Stroke Clinical Trial
Official title:
Enriched Environments for Stroke Rehabilitation; Pilot Study to Determine Appropriate Outcome Measures and Their Sensitivity to Different Training Protocols
| Verified date | July 2011 |
| Source | Sheba Medical Center |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | Israel: Ministry of Health |
| Study type | Interventional |
Stroke contributes significantly to the incidence of disabilities, with upper limb (UL)
motor impairment being especially prevalent. Animal studies suggest that post-stroke motor
recovery is largely attributable to adaptive plasticity in brain motor areas. While some
environmental training factors contributing to plastic mechanisms have been identified in
animals, translation of this knowledge to the clinical setting is insufficient. Optimal
recovery may be related to both external (e.g., feedback type) and internal factors (e.g.,
cognitive ability, motivation). Clinically feasible methods for training are needed. Use of
enriched virtual environments (VEs) may provide a way to address these needs. Outcome
measures that best reflect recovery need to be identified since this is an essential step to
evaluate the effect of novel training programs for UL motor recovery in stroke.
The research question is which clinical and kinematic outcome measures best reflect motor
performance recovery after a targeted upper limb treatment intervention. Aim 1 is to compare
changes in outcome measures recorded before and after an upper limb intervention in stroke
subjects to motor performance in healthy subjects. Aim 2 is to determine motor performance
between-group differences sample size is based on knowledge of expected outcome measure mean
score differences between groups. Hypothesis. 1: Specific clinical and kinematic outcome
measures will be sensitive to within-group (pre-post intervention training) changes.
Hypothesis. 2: Specific clinical and kinematic outcome measures will be sensitive to
between-group (healthy vs. patients in enriched vs. conventional intervention groups.
Sixteen chronic stroke survivors and 8 age- and sex-matched healthy controls will
participate. Patients will be matched on cognitive and motor impairment levels and divided
into two groups. Using an single subject (A-B-A) research design, kinematics during two
pre-tests, 3 weeks apart, will be recorded for test-retest reliability. Stroke groups will
practice varied upper limb reaching movements (15 45-minute sessions in 3 weeks) in
environments providing different motivation/feedback levels. Pre- and post motor performance
evaluations will be done with clinical tests and a Test Task with specific motor performance
requirements. A Transfer Task will also be recorded. By comparing data analysis methods
(3-Dimensional (3D) analysis of different markers or placements), the investigators will
identify which kinematic outcome measures best reflect motor improvement in post-test and
follow-up sessions (retention).
The expected results are identification of two primary and two secondary outcome measures
that reflect upper limb motor recovery and can distinguish between motor recovery and
compensation. The results will be used to design a randomized control trial to determine the
efficacy of VE-based treatment on arm motor recovery. The goal is to determine how extrinsic
(environmental) and intrinsic (personal) motivational factors affect motor learning in
stroke survivors with cognitive and physical impairment. Knowledge gained can also be used
for rehabilitation of other neurological and orthopedic pathologies.
| Status | Completed |
| Enrollment | 12 |
| Est. completion date | June 2010 |
| Est. primary completion date | January 2010 |
| Accepts healthy volunteers | Accepts Healthy Volunteers |
| Gender | Both |
| Age group | 30 Years to 80 Years |
| Eligibility |
Inclusion Criteria for patients wth stroke: 1. Age 40-80 years 2. sustained a single stroke between 3-24 months prio t study leading to upper limb paresis 3. have at least Stage 3/7 arm control (mild to moderate motor deficits) on the Chedoke-McMaster Scale. 4. <81 yrs old to minimize confounding effects of age-related changes in sensorimotor functions Exclusion Criteria for patients wth stroke: 1. other neurological or orthopaedic problems that may interfere with interpretation of results 2. significant deficits in attention, constructional skills, neglect and apraxia 3. shoulder subluxation, arm pain 4. lack of endurance as judged by a physician 5. undergoing other therapy, surgery or medical procedures within the study period. Inclusion Criteria for healthy control subjects: 1. Age 40-80 years Exclusion Criteria for control subjects: 1. any neurological or orthopaedic problems that may interfere with interpretation of results. |
Allocation: Randomized, Intervention Model: Parallel Assignment, Masking: Single Blind (Subject), Primary Purpose: Treatment
| Country | Name | City | State |
|---|---|---|---|
| Israel | Sheba Medical Center | Ramat Gan |
| Lead Sponsor | Collaborator |
|---|---|
| Sheba Medical Center | Ministry of Health, Israel |
Israel,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Post test Wolf Motor Function Test | Wolf Motor Function Test (WMFT; Wolf et al., 1989) assessed upper limb motor function (quality and speed) on 15 functional tasks scored on 6-point (0-5) scales as well as 2 strength (grip strength and resistance while lifting or moving weighted objects) measures (Wolf et al., 2001). The tasks are arranged in order of increasing complexity and progress from proximal to distal joint involvement. The WMFT has high interrater (Interclass Correlation Coefficient =0.97-0.99), as well as test-retest reliability (0.90 for performance time and 0.95 for performance quality). | Change from baseline after 3 week treatment intervention | No |
| Primary | Follow-up Wolf Motor Function Test | Wolf Motor Function Test (WMFT; Wolf et al., 1989) assessed upper limb motor function (quality and speed) on 15 functional tasks scored on 6-point (0-5) scales as well as 2 strength (grip strength and resistance while lifting or moving weighted objects) measures (Wolf et al., 2001). The tasks are arranged in order of increasing complexity and progress from proximal to distal joint involvement. The WMFT has high interrater (Interclass Correlation Coefficient =0.97-0.99), as well as test-retest reliability (0.90 for performance time and 0.95 for performance quality). | Change from baseline 4 weeks after end of treatment intervention | No |
| Secondary | Post test Fugl-Meyer Arm Scale | Fugl-Meyer Arm Scale (FMA; Fugl-Meyer, 1975) was developed to assess active motor function after stroke, based on the stages of recovery described by Twitchell and Brunnstrom (Sanford et al., 1993). Movements are scored between 0-2 points, and the summary score ranges from 0 (complete paralysis) to 66 (full ROM). The assessment has high validity (Berglund and Fugl-Meyer 1986) and reliability (Duncan et al. 1983) composite test-retest = 0.98-0.99; Interclass Correlation Coefficient for interrater reliability=0.96, p<0.0001; internal reliability = 90.7%) (Wolf et al., 2001). | Change from baseline after 3 week treatment intervention | No |
| Secondary | Post test Composite Spasticity Index | Composite Spasticity Index (CSI, Levin and Hui-Chan, 1992) assessed phasic (tendon jerk, clonus) and tonic (resistance to stretch) reflex responses in the elbow flexors when the limb was stretched at a moderate speed (>100/second). The valid (Nadeau et al. 1997) and reliable (Goulet et al. 1996) composite score ranges from 0 to 16 where scores of 0 to 6, 7 to 9 and 10 to 12 correspond to mild, moderate and severe spasticity respectively. | Change from baseline after 3 week treatment intervention | No |
| Secondary | Post test Reaching Performance Scale | Reaching Performance Scale (RPSS; Levin et al., 2004) evaluated performance of reaching and grasping tasks to objects placed within (RPSSnear) and beyond (RPSSfar) arm's length. Performance of 6 movement components is scored on 4-point (0-3) scales, for a total of 18 points per task. The RPSS scores correlate significantly with those of the Chedoke-McMaster Stroke Assessment and the Upper Extremity Performance Test for the Elderly (TEMPA) and discriminate between patients with different upper limb impairment levels. In addition, it was found to have good interrater reliability (67%). | Change from baseline after 3 week treatment intervention | No |
| Secondary | Post test Box and Blocks Test | Box and Blocks Test (BBT; Mathiowetz et al., 1985) is a functional dexterity test that involves moving blocks from one side of a box to the other by passing them over a barrier. Performance is scored according to the number of blocks transferred in 1 minute with lower scores corresponding to greater upper limb impairments. The BBT has high test-retest (Interclass Correlation Coefficient =0.94 - 0.98; Cromwell, 1976; Canny et al., 2009) and interrater (Interclass Correlation Coefficient =1.00) reliability. | Change from baseline after 3 week treatment intervention | No |
| Secondary | Post test Motor Activity Log | Motor Activity Log (MAL; Uswatte et al., 2006) is a structured questionnaire designed to assess the self-perceived use of the more-impaired arm after stroke while performing a wide range of basic and instrumental activities of daily life. Each item is scored on a 6 point scale (0 - 5). The scale has high internal consistency (Chronbach's a=0.87-0.95) and discriminative validity and highly correlates with caregiver responses (Interclass Correlation Coefficient = 0.52, p<0.05) and accelerometer recordings of actual arm use (r=0.7, p<0.05; Uswatte et al., 2005; 2006). | Change from baseline after 3 week treatment intervention | No |
| Secondary | upper limb kinematics | Rigid body segmental kinematics will be recorded from sets of 4 passive reflective markers (0.5 cm diameter spheres) attached to the trunk, upper arm and forearm segments. This will enable the computation of three translational and three rotational degrees of freedom per segment. Marker motion will be recorded with a calibrated 3 camera optoelectronic motion-capture system (ProReflex MCU-240, Qualisys) on suitable PC software (QMT, Qualisys, Göteborg, Sweden). Data collection (100 Hrtz, 2-5 second) will be triggered by movement of the hand. | One week before start of intervention | No |
| Secondary | Follow-up Fugl-Meyer Arm Scale | Fugl-Meyer Arm Scale (FMA; Fugl-Meyer, 1975) was developed to assess active motor function after stroke, based on the stages of recovery described by Twitchell and Brunnstrom (Sanford et al., 1993). Movements are scored between 0-2 points, and the summary score ranges from 0 (complete paralysis) to 66 (full ROM). The assessment has high validity (Berglund and Fugl-Meyer 1986) and reliability (Duncan et al. 1983) composite test-retest = 0.98-0.99; Interclass Correlation Coefficient for interrater reliability=0.96, p<0.0001; internal reliability = 90.7%) (Wolf et al., 2001). | Change from baseline 4 weeks after end of treatment intervention | No |
| Secondary | Follow-up Composite Spasticity Index | Composite Spasticity Index (CSI, Levin and Hui-Chan, 1992) assessed phasic (tendon jerk, clonus) and tonic (resistance to stretch) reflex responses in the elbow flexors when the limb was stretched at a moderate speed (>100/second). The valid (Nadeau et al. 1997) and reliable (Goulet et al. 1996) composite score ranges from 0 to 16 where scores of 0 to 6, 7 to 9 and 10 to 12 correspond to mild, moderate and severe spasticity respectively. | Change from baseline 4 weeks after end of treatment intervention | No |
| Secondary | Follow-up Reaching Performance Scale | Reaching Performance Scale (RPSS; Levin et al., 2004) evaluated performance of reaching and grasping tasks to objects placed within (RPSSnear) and beyond (RPSSfar) arm's length. Performance of 6 movement components is scored on 4-point (0-3) scales, for a total of 18 points per task. The RPSS scores correlate significantly with those of the Chedoke-McMaster Stroke Assessment and the Upper Extremity Performance Test for the Elderly (TEMPA) and discriminate between patients with different upper limb impairment levels. In addition, it was found to have good interrater reliability (67%). | Change from baseline 4 weeks after end of treatment intervention | No |
| Secondary | Follow-up Box and Blocks Test | Box and Blocks Test (BBT; Mathiowetz et al., 1985) is a functional dexterity test that involves moving blocks from one side of a box to the other by passing them over a barrier. Performance is scored according to the number of blocks transferred in 1 min with lower scores corresponding to greater upper limb impairments. The BBT has high test-retest (Interclass Correlation Coefficient =0.94 - 0.98; Cromwell, 1976; Canny et al., 2009) and interrater (Interclass Correlation Coefficient =1.00) reliability. | Change from baseline 4 weeks after end of treatment intervention | No |
| Secondary | Follow-up Motor Activity Log | Motor Activity Log (MAL; Uswatte et al., 2006) is a structured questionnaire designed to assess the self-perceived use of the more-impaired arm after stroke while performing a wide range of basic and instrumental activities of daily life. Each item is scored on a 6 point scale (0 - 5). The scale has high internal consistency (Chronbach's a=0.87-0.95) and discriminative validity and highly correlates with caregiver responses (Interclass Correlation Coefficient = 0.52, p<0.05) and accelerometer recordings of actual arm use (r=0.7, p<0.05; Uswatte et al., 2005; 2006). | Change from baseline 4 weeks after end of treatment intervention | No |
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