rating scales and correlation to clinical parameters. Mult Scler. 2002; 8 (6): 523-526.

20. Zwibel HL. Contribution of impaired mobility and general symptoms to the burden of multiple sclerosis. Adv Ther. 2009; 26 (12): 1043-1057.

21. Ziemssen T. Multiple sclerosis beyond EDSS: depression and fatigue. J Neurol Sci. 2009; 277 Suppl 1: S37-41.

22. Nilsagard Y, Lundholm C, Gunnarsson LG, Dcnison E. Clinical relevance using timed walk tests and 'timed up and go' testing in persons with multiple sclerosis. Physiother Res Int. 2007; 12 (2): 105-114.

23. Clark WE, Sivan M, O'Connor RJ. Evaluating the use of robotic and virtual reality rehabilitation technologies to improve function in stroke survivors: A narrative review. J Rehabil Assist Technol Eng. 2019; 6:2055668319863557..

24. Manuli A, Maggio MG, Tripoli D, Gullì M, Cannavò A, La Rosa G, et al. Patients' perspective and usability of innovation technology in a new rehabilitation pathway: An exploratory study in patients with multiple sclerosis. Mult Scler Relat Disord. 2020; 44: 102312.

25. Sampson P, Freeman C, Coote S, Demain S, Feys P, Meadmore K, et al. Using Functional Electrical Stimulation Mediated by Iterative Learning Control and Robotics to Improve Arm Movement for People With Multiple Sclerosis. IEEE Trans Neural Syst Rehabil Eng. 2016; 24 (2): 235-248.

26. Simmatis LE, Jin AY, Taylor SW, Bisson EJ, Scott SH, Baharnoori M. The feasibility of assessing cognitive and motor function in multiple sclerosis patients using robotics. Mult Scler J Exp Transl Clin. 2020; 6 (4): 2055217320964940.

PUBLISHER

Benefits of innovative Exopulse Mollii full-body electric garment intervention on lower limb strength, gait speed, lower back pain, quality of life, and fatigue in a female with multiple sclerosis – a case study

Marcin Kacper Uszynski 1 , Catherine McCarron 1

Marcin Kacper Uszynski

¹

,

Catherine McCarron

¹