Transcranial Direct Current Stimulation Combined Sensory Modulation Intervention in Chronic Stroke Patients

Not Applicable

Completed

• Conditions: Stroke
• Interventions: Device: tDCS; Drug: sham anesthesia; Drug: Epidermis anesthesia; Other: Repeated passive movement; Device: sham tDCS

• Registration Number: NCT01847157
• Lead Sponsor: National Taiwan University Hospital

Brief Summary

Background and purpose:

About 30% of people with stroke suffered from severe long-term upper extremity （UE） motor impairment. Severe UE impairment, especially dysfunction of hand, can greatly impact stroke patients' daily living independence and quality of life. However, treatment effect of current interventions is still limited. Nick Ward and Leonardo Cohen suggested 5 intervention strategies for stroke motor recovery: （1） reduction of somatosensory input from the intact; （2） increase in somatosensory input from the paretic; （3） anesthesia of a body part proximal to the paretic hand; （4） activity within the affected motor cortex may be up-regulated; （5） activity within the intact motor cortex may be down-regulated. Recent studies have shown each strategy to be effective in stroke patients with mild or moderate UE impairment. However, evidence for people with severe UE impairment after stroke remains unclear. Since research has found a greater effect for combined strategies than a single strategy, this proposal develops a combined intervention with the above 5 strategies, named "transcranial direct current stimulation （tDCS） combined sensory modulation intervention". This intervention is expected to be most effective for people with severe UE impairment after stroke.

In addition, neuroimaging can provide in vivo information about the brain plasticity which underpinning the motor recovery after stroke. However, image indexes that can be used in stroke patients with severe UE impairment remained examined. Therefore, this proposal has 3 aims: （1） to examine the treatment effect of the "tDCS combined sensory modulation intervention" in stroke patients with severe UE impairment; （2） to examine the underline mechanism of the efficacy of "tDCS combined sensory modulation intervention" using neuroimaging technology.

Methods:

This study is a double-blinded randomized controlled trial which will recruit 60 people who have had stroke onset more than 6 months and have severe UE motor impairment. All participants will be randomly assigned into 2 groups. The experimental group will be given the "tDCS combined sensory modulation intervention", combining bilateral tDCS stimulation, anesthesia techniques and repetitive passive motor training. The control group is given sham tDCS, sham anesthesia and repetitive passive motor training. Each group will be evaluated for outcomes at 4 time points （i.e. baseline, post-intervention, 3 months and 6months post-intervention）. The immediate and long-term effect of the interventions will be examined.

Primary outcome indicators include upper extremity impairment measures. Secondary outcome measures include upper extremity function, activities of daily living function, functional Magnetic Resonance Imaging （fMRI）, and corticospinal tract structural integrity using diffusion spectrum imaging （DSI）. Fifteen subjects of each group will be assessed 2 times （i.e., prior to the intervention and after the intervention） for fMRI and DSI scan.

Anticipatory results and contributions:

The results of the studies are expected to present a potentially effective intervention for stroke patients with severe impaired UE motor. Imaging evidence of brain plasticity for this particular intervention is also provided. The results will contribute to our understanding of brain plasticity for UE motor recovery after stroke. Findings from this proposal may help researchers and clinicians choose or develop interventions that are optimal to their clients individually.

Detailed Description

Not available

Study Timeline

• Study Start: 2013-01
• Study First Submitted: 2013-04-22
• Study First Submitted QC: 2013-05-03
• Study First Posted: 2013-05-06
• Primary Completion: 2015-06
• Study Completion: 2015-06
• Status Verified: 2016-02
• Last Update Submitted: 2016-02-16
• Last Update Posted: 2016-02-18

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 25

Inclusion Criteria

1. first ever ischemic or hemorrhagic stroke patients identified by computed tomography (CT) or magnetic resonance imaging (MRI)
2. age between 40 and 80 years old
3. have a stroke over 6 months
4. unilateral hemiplegia
5. Fugl-Meyer assessment-upper extremity (FMA-UE) score≦29 when selection
6. poststroke elbow flexor spasticity less than 2 using modified Ashworth scale (MAS)
7. no severe anesthesia (FMA sensory test, upper extremity score≧10 )
8. no wrist and finger joint pain
9. clear consciousness, can understand simple sentences and spoken orders, and co-operate manipulation
10. can accept motor training in the sitting position for approximately 30 minutes.

Exclusion Criteria

1. Suffer from other orthopedic diseases (such as severe arthritis), nerve damage (such as peripheral nerve damage), or severe pain, which influences upper extremity motor
2. have a medical history or family history of epilepsy
3. regularly take central nervous system drugs (such as sedatives), or the Class III antiarrhythmic drugs (such as amiodarone)
4. have atopic dermatitis or skin disorders of the scalp
5. have allergy to anesthetic medicines of the acyl amine
6. have a metal implant in the head or neck, or serious arrhythmia (the heartbeat is less than 50 beats per minute or higher than 100 beats per minute); or use a pacemaker or atrial defibrillator
7. suffer from congenital or idiopathic methemoglobinemia. Aphasia is not an exclusion criterion, but the patients should understand simple spoken orders.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
tDCS & epidermis anesthesia & repeated passive movement	tDCS	The patients in the experiment group will receive multi-strategy combination treatment mode- "combined tDCS and sensory input regulation treatment mode", including bilateral tDCS , epidermis anesthesia in the proximal hand of affected side and in the distal hand of unaffected side , and repeated passive movement training for the hand of affected side. Treatment modes are 3 times a week, 30 minutes each time, lasting for 8 weeks, and totally 24 trainings. The treatment content of each strategy is separately described in the following.
tDCS & epidermis anesthesia & repeated passive movement	Epidermis anesthesia	The patients in the experiment group will receive multi-strategy combination treatment mode- "combined tDCS and sensory input regulation treatment mode", including bilateral tDCS , epidermis anesthesia in the proximal hand of affected side and in the distal hand of unaffected side , and repeated passive movement training for the hand of affected side. Treatment modes are 3 times a week, 30 minutes each time, lasting for 8 weeks, and totally 24 trainings. The treatment content of each strategy is separately described in the following.
tDCS & epidermis anesthesia & repeated passive movement	Repeated passive movement	The patients in the experiment group will receive multi-strategy combination treatment mode- "combined tDCS and sensory input regulation treatment mode", including bilateral tDCS , epidermis anesthesia in the proximal hand of affected side and in the distal hand of unaffected side , and repeated passive movement training for the hand of affected side. Treatment modes are 3 times a week, 30 minutes each time, lasting for 8 weeks, and totally 24 trainings. The treatment content of each strategy is separately described in the following.
Shame tDCS & sham anesthesia & repeated passive movement	sham tDCS	the control group is "repeated passive movement stimulation", including sham bilateral tDCS, sham epidermis anesthesia in the proximal hand of affected side and in the distal hand of unaffected side, and repeated passive movement training for the hand of affected side. Treatment modes are 3 times a week, 30 minutes each time, lasting for 8 weeks, and totally 24 trainings. The treatment content of each strategy is separately described in the following.
Shame tDCS & sham anesthesia & repeated passive movement	sham anesthesia	the control group is "repeated passive movement stimulation", including sham bilateral tDCS, sham epidermis anesthesia in the proximal hand of affected side and in the distal hand of unaffected side, and repeated passive movement training for the hand of affected side. Treatment modes are 3 times a week, 30 minutes each time, lasting for 8 weeks, and totally 24 trainings. The treatment content of each strategy is separately described in the following.
Shame tDCS & sham anesthesia & repeated passive movement	Repeated passive movement	the control group is "repeated passive movement stimulation", including sham bilateral tDCS, sham epidermis anesthesia in the proximal hand of affected side and in the distal hand of unaffected side, and repeated passive movement training for the hand of affected side. Treatment modes are 3 times a week, 30 minutes each time, lasting for 8 weeks, and totally 24 trainings. The treatment content of each strategy is separately described in the following.

Primary Outcome Measures

Name	Time	Method
Change from baseline Active joint activity after intervention	Assessed at the baseline section (within 3 days ahead to the 1st intervention section), and then again immediately following the 8 weeks intervention (within 3 days after the latest intervention section)	A protractor is used to estimate 4 active joint activities of patients,including wrist extension, carpometacarpal extension, metacarpophalangeal extension, and shoulder flexion.
Change from baseline Fugl Meyer Assessment(FMA)upper extremities subscale after intervention	Assessed at the baseline section (within 3 days ahead to the 1st intervention section), and then again immediately following the 8 weeks intervention (within 3 days after the latest intervention section)	FMA-UE estimates the movement of proximal upper extremity (including shoulder joint, elbow joint and forearm), wrist joint and hand.; Each movement is estimated by 3 scaled rules (0-1-2): score 0 indicates that the patient has no movement at all; score 1 indicates that the patient can perform partial movements; score 2 indicates that the patient can normally perform all movements.; The total score in the differential scale is 66, and a higher score indicates that the patient has better movement ability.
Change from baseline Muscle tone after intervention	Assessed at the baseline section (within 3 days ahead to the 1st intervention section), and then again immediately following the 8 weeks intervention (within 3 days after the latest intervention section)	Motor assessment scale (MAS) is used to estimate muscle tension in patients, and the estimated muscles include the flexors and extensors of elbow, wrist and metacarpophalangeal joints.; MAS is totally divided into 6 scales (0, 1, 1+, 2, 3, 4), and a higher score indicates that the patient has higher muscle tension.

Secondary Outcome Measures

Name	Time	Method
Change from baseline research arm test (ARAT) after intervention	Assessed at the baseline section (within 3 days ahead to the 1st intervention section), and then again immediately following the 8 weeks intervention (within 3 days after the latest intervention section)	ARAT measures 4 upper extremity functions, including grasp, grip, pinch, and gross motor. It includes 19 items using 4-point scale (0-1-2-3). Total score is 57.A higher score indicates that the patient has higher upper extremity function.
Change from baseline Diffusion Spectrum Imaging after intervention	Assessed at the baseline section (within 7 days ahead to the 1st intervention section), and then again immediately following the 8 weeks intervention (within 7 days after the latest intervention section).	3T Siemens whole body nuclear magnetic resonance imaging system (Trio, Siemens, Erlangen, Germany) with 32-channel phase-array head coil is utilized to collect image information.; Patients are asked to lie down and keep relax on the scanning table for 20 minutes. This instrument does not have any invasive risk.; Patients' corticospinal tract structural integrity will be analyzed after imaging preprocessing.
Change from baseline research arm test (ARAT) at 3 months after intervention	Assessed at 3 months after intervention	ARAT measures 4 upper extremity functions, including grasp, grip, pinch, and gross motor. It includes 19 items using 4-point scale (0-1-2-3). Total score is 57.A higher score indicates that the patient has higher upper extremity function.
Change from baseline Patient Health Questionnaire (PHQ-9) at 3 months after intervention	Assessed at 3 months after intervention	PHQ-9 is used to evaluate patients' depressive symptoms. PHQ-9 includes 9 items, using 4-point scale (0-1-2-3) to estimate the appearance frequency of each depressive symptom. Total possible scores range from 0 to 27, and a higher score indicates a higher appearance frequency of melancholic symptoms.
Change from baseline Patient Health Questionnaire (PHQ-9) at 6 months after intervention	Assessed at 6 months after intervention	PHQ-9 is used to evaluate patients' depressive symptoms. PHQ-9 includes 9 items, using 4-point scale (0-1-2-3) to estimate the appearance frequency of each depressive symptom. Total possible scores range from 0 to 27, and a higher score indicates a higher appearance frequency of melancholic symptoms.
Change from baseline Fugl Meyer Assessment(FMA)upper extremities subscale at 6 months after intervention	Assessed at 6 months after intervention	FMA-UE estimates the movement of proximal upper extremity (including shoulder joint, elbow joint and forearm), wrist joint and hand.; Each movement is estimated by 3 scaled rules (0-1-2): score 0 indicates that the patient has no movement at all; score 1 indicates that the patient can perform partial movements; score 2 indicates that the patient can normally perform all movements.; The total score in the differential scale is 66, and a higher score indicates that the patient has better movement ability.
Change from baseline Active joint activity at 6 months after intervention	Assessed at 6 months after intervention	A protractor is used to estimate 4 active joint activities of patients,including wrist extension, carpometacarpal extension, metacarpophalangeal extension, and shoulder flexion.
Change from baseline Barthel Index(BI) after intervention	Assessed at the baseline section (within 3 days ahead to the 1st intervention section), and then again immediately following the 8 weeks intervention (within 3 days after the latest intervention section)	Barthel Index with total possible scores ranging from 0 to 20 is utilized to estimate patients' basic functions in daily life. It has 10 items. Higher scores indicate higher independence in daily life.
Change from baseline Patient Health Questionnaire (PHQ-9) after intervention	Assessed at the baseline section (within 3 days ahead to the 1st intervention section), and then again immediately following the 8 weeks intervention (within 3 days after the latest intervention section)	PHQ-9 is used to evaluate patients' depressive symptoms. PHQ-9 includes 9 items, using 4-point scale (0-1-2-3) to estimate the appearance frequency of each depressive symptom. Total possible scores range from 0 to 27, and a higher score indicates a higher appearance frequency of melancholic symptoms.
Change from baseline fMRI activation after intervention	Assessed at the baseline section (within 3 days ahead to the 1st intervention section), and then again immediately following the 8 weeks intervention (within 3 days after the latest intervention section)	3T Siemens whole body nuclear magnetic resonance imaging system (Trio, Siemens, Erlangen, Germany) with 32-channel phase-array head coil is utilized to collect image information.; Patients put left and right hands in left and right pneumatic 10-finger stimulators (Mag Design and Engineering, USA), respectively. This instrument does not have any invasive risk.
Change from baseline research arm test (ARAT) at 6 months after intervention	Assessed at 6 months after intervention	ARAT measures 4 upper extremity functions, including grasp, grip, pinch, and gross motor. It includes 19 items using 4-point scale (0-1-2-3). Total score is 57.A higher score indicates that the patient has higher upper extremity function.
Change from baseline Barthel Index(BI) at 3 months after intervention	Assessed at 3 months after intervention	Barthel Index with total possible scores ranging from 0 to 20 is utilized to estimate patients' basic functions in daily life. It has 10 items. Higher scores indicate higher independence in daily life.
Change from baseline Barthel Index(BI) at 6 months after intervention	Assessed at 6 months after intervention	Barthel Index with total possible scores ranging from 0 to 20 is utilized to estimate patients' basic functions in daily life. It has 10 items. Higher scores indicate higher independence in daily life.
Change from baseline Active joint activity at 3 months after intervention	Assessed at 3 months after intervention	A protractor is used to estimate 4 active joint activities of patients,including wrist extension, carpometacarpal extension, metacarpophalangeal extension, and shoulder flexion.
Change from baseline Fugl Meyer Assessment(FMA)upper extremities subscale at 3 months after intervention	Assessed at 3 months after intervention	FMA-UE estimates the movement of proximal upper extremity (including shoulder joint, elbow joint and forearm), wrist joint and hand.; Each movement is estimated by 3 scaled rules (0-1-2): score 0 indicates that the patient has no movement at all; score 1 indicates that the patient can perform partial movements; score 2 indicates that the patient can normally perform all movements.; The total score in the differential scale is 66, and a higher score indicates that the patient has better movement ability.
Change from baseline Muscle tone at 3 months after intervention	Assessed at 3 months after intervention	Motor assessment scale (MAS) is used to estimate muscle tension in patients, and the estimated muscles include the flexors and extensors of elbow, wrist and metacarpophalangeal joints.; MAS is totally divided into 6 scales (0, 1, 1+, 2, 3, 4), and a higher score indicates that the patient has higher muscle tension.
Change from baseline Muscle tone at 6 months after intervention	Assessed at 6 months after intervention	Motor assessment scale (MAS) is used to estimate muscle tension in patients, and the estimated muscles include the flexors and extensors of elbow, wrist and metacarpophalangeal joints.; MAS is totally divided into 6 scales (0, 1, 1+, 2, 3, 4), and a higher score indicates that the patient has higher muscle tension.

Trial Locations

Locations (1)

National Taiwan University Hospital; 🇨🇳 Taipei, Taiwan