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This randomized controlled trial is to determine the effects of robotic hand training in improving upper limb motor function and coordination with and without mental imagery training in chronic stroke patients
The World Health Organization (WHO) defines stroke as a condition marked by the sudden onset of clinical symptoms reflecting a focal or global disturbance in brain function, lasting more than 24 hours or leading to death, with no apparent cause other than a vascular origin. WHO estimates that approximately 15 million people worldwide experience a stroke each year. It continues term disability .Stroke remains a widespread concern in developing nations, but it continues to be largely overlooked. One of the most affected areas following stroke is the impairment of motor skill.
Motor deficits, especially hemiparesis, are frequently seen in stroke survivors and greatly hinder their ability to carry out daily activities, which in turn negatively influences their overall quality of life. Upper limb motor deficits are frequently seen in stroke survivors, with nearly 78% affected. Approximately 50% of them struggle particularly with hand function needed for daily living activities. Compensatory movements are frequently seen during upper extremity tasks, often involving proximal joints compensating for limited distal joint function. Most notable improvements in upper extremity motor function usually take place within the first six months after stroke onset. However, around 65% of stroke survivors continue to experience difficulty using their affected hand during the chronic stage. As a result, restoring upper extremity function especially hand function is crucial for chronic stroke survivors to achieve independence in daily activities.
Previous research has shown that task-oriented training can greatly improve upper extremity motor function, even in individuals with chronic stroke. The task- oriented approach is a functional activity-based method that emphasizes practicing specific tasks repeatedly to improve performance. The task-oriented approach incorporates such functional tasks, making it a practical intervention for patients. This treatment focuses on enhancing motor function by encouraging active use of the affected upper limb because patients use the unaffected side more during arm action, it is necessary to apply therapy to the affected arm.
Another technique used with stroke patients is Mental imagery(MI) /Mental Practice(MP) technique does not require great economic investments and can be performed anywhere, because no special equipment is needed. It is safe, given that the technique can be repeated many times without great physical effort. MI is a technique in which individuals imagine themselves performing physical tasks without any actual movement. Theory suggests that Mental rehearsal of a task activates the similar regions of the brain as activated by physical performance of the same task. Recent research indicates that when MI is combined with physical practice, it can significantly improve the recovery of motor functions. In MI, reactivation occurs when a movement is mentally simulated rather than physically executed, reflecting a voluntary effort. This allows individuals to develop and refine motor skills without actual movement.
Recently, wearable robotic hands have attracted considerable interest as rehabilitation tools in hospitals and therapy centers. These robotic devices help stroke patients perform repetitive hand functions such as opening and grasping. Research has demonstrated that rehabilitation using wearable robotic hands or gloves, which are activated by surface electromyography signals, combining with TOT can improve motor performance and reduce abnormal muscle tone patterns.
This study proposes integrating MI with TOT using soft robotic hand to potentially enhance motor learning and functional recovery by simultaneously engaging both cognitive and sensorimotor pathways. The combination could provide a synergistic effect, maximizing cortical activation and functional gains in stroke survivors with upper limb deficits. By investigating this approach, the study aims to contribute to more effective rehabilitation protocols for improving UL function post-stroke. This combination may lead to faster recovery and better motor performance without extra financial burden. This information can help rehabilitation professionals assess upper limb motor recovery, monitor progress, and develop targeted interventions.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Mental imagery training with Robotic hand training Group | Experimental |
| |
| Robotic hand training | Active Comparator |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Mental imagery training combined with Robotic hand training | Other | Participants will receive combined training of robotic hand-assisted task practice and mental imagery training over 7 weeks, 3 sessions per week, totaling 20 sessions. Each session (~60 minutes) conducted in a quiet room with the patient seated upright (hips, knees, ankles at 90°, forearms on table). Training involves real-life object handling tasks using three grip types:
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| Measure | Description | Time Frame |
|---|---|---|
| Fugl-Meyer Assessment Upper Extremity (FMA-UE). | Evaluate sensorimotor impairment after stroke, especially in the upper limb. 3 Sections, (A) UPPER EXTREMITY
(B) Wrist Stability at 15 dorsiflexion (DF) (Elbow at 90)Repeated (DF) (Elbow at 90) Stability at 15 dorsiflexion (DF) (Elbow at 0) Circumduction (C)Hand Mass Flexion ,Mass Extension GRASP Finger mass flexion /Finger mass extension Thumb adduction ,Opposition, Cylindrical grip ,Spherical grip Normal = Score 0-66 A UE /36 B Wrist /10 C Hand /14 | 6 weeks |
| Action research arm test (ARAT) | The ARAT is an observer-rated, performance-based assessment designed to measure upper extremity function and dexterity, especially after stroke or other cortical injuries. 4 Subscale
| 6 weeks |
| Box and block Test (BBT) | Measures gross manual dexterity and speed Equipment: Wooden box (≈ 53.7 × 25.4 × 8.5 cm) with a partition, plus 150-152 blocks (≈ 2.5 cm cubes) Primary score: Number of blocks successfully transferred in 60 seconds (per hand).Only blocks completely transferred count; dropped blocks are excluded | 6 weeks |
| Measure | Description | Time Frame |
|---|---|---|
| Modified ashworth scale (MAS) | Measure muscle spasticity by assessing resistance during passive soft-tissue stretching. 0-4 Point scale Used to measure spasticity of finger, wrist, elbow Scoring 0,1,1+,2,3,4 | 6 weeks |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Arshad Nawaz Malik, PhD Rehab | Contact | 03334503754 | arshad.nawaz@riphah.edu.pk |
| Name | Affiliation | Role |
|---|---|---|
| Ayesha Umer, MS-NMPT* | Riphah International Unversity | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Railway General Hospital | Recruiting | Rawalpindi | Punjab Province | 44000 | Pakistan |
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| Robotic hand training | Other | Each session included a 5-minute warm-up, followed by three 15-minute EMG-driven, robot-assisted task blocks and two 5-minute breaks. Robotic Hand Tasks include: Real-life object handling using three grip types:
Muscle Monitoring: EMG signals recorded from flexor digitorum, extensor digitorum, biceps brachii, and triceps brachii. Maximum Voluntary Contraction assessed before each session; EMG activation threshold set at 3×SD above baseline. Training Activities will include: Grasping, lifting, holding, transporting, and releasing objects with robotic assistance and verbal guidance. Each 15-minute block included ~30-40 repetitions per task. |
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| ID | Term |
|---|---|
| D020521 | Stroke |
| ID | Term |
|---|---|
| D002561 | Cerebrovascular Disorders |
| D001927 | Brain Diseases |
| D002493 | Central Nervous System Diseases |
| D009422 | Nervous System Diseases |
| D014652 | Vascular Diseases |
| D002318 | Cardiovascular Diseases |
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