Subacute Stroke Clinical Trial
Official title:
Efficacy of Unilateral Versus Bilateral Approach to Robot-Assisted Rehabilitation on Motor Control/Performance, Daily Functions, and Physiological Responses in Patients With Subacute Stroke
| Verified date | June 2016 |
| Source | Chang Gung Memorial Hospital |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | |
| Study type | Interventional |
Robot-assisted training (RT) devices developed to date have a significant impact on stroke
rehabilitation. Several research groups have developed the robotic devices and examined
their efficacy on improving UL function after stroke. All these robotic devices have been
applied in stroke rehabilitation and their efficacy are evaluated, but the scientific
evidence for the mechanisms of RT-induced recovery, the relative treatment effects of
unilateral vs bilateral robotic trainings, and the impact on physiological responses is
still lacking.
The primary purposes of this study are to examine (1) the relative immediate treatment
effects of unilateral vs bilateral RT on motor impairments/performance and daily functions
in patients with subacute stroke; (2) the long-term benefits of unilateral vs bilateral RT
by conducting a 6-month follow up evaluation; and (3) the effects of RT on movement
reorganization as well as on the physiological markers of inflammation, oxidative stress,
erythrocyte deformability, and blood glucose. These overall findings will help better
understanding of the efficacy of RT on functional outcomes, movement reorganization, and
physiological markers. The investigators would additionally explore the possible
differential treatment effects in patients with different levels of motor severity (i.e.,
moderate vs. severe).
The investigators hypothesize that (1) both unilateral (the InMotion3) and bilateral (the
Bi-Manu-Track) robot-assisted training would bring larger benefits on motor performance and
daily function than the control treatment; (2) such benefits would retain during the
follow-up; (3) there would be differential immediate and retention effects of unilateral
(the InMotion3) and bilateral (the Bi-Manu-Track) robot-assisted training on different
outcome measures; (4) better movement reorganization as well as physiological marker
expressions would be found in both robotic groups compared to control group; and (5) there
would be differential effects of robotic therapy between participants with moderate vs.
severe motor impairment.
| Status | Withdrawn |
| Enrollment | 0 |
| Est. completion date | February 20, 2017 |
| Est. primary completion date | February 20, 2017 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 20 Years to 75 Years |
| Eligibility |
Inclusion Criteria: - first episode of stroke in cortical regions - time since stroke less than 6 months and more than 2 weeks, i.e., subacute stage - initial motor part of UE of FMA score ranging from 24 to 52, indicating moderate to severe movement impairment - no serious cognitive impairment (i.e., Mini Mental State Exam score > 24) Exclusion Criteria: - aphasia that might interfere with understanding instructions - chronic inflammatory, autoimmune and hematological disorders - intake of anti-inflammatory drugs - major health problems or poor physical conditions that might limit participation - current participation in any other research |
| Country | Name | City | State |
|---|---|---|---|
| Taiwan | Chang Gung Memorial Hospital | Kwei-Shan | Tao-Yuan |
| Lead Sponsor | Collaborator |
|---|---|
| Chang Gung Memorial Hospital |
Taiwan,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Change of Kinematic analysis | The kinematic analysis will involve unilateral and bilateral tasks, in which the participants will be asked to perform by using the affected upper limb or both upper limb simultaneously. A motion analysis system with 7 cameras (VICON MX 30d, Oxford Metrics Inc., Oxford, UK) will be used to capture the motion of arm (s) in kinematic testing. The markers will be attached on the styloid processes of the ulna. Depending on the unilateral or bilateral tasks, the makers will be placed on the affected arm or the both arms, respectively. | Change from baseline in kinematic analysis immediately after the completion of intervention | |
| Primary | Changes of Fugl-Meyer Assessment (FMA) | The UE part of FMA will be used to evaluate sensorimotor impairment (Fugl Meyer et al., 1975). The motor part consists of 33 items for the reflexes and movement of shoulder, elbow, forearm, wrist, hand, and coordination/speed. Each item is scored on a scale of 0-2 with a maximum of 66 for the motor part. Higher score indicates a better reduction of motor impairment of UE. Satisfactory psychometric characteristics of FMA have been demonstrated (Hsueh & Hsieh, 2002; Platz et al., 2005). | Change from baseline in Fugl-Meyer Assessment immediately after the completion of intervention and at a 6-month follow-up | |
| Primary | Changes of Modified Ashworth Scale (MAS) | The MAS is the most frequently used clinical rating scale to measure muscle spasticity. This measure involves manually moving a limb through the range of motion (ROM) to passively stretch specific muscle groups. The grades of spasticity in MAS are as follows: 0 = No increase in muscle tone; 1 = Slight increase in muscle tone, manifested by a catch and release or by minimal resistance at the end of the range of motion when the affected part(s) is(are) moved in flexion or extension; 1+ = Slight increase in muscle tone, manifested by a catch, followed by minimal resistance throughout the remainder (less than half) of the ROM; 2 = More marked increase in muscle tone through most of the ROM, but affected part(s) easily moved; 3 = Considerable increase in muscle tone, passive movement difficult; 4 = Affected part(s) rigid in flexion or extension (Bohann & Smith, 1987). | Changes from baseline in Modified Ashworth Scale immediately after the completion of intervention and at a 6-month follow-up | |
| Primary | Changes of MyotonPRO | The Myoton is a hand-held device measure of three mechanical properties of muscle: tone, stiffness and elasticity (Viir et al., 2007). In this study, MyotonPRO will be mainly used to assess muscle tone of the arm. Muscle tone is characterized by the parameter in the Myoton: F - Frequency, Hz. The basic principle is the same in all prototypes but the MyotonPRO has several updates such as a triaxial accelerometer. MyotonPRO is more feasible than the earlier prototypes for application (Korhonen, Vain, Vanninen, Viir, & Jurvelin, 2005; Vain & Kums, 2002). | Changes from baseline in MyotonPRO immediately after the completion of intervention and at a 6-month follow-up | |
| Primary | Changes of Medical Research Council scale (MRC) | The muscle power of the affected arm will be examined by the MRC scale (Medical Research Council, 1976). The MRC Scale is reliable measurement with score ranged from 0 (no contraction) to 5 (normal power) (Gregson et al., 2000). The muscle strength of shoulder flexors/abductors, elbow flexors/extensors, wrist flexors/extensors, and finger extensors will be graded by the scale in this study. | Changes from baseline in Medical Research Council scale immediately after the completion of intervention and at a 6-month follow-up | |
| Primary | Changes of the Jamar dynamometer | The Jamar dynamometer is a standard, accurate, adjustable-handle tool specifically for measuring grip strength (Mathiowetz, Weber, Volland, & Kashman, 1984). Patients will sit with their shoulder adducted and neutrally rotated, elbow flexed at 90°, forearm in neutral position, and wrist between 0° and 30° dorsiflexion and between 0° and 15° ulnar deviation. Patients will be asked to perform tasks under the unilateral and bilateral conditions. In the unilateral condition, patients will be asked to exert only with one hand (affected or "unaffected"); in the bilateral condition, patients will be asked to exert with both hands. Three trials will be taken at each assessment, and the average of three trials will be documented. | Changes from baseline in the Jamar dynamometer immediately after the completion of intervention and at a 6-month follow-up. | |
| Primary | Changes of Action Research Arm Test (ARAT) | ARAT will be used to assess the motor function of UE. A total of 19 items are to test the movement of grasp, grip, pinch, and gross motor, with a scale of 0-3 for each item (maximal of 57). Higher score refers to better motor function of UE. The ARAT has been found to have good psychometric properties (Hsueh & Hsieh, 2002). | Changes from baseline in Action Research Arm Test immediately after the completion of intervention and at a 6-month follow-up | |
| Primary | Changes of Motor Activity Log (MAL) | MAL will be used to capture the level of use of affected UE in daily living. The MAL is a semi-structured interview assessing the amount of use (AOU) and quality of movement (QOM) of the affected arm in 30 main daily activities. It scores 0-5 for each activity. Higher score means better performance of affected arm. Study has demonstrated that MAL is an instrument with good internal consistency, interrater reliability, and construct validity (Uswatte et al., 2006). | Changes from baseline in Motor Activity Log immediately after the completion of intervention and at a 6-month follow-up | |
| Primary | Changes of ABILHAND Questionnaire | The ABILHAND Questionnaire will be used to evaluate the ability of UE in functional activities. There are 23 bimanual activities to measure subjectively perceived difficulty in performing some common activities in daily living, such as buttoning, cutting nails, and opening a bottle (Penta, Tesio, Arnould, Zancan, & Thonnard, 2001). It scores on a scale of 0-3 (0-cannot perform, 1-performs partially or with great difficulty, 2-performs with some difficulty, 3-performs fully). Its reliability and construct validity has been confirmed (Penta et al., 2001). | Changes from baseline in ABILHAND Questionnaire immediately after the completion of intervention and at a 6-month follow-up | |
| Primary | Change of Accelerometers | This measure, quantitatively recording the amount of activity in free-living conditions, will be used to reflect the change in the amount of affected arm use over time. The participants will be asked to wear an accelerometer on each arm for 3 consecutive days to measure what they actually do before and immediately after treatment. In this project, acceleration will be sampled at 10 Hz and summed over a user-specified epoch. The recording epoch in this study will be 2 seconds; recording capacity will be approximately 72 hours. A "threshold-filter" will be applied to the raw recordings to obtain an accurate measure of the duration of arm movement. The ratio of the duration of the affected to the non-affected arm movement, used in this study, is a reliable and valid real-world measure of upper limb treatment outcome (Uswatte et al., 2006). | Change from baseline in accelerometers immediately after the completion of intervention | |
| Primary | Changes of Adelaide Activities Profile (AAP) | AAP will be applied to indicate the level of participation in household and community activities. This profile includes 21 activities in the four areas: domestic chores, household maintenance, service to others, and social activities. It scores on a scale of 0-3, with higher point meaning more frequent participation. The AAP is found to have good validity and reliability (Bond & Clark, 1998). | Changes from baseline in Adelaide Activities Profile immediately after the completion of intervention and at a 6-month follow-up | |
| Secondary | Change of inflammatory markers | Proinflammatory markers and anti-inflammatory markers will be used to reflect the changes on inflammation. Proinflammatory markers include C-reactive protein, tumor necrosis factor-a (TNF-a), interleukin (IL)-1ß, IL-6, soluble intercellular adhesion molecule (sICAM), and matrix metalloproteinase 9 (MMP 9). Anti-inflammatory markers include IL-10 and IL-1 receptor antagonist. | Change from baseline in inflammatory markers immediately after the completion of intervention | |
| Secondary | Change of oxidative stress markers | Oxidative stress markers and antioxidative markers will be used to reflect the changes on oxidative stress. Oxidative stress makers include malondialdehyde (MDA), 8-Hydroxy-2-deoxyguanosine (8-OHdG), and immunoglobulin G (IgG), whereas antioxidants include superoxide dismutase (SOD), glutathione peroxidase (GPx), and catalase. | Change from baseline in oxidative stress markers immediately after the completion of intervention | |
| Secondary | Change of erythrocyte deformability | The Elongation Index (EI) will be used to determine the RBC deformability, which is based on an isointensity curve in the diffraction pattern by using an ellipse-fitting program. EI is calculated by (L-W)/(L+W), where L and W are the major and minor axes of the ellipse, respectively. The deformability index (d) is defined as the ratio of the major to the minor axis length (L/W) (Shin, Ku, Park, & Suh, 2005). | Change from baseline in erythrocyte deformability immediately after the completion of intervention | |
| Secondary | Change of blood glucose indicators | Recent research indicates that the blood glucose levels of patients were significantly associated with stroke severity and functional outcomes after stroke (Hu et al., 2012; Martin, Ratan, Reding, & Olsen, 2012; Wu et al., 2012). To investigate the relationships between blood glucose levels and functional outcomes, we will also test the level of glucose and HbA1C for the participants before and after rehabilitation intervention. | Change from baseline in blood glucose indicators immediately after the completion of intervention |
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