Vibration Approach Functions in Upper Extremities for People After Stroke

Background: Stroke not only results in brain injury, muscle weakness, impairment of perception, and motor and functional impairments, but also leads to limited activities and long-term disabilities. Vibration exercise can improve muscle strength and motor performances in older adults. However, consistent and evidence-based benefits of vibration on neurorehabilitation for people after stroke are still limited. Therefore, vibration exercises cannot be applied effectively to improve motor, perception, and functional impairments in people after stroke. Therefore, the purpose of this study is to investigate the effects of vibration approach on improving motor, perception and functions in extremities for people after stroke. Methods: 124 stroke patients will be invited to participate in this study, and randomized assign to vibration training (n=62) and traditional rehabilitation(n=62) groups. The participants in vibration training and traditional rehabilitation groups will conduct the vibration program and traditional rehabilitation program for 60 mins in each section, 2 sections per week for eight weeks. The outcome measurements for motor, perception and functions in extremities, including the Fugl-Meyer Assessment (FMA), Motor Assessment Score (MAS), Minnesota Manual Dexterity Test (MMDT), active and passive joint perception tests, coordination control tasks in bilateral hand grip strength and bilateral ankle movement, Barth Index (BI), Wlof Motor Function Test (WMFT), Berg Balance Test (BBS), Time Up and Go (TUG) and gait analysis. Preliminary findings: Our team indicated that vibrations between 15 Hz - 45 Hz from a vibrator can significantly induce upper-limb muscle activity. Horizontal and vertical vibrations result in stronger upper-limb flexor and extensor muscle activations, respectively. Our results also showed that after the 8-week vibration intervention (frequency: 30 Hz, amplitude: 5 mm), participants in the vibration group had better muscle strength than those who received conventional physical exercise. Data analysis: In this study, a blind statistical expert will be invited to present the basic data of the subjects with descriptive statistics. If the data attribute is continuous variation, the Mann-Whitney U test (Mann-Whitney U test) will be used for comparison between the two groups; if the data attribute is categorical variation, the Chi-square test will be used for comparison between the two groups. As for the differences in movement, body sensation and function between the two groups before and after the intervention, two-way mixed analyzes of variance (ANOVA) will be used for statistical analysis. The statistical software used in the study is SPSS version 17.0. Statistically significant differences were set at p<0.05.