Author(s)

Peirong Chen ¹

Affiliation(s)

¹ Clinical Medicine (Internal Medicine), Dayang Town Health Center, Tai'an City, Shandong Province, China

Corresponding Author

Peirong Chen

ABSTRACT

Stroke is a common and multiple acute cerebrovascular disease in clinical practice, with high morbidity, high disability rate and high mortality rate. According to statistics, the incidence of stroke is about 0.2%, of which 75% of patients would develop hemiplegia. This article takes stroke patients with hemiplegia as the research object to explore the effect of rehabilitation training within five months. In the analysis of the algorithm applied to the exoskeleton robot, the interaction force between the human leg and the exoskeleton is maintained at a level of 45N to 65N, with a maximum of 64N, without actively participating in the rehabilitation training. The interaction force between the leg and the exoskeleton is maintained at a level of 23 N to 35 N, with a maximum of 35 N. After active participation in rehabilitation training, the interaction force between the legs and the exoskeleton increased significantly, reaching 27 N to 39 N, with a maximum of 39 N. Therefore, it is very necessary to use exoskeleton robots for rehabilitation training.

KEYWORDS

Clinical Analysis of Rehabilitation Therapy, Neurological Function, Stroke Hemiplegia, Exoskeleton Robot

CITE THIS PAPER

Peirong Chen, Clinical Analysis of Five-month Neurological Function Rehabilitation in Stroke Patients with Hemiplegia. MEDS Clinical Medicine (2025) Vol. 6: 8-17. DOI: http://dx.doi.org/10.23977/medsc.2025.060202.

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