Stroke Clinical Trial
Official title:
Effect of Task-oriented Training Assisted by Force Feedback Hand Rehabilitation Robot on Finger Function in Stroke Patients With Hemiplegia
NCT number | NCT05841108 |
Other study ID # | 20220101 |
Secondary ID | |
Status | Recruiting |
Phase | N/A |
First received | |
Last updated | |
Start date | May 4, 2023 |
Est. completion date | November 10, 2023 |
Over eighty percent of stroke patients experience finger-grasping dysfunction problems, compromising independence in daily life activities and quality of life. In routine training, task-oriented training is usually used for functional training of the hand, which may improve the finger grasping performance after stroke, whereby augmented therapy may lead to a better treatment outcome. Technology-supported training holds opportunities for increasing training intensity. However, most of the hand rehabilitation robots commonly used in the clinic are based on passive training mode and lacks the sensory feedback function of fingers, which is not conducive to patients completing more accurate grasping movements. The force feedback hand rehabilitation robot can make up for the above defects, but its clinical efficacy in stroke patients are not known to date. The aim of the present study was to investigate the effectiveness and added value of the force feedback hand rehabilitation robot combined with task-oriented training for stroke patients with hemiplegia.
Status | Recruiting |
Enrollment | 44 |
Est. completion date | November 10, 2023 |
Est. primary completion date | November 10, 2023 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 20 Years to 80 Years |
Eligibility | Inclusion Criteria: - First-ever stroke - Aged 20~80 years old - Post-stroke time=6 months - Clinically diagnosed with a central paresis of the right arm/hand (Brunnstrom stage of the affected upper limb=II, Brunnstrom stage of the affected hand II~V, Active flexion range of motion of the affected finger joint=10°, MAS of affected upper limb and finger=1+ - Sitting balance=Level 2 - No serious depression and no visual impairment - Cognitive and speech abilities sufficient to understand instructions and to provide informed consent Exclusion Criteria: - Severe additional neurological, orthopedic, or rheumatoid impairments before stroke which could interfere with task performance - Sensory disturbance of fingers - Severe joint pain caused by various reasons affects the functional activities of fingers - Complicated with serious heart, lung, liver, kidney or infection - Attending another study or therapy to improve arm-hand function |
Country | Name | City | State |
---|---|---|---|
China | First hospital of Jilin University | Changchun |
Lead Sponsor | Collaborator |
---|---|
The First Hospital of Jilin University |
China,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Fugl-Meyer motor function assessment-upper limb finger motor part | Fugl-meyer motor function assessment-upper limb (FMA-UL) has been found a reliable and valid test for the assessment of arm hand function in stroke patients. The maximum score of on the FMA-UL is 66 points. This study used FMA-UL finger motor part , with a total score of 14 points. | Change from baseline Fugl-Meyer motor function assessment-upper limb finger motor part score at 4 weeks | |
Secondary | Modified Ashworth scale (MAS) | The Modified Ashworth scale (MAS) was used to rate muscle tone/stiffness during passive movement of the flexors of the fingers. The scale ranges from '0 = normal','1','1+','2','3', and '4= worst'. Participants were assessed in all sessions using this 6-point ordinal scale for the hand treated in the study | Change from baseline Modified Ashworth scale outcome at 4 weeks | |
Secondary | Range of motion (ROM) | Range of motion (ROM) was measured with a goniometer. This study measures ROM of each finger, sum of five fingers flexion ROM, sum of five fingers extension ROM and total ROM of the five fingers. The ROM of each finger is the difference between the total ROM of each finger joint in the extension position and the total ROM of each finger joint in the flexion position. The sum of five finger flexion ROM is the sum of 14 finger joint flexion ROM. The sum of five finger extension ROM is the sum of 14 finger joint extension ROM. The total ROM of the five fingers is the difference between the total ROM of the extension position and the total ROM of the flexion position. The goniometer is used to measure the AROM of the affected hand first, and then the PROM. | Change from baseline range of motion outcome at 4 weeks | |
Secondary | grip strength | Grip strength of the dominant hand was tested using an isometric hand dynamometer in the testing position recommended by American Society of Hand Therapists(ASHT). Participants gripped the dynamometer as hard as possible once without any jerking. The best score out of three consecutive trials was used for analyses. Sufficient time was allowed for the participants to recover from any fatigue related to grip testing | Change from baseline grip strength at 4 weeks | |
Secondary | Brunnstrom recovery stages of hand (BRS-H) | Brunnstrom recovery stages of hand (BRS-H) classifies the motor function into 6 levels based on recovery stages from a flaccid limb to near-normal and normal movement and coordination. Higher levels indicate better motor function. This study, the I-VI levels of the motor function were assigned with a score from 1 to 6. | Change from baseline brunnstrom recovery stages of hand at 4 weeks | |
Secondary | Barthel index (BI) | Barthel index contains 10 items and has a score range from 0 to 100, was used to assess activity and participation | Change from baseline barthel index at 4 weeks |
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