Cross Education for Upper Extremity Motor Function and Strength in Stroke

Not Applicable

• Conditions: Stroke
• Interventions: Other: Physiotherapy Training (PT); Device: Cross-Education Intervention; Other: Control Intervention

• Registration Number: NCT06522191
• Lead Sponsor: Istanbul University - Cerrahpasa (IUC)

Brief Summary

Stroke is the leading cause of disability and mortality worldwide. The impact of stroke on the upper extremity functions is a common and important cause of long-term disability. Indeed, six months after the stroke, a considerable amount of patients are still unable to incorporate the affected upper limb into their daily activities. On the other hand, weaknesses are also observed in the "apparently normal" ipsilateral side of the lesion due to the presence of corticospinal fibers that do not cross to the contralateral side of the medulla.

This study aims to investigate the effects of cross-education (CE) using robotic rehabilitation on upper extremity motor function and strength in patients with stroke. Secondary objectives include assessing quality of life and activities of daily living.

Researchers will compare CE using robotic rehabilitation to the control group (CON) that received lower extremity-focused exercises to see if CE works to enhance rehabilitation outcomes.

Participants will receive 20 min, twice weekly CE (to the less affected upper limb) or CON before the RR intervention included in the PT intervention administered 5 days in a week for 5 weeks. They will be evaluated using the relevant outcomes at the beginning and the end of the study (5th week).

Detailed Description

After a stroke, upper extremity strength and skill deficits are predominant on the paretic side. In the chronic phase of stroke, patients with moderate to severe impairment also experience functional deficits on the less affected side, increasing dependence on this extremity during daily living activities. This situation highlights the necessity of incorporating the non-affected side into rehabilitation. Current rehabilitation approaches focus on intensive, highly repetitive, and task-oriented training. The aim within this framework is to induce neuroplasticity in the lesioned hemisphere to promote motor recovery. Techniques such as constraint-induced movement therapy are effective for inducing neuroplastic changes but are not suitable for all patient populations. Therefore, alternative treatment strategies are needed to induce neuroplastic changes in patients with greater upper extremity disability.

As stated above, promoting lesional hemispheric reorganization is crucial for recovery; however, the role of the contralesional motor cortex in recovery remains debated. Rehabilitation strategies must be tailored to the severity of motor impairment in patients. Cross-education (CE) emerges as a novel alternative rehabilitation strategy for individuals with moderate to severe motor impairment on the affected side. CE refers to the improvement in strength or skill in the contralateral limb through unilateral motor training. For stroke patients, this can be defined as gains in the paretic extremity through the training of the less affected side. Two main hypotheses underlie CE: the "cross-activation" and "bilateral access". The cross-activation model posits that unilateral activity stimulates both ipsilateral and contralateral cortical motor areas, whereas the bilateral access model suggests that training one side leads to adaptation in the untrained muscle on the opposite side via communication between motor areas in both hemispheres. Evidence indicates that in stroke patients, the corticospinal excitability of the affected hemisphere increases with CE-induced gains. functional magnetic resonance imaging (fMRI) studies in healthy individuals show that CE results in expanded activation areas in the contralateral sensorimotor cortex and the ipsilesional temporal lobe.

To date, studies on stroke involving CE have included strengthening exercises and task-oriented functional skill training, appearing effective in improving motor function and strength. Studies have shown that strength gains in stroke patients are greater compared to neurologically intact individuals. Robotic rehabilitation has proven effective in improving upper extremity motor functions and strength in stroke patients. However, no studies have investigated CE provided through unilateral robotic rehabilitation. This study aims to evaluate the effect of CE provided by an exoskeleton-type unilateral upper extremity robotic rehabilitation device on upper extremity motor function and strength.

Study Timeline

• Status Verified: 2024-07
• Study First Submitted: 2024-07-22
• Study First Submitted QC: 2024-07-22
• Last Update Submitted: 2024-07-22
• Study Start: 2024-07-24
• Study First Posted: 2024-07-26
• Last Update Posted: 2024-07-26
• Primary Completion: 2025-02-15
• Study Completion: 2025-05-15

Recruitment & Eligibility

• Status: ENROLLING_BY_INVITATION
• Sex: All
• Target Recruitment: 36

Inclusion Criteria

• Chronic stroke more than 3 months of stroke onset
• History of first-ever unilateral ischemic or hemorrhagic stroke
• Upper extremity motor impairment; defined by an upper extremity score ≤42 on the Fugl Meyer upper extremity (FM-UE) assessment.
• No excessive spasticity in the affected arm (Modified Ashworth Scale ≤3)
• Having the ability to communicate and understand instructions (Mini-mental state examination ≥ 24)
• Being able to sit without needing any additional support and without leaning on a backrest

Exclusion Criteria

• Cardiovascular instability (severe, uncontrolled hypertension, coronary artery disease, etc.)
• Other neurological or musculoskeletal problems that can affect upper extremity functions
• Severe upper extremity pain defined as >7 on the Visual Analogue Scale
• Botox injections of the upper extremity within 3 months before enrollment

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Cross-Education (CE) Group	Cross-Education Intervention	Participants in the CE group will receive repetitive task practice through a robotic rehabilitation (RR) device on the less-affected upper extremity for 20 minutes, twice a week, for 5 weeks, in addition to a physical therapy (PT) program provided 5 days a week. This CE training will be conducted prior to the RR sessions performed on the more affected UE within the PT intervention to facilitate cross-education and support motor priming. In this study, RR applications will utilize an intelligent feedback RR system (A2- Guangzhou Yikang Medical Equipment Industrial Co., Ltd., China).
Control Group	Control Intervention	Participants in the control group will be given lower extremity-focused exercises for 20 minutes, twice a week, for 5 weeks before the RR application included in the PT program, in order to eliminate the potential effect of the additional treatment provided in the study.
Cross-Education (CE) Group	Physiotherapy Training (PT)	Participants in the CE group will receive repetitive task practice through a robotic rehabilitation (RR) device on the less-affected upper extremity for 20 minutes, twice a week, for 5 weeks, in addition to a physical therapy (PT) program provided 5 days a week. This CE training will be conducted prior to the RR sessions performed on the more affected UE within the PT intervention to facilitate cross-education and support motor priming. In this study, RR applications will utilize an intelligent feedback RR system (A2- Guangzhou Yikang Medical Equipment Industrial Co., Ltd., China).
Control Group	Physiotherapy Training (PT)	Participants in the control group will be given lower extremity-focused exercises for 20 minutes, twice a week, for 5 weeks before the RR application included in the PT program, in order to eliminate the potential effect of the additional treatment provided in the study.

Primary Outcome Measures

Name	Time	Method
Change Score of Fugl-Meyer Assessment - Upper Extremity (FM-UE)	Baseline, post-intervention (approximately 5 weeks)	We will use the upper extremity subscale of the Fugl-Meyer Assessment (FM-UE), a scale sensitive to therapeutic changes in the post-stroke period, to evaluate motor impairment. The FM-UE assesses movements and reflexes of the shoulder, elbow, forearm, wrist, fingers, ranging from proximal to distal and from synergistic to isolated voluntary movements. There are 33 upper extremity items, and the score ranges from 0 to 66, with higher scores indicating better performance. Each item in the FM-UE is rated on a 3-point ordinal scale (0= cannot perform, 1= performs partially, 2= performs fully). The FM-UE has excellent reliability and validity in stroke patients.
Change Score of Action Research Arm Test (ARAT)	Baseline, post-intervention (approximately 5 weeks)	Upper extremity motor function will be measured by the ARAT. It includes 19 items divided into four subscales (grasp, grip, pinch, and gross movement subscales) that encompass the main aspects of arm and hand use in daily activities, with a total score ranging from 0 to 57, where higher scores indicate better performance. Most items evaluate the ability to grasp objects of different shapes and sizes and move them to various vertical or horizontal positions. Each item is scored on a 4-point scale (0: cannot perform any part of the task; 1: performs the task partially; 2: completes the task but with abnormal movement components or body posture, or the task takes more than 5 seconds but less than 1 minute to complete; 3: completes the task normally within the 5-second time limit). During the assessment, the time taken for the patient to complete each task will be measured using a stopwatch, and the patient will be observed throughout the task to assign a score based on their performance.
Change Score of Isometric Grip Strength	Baseline, post-intervention (approximately 5 weeks)	The isometric hand grip strength of both sides will be measured using a hydraulic hand dynamometer. The participant will be asked to squeeze the dynamometer for a trial attempt. When the participant is ready, they will squeeze the dynamometer with maximum isometric contraction for 5 seconds. The participant should be encouraged to exert maximum effort. The purpose of the trial attempt is to ensure that the participant understands the procedure. After the trial attempt, the participant will be instructed to squeeze as hard as possible. Both sides will be evaluated three times with one-minute rest intervals between each attempt, and the average of the three measurements will be taken. The patient will be in a seated position with the shoulder adducted, elbow flexed at 90°, forearm, and wrist in a neutral position. Support against gravity will be provided as needed to maintain the position.
Change Score of Box and Block Test (BBT)	Baseline, post-intervention (approximately 5 weeks)	The BBT test will be used to measure unilateral gross manual dexterity. It primarily evaluates gross motor function. There are 150 piece 2.5 cm³ blocks in a test box. The patient will be asked to grasp as many cube blocks as possible from the compartment of the side being tested and transfer them one by one over a barrier to the other compartment (horizontal adduction) within one minute. The instruction given to patients is: "I want to see how quickly you can pick up a block with your right (or left) hand and transfer it to the other side, one at a time". The score of the test is determined by the number of blocks correctly transferred to the other compartment within one minute.
Change Score of Isometric Muscle Strength	Baseline, post-intervention (approximately 5 weeks)	To evaluate the maximum isometric muscle strength of the elbow flexors and extensors on both sides, a Lafayette hand dynamometer (Model 01163, Lafayette Instrument Co, Lafayette, Indiana) will be used. In the study, for the assessment of elbow flexor and extensor muscle strength, the patient will be positioned supine with the shoulder, forearm, and wrist in a neutral position (0°), the elbow at 90° flexion, and the fingers in a flexed position. The dynamometer pads will be placed and secured proximally on the radial and ulnar styloid processes to measure elbow flexion and extension strength, respectively. Continuous verbal encouragement will be provided during the test. Patients will be asked to perform a maximum isometric contraction, and a submaximal contraction will be performed before the evaluation to prepare for the assessment. A total of three assessments will be conducted with 30-second rest intervals, and the average of the data (in kg) will be recorded.

Secondary Outcome Measures

Name	Time	Method
Change Score of Stroke Impact Scale (SIS)	Baseline, post-intervention (approximately 5 weeks)	The Turkish version of the SIS 3.0 will be used to evaluate function and health-related quality of life (HRQoL). The questions are based on subjective reports across eight clinically relevant domains. It consists of two parts. The first part is the primary scale of the SIS, which evaluates multidimensional HRQoL, including strength, hand function, activities of daily living (ADL)/ instrumental ADL, mobility, communication, emotion, memory/thinking, and social participation. It comprises 59 items, each scored using a 5-point Likert scale based on the difficulty perceived over the past week. The second part of the SIS includes an assessment of stroke recovery using a scale ranging from 0 to 100 (0: no recovery, 100: full recovery). Each domain score is converted to a score out of 100, and the mean scores of all domains are used to represent the HRQoL. The formula used for converting each domain score is 'Domain Score = \[(actual - possible raw score) / possible raw score range\] x 100'.
Adverse Events	Any adverse event reported during the 5 weeks of intervention protocol.	Any adverse event or near miss is required to be reported.
Change Score of Barthel Index (BI)	Baseline, post-intervention (approximately 5 weeks)	The level of independence in patients' activities of daily living will be determined by the Barthel Index (BI). It consists of ten items assessing mobility and self-care activities of daily living. The scoring range is from 0 to 100; a score range of 0 to 20 represents total dependency; 21 to 61 indicates severe dependency; 62 to 90 indicates moderate dependency; 91 to 99 indicates mild dependency, and a score of 100 represents complete independence.

Trial Locations

Locations (1)

Göztepe Prof. Dr. Süleyman Yalçın Şehir Hastanesi; 🇹🇷 Istanbul, Kadikoy, Turkey