Stroke Clinical Trial
— ALPSOfficial title:
Infusing Robot-Assisted Therapy With Motor Learning Principles: An Active Learning Program for Stroke
| NCT number | NCT02747433 |
| Other study ID # | 2015P002107 |
| Secondary ID | |
| Status | Completed |
| Phase | N/A |
| First received | |
| Last updated | |
| Start date | July 2016 |
| Est. completion date | December 2018 |
| Verified date | May 2022 |
| Source | Spaulding Rehabilitation Hospital |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | |
| Study type | Interventional |
Stroke is the leading cause of long-term disability in older adults in the United States. At six months after stroke, up to 65% of the more than 795,000 persons who experience a stroke each year continue to have motor impairments that inhibit functional use of the weaker arm during daily activities and negatively impact quality of life. Rehabilitation robots provide clinicians with new treatment options to improve movement and arm function after stroke. The purpose of this pilot study is to develop and test a therapy called the "Active Learning Program for Stroke" (ALPS). We are combining this therapy program with robot-assisted therapy and a home program for the stroke-affected arm and hand.
| Status | Completed |
| Enrollment | 11 |
| Est. completion date | December 2018 |
| Est. primary completion date | November 10, 2018 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 18 Years to 82 Years |
| Eligibility | Inclusion Criteria: - Moderate UE hemiparesis (i.e. some ability to move shoulder, elbow & hand and initial score on the Fugl-Meyer Assessment (FMA) between 21-50/66)) - Intact cognitive function to understand and actively engage in the ALPS robotic therapy procedures (Montreal Cognitive Assessment Score >/=26/30)12 during initial evaluation visit Exclusion Criteria: - No more than moderate impairments in paretic UE sensation, passive range of motion, and pain that would limit ability to engage in therapy - Increased muscle tone as indicated by score of >/= 3 on the Modified Ashworth Scale; - Hemispatial neglect or visual field loss measured by the symbol cancellation subtest on the Cognitive Linguistic Quick Test 13 - Aphasia sufficient to limit comprehension and completion of the treatment protocol - Currently enrolled or has plans to enroll in other upper limb therapy/research during the study period - Contraindications for robot-assisted therapy including recent fracture or skin lesion of paretic UE |
| Country | Name | City | State |
|---|---|---|---|
| United States | Spaulding Rehabilitation Hospital | Boston | Massachusetts |
| Lead Sponsor | Collaborator |
|---|---|
| Spaulding Rehabilitation Hospital |
United States,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Change From Baseline in Fugl-Meyer Assessment (FMA) - Upper Extremity Subtest | The FMA will examine changes in motor function, pain and sensation in the paretic UE between baseline, post-intervention and 1-month follow-up assessments. The FMA upper extremity subtest contains 33 items, scored as 0= unable, 1=partial ability, 2= faultless with a total possible score of 66 points. Change was calculated as the value at the 1 month follow-up assessment minus the value at baseline to reflect retention of motor function following intervention. | Baseline and 1-month follow-up | |
| Primary | Change From Baseline in Wolf Motor Function Test (WMFT) | The WMFT examined changes in ability to complete timed, functionally-based activities with the paretic UE between baseline, post-intervention and 1-month follow-up assessments. The task rate was calculated as the average # of times that each test item could be completed within 1 minute. Here we report the change in task rate scores between admission and 1 month follow-up assessments to reflect retention of motor function following intervention. A higher number indicates improved task completion. | Baseline and 1-month follow-up | |
| Primary | Change From Baseline on Confidence in Arm and Hand Movement (CAHM) Scale | The CAHM is a self-report assessment in which participants are asked to rate their confidence (0-100%) in successfully using their paretic UE for a variety of everyday activities. Change in confidence ratings between baseline, post-intervention and 1-month follow up assessments were examined. A higher score indicates greater confidence. We report change scores between admission and 1 month follow up assessments to reflect retention of scores following intervention. | Baseline and 1-month follow-up | |
| Secondary | Change From Baseline on Motor Activity Log (MAL) - Amount of Use (AOU) Scale | The MAL has been widely used in stroke rehabilitation studies to measure self-reported amount and quality of paretic arm use during daily activities. Participant's self-reported amount of use (AOU) and how well the task was performed (HW) are rated on a scale from 0=not used at all to 5=as much or as well as before the stroke. Higher scores indicate greater perceived motor function in the paretic arm & hand.
We report change scores in amount of use (AOU) between admission and 1 month follow up assessments to reflect retention of motor function following intervention.. |
Baseline and 1-month follow-up | |
| Secondary | Change From Baseline on Motor Activity Log (MAL) - How Well (HW) Scale | The MAL has been widely used in stroke rehabilitation studies to measure self-reported amount and quality of paretic arm use during daily activities. Participant's self-reported amount of use (AOU) and how well the task was performed (HW) are rated on a scale from 0=not used at all to 5=as much or as well as before the stroke. Higher scores indicate greater perceived motor function in the paretic arm & hand.
We report change scores in how well the function was performed between admission and 1 month follow up assessments to reflect retention of motor function following intervention.. |
Baseline and 1-month follow-up | |
| Secondary | Change From Baseline on Modified Ashworth Scale (MAS) | The MAS examined changes in muscle tone in the paretic UE . Scores range from 0=no increase in muscle tone to 4=affected part(s) rigid in flexion or extension. Tested muscle groups include shoulder internal rotators, elbow flexors/extensors, supinators, pronators, wrist flexors/extensors, finger flexors/extensors. Lower scores indicate better motor function. We present the change scores between admission and 1 month follow up assessments to reflect retention of motor function following intervention. . | Baseline and 1-month follow-up | |
| Secondary | Change From Baseline on Stroke Impact Scale (SIS) - Hand Domain | The SIS measured changes in activity and participation due to stroke. The SIS assesses eight domains including strength, hand function, activities of daily living/instrumental activities of daily living, mobility, communication, emotion, memory & thinking, and participation/role function. A transformed score for each domain is calculated from its raw score and represented by a 100 point scale, with higher scores representing better performance. We report the change in transformed scores for the hand function domain, between admission and 1 month follow up assessments to reflect retention of motor function following intervention. | Baseline and 1-month follow-up | |
| Secondary | Change From Baseline on Stroke Impact Scale (SIS) - Percent Recovery | The SIS measures changes in activity and participation due to stroke. The SIS assesses eight domains including strength, hand function, activities of daily living/instrumental activities of daily living, mobility, communication, emotion, memory & thinking, and participation/role function. A transformed score for each domain is calculated from its raw score and represented by a 100 point scale, with higher scores representing better performance. We report the participants' rating of stroke recovery (how much the participant feels that he/she has recovered from stroke with 0=no recovery, 100=full recovery), between admission and 1 month follow up assessments to reflect retention of motor function following intervention. | Baseline and 1-month follow-up | |
| Secondary | Change From Baseline in Movement Time During Reach-to-Target Task | Participants were asked to reach forward from a designated starting position toward a panel with 12 numbered targets positioned in a clockwise-fashion 20 cm from from its center. The center of the target was aligned with the acromion of the paretic arm and reflective markers were attached to locations on the trunk and paretic arm to allow recording of kinematic data via 3-D motion capture (Vicon Motion Systems Ltd. UK) for off-line analysis. Data from reaching movements to all targets were combined for analysis. We report the median values for Movement Time (sec) for the entire sample at the time of a discharge assessment immediately following the 6-week intervention. | Baseline and immediately after 6-week intervention | |
| Secondary | Change From Baseline in Log Dimensionless Jerk During Reach-to-Target Task | Participants were asked to reach forward from a designated starting position toward a panel with 12 numbered targets positioned in a clockwise-fashion 20 cm from from its center. The center of the target was aligned with the acromion of the paretic arm and reflective markers were attached to locations on the trunk and paretic arm to allow recording of kinematic data via 3-D motion capture (Vicon Motion Systems Ltd. UK) for off-line analysis. Data from reaching movements to all targets were combined for analysis. We report the median values for Log Normalized Jerk, a measure of movement smoothness during reach, for the entire sample at the time of a discharge assessment immediately following the 6-week intervention. | Baseline and immediately after 6-week intervention |
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