Your search keyword '"Sawaki, Lumy"' showing total 12 results

1. Dose-response relationship of transcutaneous spinal direct current stimulation in healthy humans: A proof of concept study.

Author

Powell, Elizabeth Salmon, Korupolu, Radha, Westgate, Philip M., Carrico, Cheryl, Reddy, Lakshmi, and Sawaki, Lumy

Subjects

LEG physiology, SPINAL cord physiology, CALF muscle physiology, DOSE-response relationship in biochemistry, ELECTRODES, EVOKED potentials (Electrophysiology), ARTIFICIAL implants, NEURAL stimulation, REGRESSION analysis, SPINAL cord, SPINAL cord injuries, TRANSCUTANEOUS electrical nerve stimulation, TRANSCRANIAL magnetic stimulation, RANDOMIZED controlled trials, TREATMENT effectiveness

Abstract

BACKGROUND: Non-invasive transcranial direct current stimulation has been shown to modulate cortical excitability in various studies. Similarly, recent preliminary studies suggest that transcutaneous spinal direct current stimulation (tsDCS) may engender a modulation effect on spinal and cortical neurons. OBJECTIVE: The purpose of this study was to evaluate the dose-response effects of tsDCS in healthy subjects and thereby lay groundwork for expanding treatment options for patients with spinal cord injury (SCI). METHODS: Nine healthy subjects received each of the following 2 tsDCS conditions: Anodal and cathodal, in random order with at least 1 week washout period between each session. In order to test safety and dose response, various current intensities were used (2, 2.5 and 3 rnA) for 20 minutes. The active electrode was placed vertically over T10-T11, and the reference electrode was placed over the left shoulder. To evaluate corticospinal excitability, motor evoked potentials over soleus muscle elicited by transcranial magnetic stimulation were measured. To assess spinal cord excitability, H- and Mwave over soleus muscle to calculate Hmax/ Mmax ratio were measured. RESULTS: Linear regression showed a dose response with cathodal tsDCS on motor evoked potentials measured from the left leg as well as with anodal tsDCS on Hmax/ Mmax ratio measured from the left leg. CONCLUSIONS: These findings indicate tsDCS effects are dose-dependent. These effects should be investigated in a larger sample. [ABSTRACT FROM AUTHOR]

Published

2018

2. The effect of transcutaneous spinal direct current stimulation on corticospinal excitability in chronic incomplete spinal cord injury.

Author

Powell, Elizabeth Salmon, Carrico, Cheryl, Salyers, Emily, Sawaki, Lumy, and Westgate, Philip M.

Subjects

CHRONIC disease treatment, CALF muscle physiology, SPINAL cord injuries, CROSSOVER trials, EVOKED potentials (Electrophysiology), TRANSCUTANEOUS electrical nerve stimulation, TRANSCRANIAL magnetic stimulation, RANDOMIZED controlled trials, TREATMENT effectiveness, TREATMENT duration, THERAPEUTICS

Abstract

OBJECTIVES: This study investigated the feasibility of modulating bilateral corticospinal excitability with different polarities of transcutaneous spinal direct current stimulation (tsDCS) in chronic, incomplete spinal cord injury (SCI). METHODS: Six subjects with chronic incomplete SCI (>12 months post injury) participated in this crossover study. Intervention consisted of 3 sessions, separated by at least 1 week, in which each subject received the conditions cathodal, anodal, and sham tsDCS. Stimulation was delivered at 2.5 mA for 20 minutes with the active electrode positioned over the spinous processes of T10-T11 and the reference electrode over left deltoid. To measure the effects of tsDCS on corticospinal excitability, motor evoked potentials (MEPs) from transcranial magnetic stimulation were measured bilaterally from soleus before and after tsDCS. RESULTS: Five subjects completed all 3 sessions. One subject withdrew after 2 sessions due to complications unrelated to the study. MEPs were measurable in 5 subjects. No significant differences in change of MEP amplitudes were found between the 3 conditions. However, there were trends that indicated laterality of response, particularly with cathodal tsDCS increasing corticospinal excitability contralateral to the reference electrode and decreasing corticospinal excitability ipsilateral to the reference electrode. CONCLUSION: Corticospinal excitability may be modulated with laterality by tsDCS in individuals with chronic, incomplete SCI. Further research is needed to 1) determine whether different placement of the reference electrode can lead to uniform modulation bilaterally, and 2) reveal whether these alterations in corticospinal excitability can lead to improved movement function in individuals with chronic, incomplete SCI. [ABSTRACT FROM AUTHOR]

Published

2018

3. Comparing Occupation-Based and Repetitive Task Practice Interventions for Optimal Stroke Recovery: A Pilot Randomized Trial.

Author

Skubik-Peplaski, Camille, Custer, Melba, Powell, Elizabeth, Westgate, Philip M., and Sawaki, Lumy

Subjects

MOTOR ability, ANALYSIS of variance, ARM, CONVALESCENCE, NEUROPLASTICITY, OCCUPATIONAL therapy, PATIENT satisfaction, PROBABILITY theory, QUALITY of life, STATISTICAL sampling, TRANSCRANIAL magnetic stimulation, PILOT projects, EFFECT sizes (Statistics), RANDOMIZED controlled trials, FUNCTIONAL training, TREATMENT effectiveness, REPEATED measures design, DATA analysis software, STROKE rehabilitation, MANN Whitney U Test

Abstract

Aims: This pilot randomized comparative study investigated changes in motor performance and indices of neuroplasticity associated with occupation-based intervention and repetitive task practice in the recovery of occupational performance following stroke. Method: Sixteen participants received either occupation-based intervention or repetitive task practice for eight 55-minute sessions. Motor performance was measured by the Fugl Meyer Assessment (FMA), Stroke Impact Scale (SIS), the Canadian Occupational Performance Measure (COPM) and the Goal Attainment Scale (GAS). Indices of neuroplastic change were assessed by transcranial magnetic stimulation (TMS). Results: Both occupation-based intervention and repetitive task practice groups demonstrated significant changes on the FMA and the occupation-based group demonstrated significant changes on the GAS goals. Neurophysiological measures showed enlargement in TMS volume maps in the affected hemisphere for both groups. Conclusion: Occupation-based and repetitive task practice interventions can yield similar improvements in chronic stroke. [ABSTRACT FROM AUTHOR]

Published

2017

4. Time configuration of combined neuromodulation and motor training after stroke: A proof-of-concept study.

Author

Powell, Elizabeth S., Carrico, Cheryl, Westgate, Philip M., Chelette, Kenneth C., Nichols, Laurie, Reddy, Lakshmi, Salyers, Emily, Ward, Andrea, and Sawaki, Lumy

Subjects

ANALYSIS of variance, ARM, COMBINED modality therapy, ELECTRIC stimulation, LONGITUDINAL method, MULTIVARIATE analysis, NEUROPLASTICITY, PHYSICAL therapy, PROBABILITY theory, RESEARCH funding, ROBOTICS, STATISTICAL sampling, TRANSCRANIAL magnetic stimulation, TREATMENT effectiveness, REPEATED measures design, DATA analysis software, STROKE rehabilitation, TRANSCRANIAL direct current stimulation

Abstract

BACKGROUND: Intensive motor training is a therapeutic intervention that supports recovery of movement function after stroke by capitalizing on the brain's capacity for neuroplastic change. Peripheral nerve stimulation and transcranial direct current stimulation are neuromodulation techniques that can upregulate neuroplasticity and, in turn, enhance outcomes of motor training after stroke. Few studies have investigated possible adjuvant effects between peripheral nerve stimulation, transcranial direct current stimulation, and intensive motor training. OBJECTIVE: This proof-of-concept study investigated whether timing variations in neuromodulation paired with robot-assisted motor training effect differential outcomes for subjects with chronic, moderate-to-severe upper extremity impairment after stroke. METHODS: Ten subjects in the chronic phase (>12 months after stroke) of recovery completed the study. Subjects received 10 daily sessions of transcranial direct current stimulation either at the start (n = 4) or at the end (n = 6) of peripheral nerve stimulation preceding intensive motor training. Pre-post changes in motor function (Fugl-Meyer Assessment; Stroke Impact Scale) and neuroplasticity (transcranial magnetic stimulation) were assessed by condition. RESULTS: Significant improvement in Stroke Impact Scale (p = 0.02) and no change in Fugl-Meyer Assessment were associated with the start condition. No changes in Stroke Impact Scale and Fugl-Meyer Assessment were associated with the end condition. Only 1 subject in the start group had measurable neuroplastic responses and demonstrated an increase in ipsilesional cortical map volume. Only 1 subject in the end group had measurable neuroplastic responses and demonstrated a decrease in ipsilesional cortical map volume. Opposite shifts in ipsilesional cortical centers of gravity occurred relative to condition. CONCLUSION: In cases of moderate-to-severe impairment after stroke, transcranial direct current stimulation at the start, rather than the end, of peripheral nerve stimulation prior to motor training may effect better functional outcomes. Future research with a larger sample size is needed to validate the findings of this proof-of-concept study. [ABSTRACT FROM AUTHOR]

Published

2016

5. Non-invasive brain stimulation and robot-assisted gait training after incomplete spinal cord injury: A randomized pilot study.

Author

Raithatha, Ravi, Carrico, Cheryl, Powell, Elizabeth Salmon, Westgate, Philip M., Chelette II, Kenneth C., Lee, Kara, Dunsmore, Laura, Salles, Sara, and Sawaki, Lumy

Subjects

THERAPEUTICS, SPINAL cord injuries, ACADEMIC medical centers, ANALYSIS of covariance, CONFIDENCE intervals, ELECTRIC stimulation, GAIT disorder treatment, RESEARCH funding, ROBOTICS, T-test (Statistics), PILOT projects, RANDOMIZED controlled trials, TREATMENT effectiveness, BLIND experiment, DATA analysis software, DESCRIPTIVE statistics

Abstract

BACKGROUND: Locomotor training with arobot-assisted gait orthosis (LT-RGO) and transcranial direct current stimulation (tDCS) are interventions that can significantly enhance motor performance after spinal cord injury (SCI). No studies have investigated whether combining these interventions enhances lower extremity motor function following SCI. OBJECTIVE: Determine whether active tDCS paired with LT-RGO improves lower extremity motor function more than a sham condition, in subjects with motor incomplete SCI. METHODS: Fifteen adults with SCI received 36 sessions of either active (n = 9) or sham (n = 6) tDCS (20 minutes) preceding LT-RGO (1 hour). Outcome measures included manual muscle testing (MMT; primary outcome measure); 6-Minute Walk Test (6MinWT); 10-Meter Walk Test (10MWT); Timed Up and Go Test (TUG); Berg Balance Scale (BBS); and Spinal Cord Independence Measure-III (SCIM-III). RESULTS: MMT showed significant improvements after active tDCS, with the most pronounced improvement in the right lower extremity. 10MWT, 6MinWT, and BBS showed improvement for both groups. TUG and SCIM-III showed improvement only for the sham tDCS group. CONCLUSION: Pairing tDCS with LT-RGO can improve lower extremity motor function more than LT-RGO alone. Future research with a larger sample size is recommended to determine longer-term effects on motor function and activities of daily living. [ABSTRACT FROM AUTHOR]

Published

2016

6. Transvertebral direct current stimulation paired with locomotor training in chronic spinal cord injury: A case study.

Author

Powell, Elizabeth Salmon, Carrico, Cheryl, Raithatha, Ravi, Salyers, Emily, Ward, Andrea, and Sawaki, Lumy

Subjects

SPINAL cord injuries, THERAPEUTICS, ACADEMIC medical centers, CHRONIC diseases, CROSSOVER trials, ELECTRIC stimulation, GAIT disorder treatment, MAGNETOTHERAPY, ORTHOPEDIC apparatus, CASE studies, RESEARCH funding, ROBOTICS, SPINE, TREATMENT effectiveness, BLIND experiment

Abstract

STUDY DESIGN: This double-blind, sham-controlled, crossover case study combined transvertebral direct current stimulation (tvDCS) and locomotor training on a robot-assisted gait orthosis (LT-RGO). OBJECTIVE: Determine whether cathodal tvDCS paired with LT-RGO leads to greater changes in function and neuroplasticity than sham tvDCS paired with LT-RGO. SETTING: University of Kentucky (UK) HealthCare Stroke and Spinal Cord Neurorehabilitation Research at HealthSouth Cardinal Hill Hospital. METHODS: A single subject with motor incomplete spinal cord injury (SCI) participated in 24 sessions of sham tvDCS paired with LT-RGO before crossover to 24 sessions of cathodal tvDCS paired with LT-RGO. Functional outcomes were measured with 10 Meter Walk Test (10MWT), 6 Minute Walk Test (6MWT), Spinal Cord Independence Measure-III (SCIM-III) mobility component, lower extremity manual muscle test (MMT), and Berg Balance Scale (BBS). Corticospinal changes were assessed using transcranial magnetic stimulation. RESULTS: Improvement in 10MWT speed, SCIM-III mobility component, and BBS occurred with both conditions. 6MWT worsened after sham tvDCS and improved after cathodal tvDCS. MMT scores for both lower extremities improved following sham tvDCS but decreased following cathodal tvDCS. Corticospinal excitability increased following cathodal tvDCS but not sham tvDCS. CONCLUSION: These results suggest that combining cathodal tvDCS and LT-RGO may improve functional outcomes, increase corticospinal excitability, and possibly decrease spasticity. Randomized controlled trials are needed to confirm these conclusions. SPONSORSHIP: This publication was supported by the National Center for Research Resources and the National Center for Advancing Translational Sciences, National Institutes of Health, through Grant UL1TR000117, and the HealthSouth Cardinal Hill Stroke and Spinal Cord Endowment (1215375670). [ABSTRACT FROM AUTHOR]

Published

2016

7. Differential patterns of cortical reorganization following constraint-induced movement therapy during early and late period after stroke: A preliminary study.

Author

Sawaki, Lumy, Butler, Andrew J., Leng, Xiaoyan, Wassenaar, Peter A., Mohammad, Yousef M., Blanton, Sarah, Sathian, K., Nichols-Larsen, Deborah S., Wolf, Steven L., Good, David C., and Wittenberg, George F.

Subjects

*CONSTRAINT-induced movement therapy, *BRAIN physiology, *STROKE treatment, *PHYSIOLOGICAL adaptation, *ANALYSIS of variance, *GOODNESS-of-fit tests, *HEALTH outcome assessment, *RESEARCH funding, *T-test (Statistics), *PILOT projects, *TREATMENT effectiveness, *REPEATED measures design, *DATA analysis software, *DESCRIPTIVE statistics

Abstract

OBJECTIVE: Constraint-induced movement therapy (CIMT) has been shown to improve upper extremity voluntary movement and change cortical movement representation after stroke. Direct comparison of the differential degree of cortical reorganization according to chronicity in stroke subjects receiving CIMT has not been performed and was the purpose of this study. We hypothesized that a higher degree of cortical reorganization would occur in the early (less than 9 months post-stroke) compared to the late group (more than 12 months post-stroke). METHODS: 17 early and 9 late subjects were enrolled. Each subject was evaluated using transcranial magnetic stimulation (TMS) and the Wolf Motor Function Test (WMFT) and received CIMT for 2 weeks. RESULTS: The early group showed greater improvement in WMFT compared with the late group. TMS motor maps showed persistent enlargement in both groups but the late group trended toward more enlargement. The map shifted posteriorly in the late stroke group. The main limitation was the small number of TMS measures that could be acquired due to high motor thresholds, particularly in the late group. CONCLUSION: CIMT appears to lead to greater improvement in motor function in the early phase after stroke. Greater cortical reorganization in map size and position occurred in the late group in comparison. SIGNIFICANCE: The contrast between larger functional gains in the early group vs larger map changes in the late group may indicate that mechanisms of recovery change over the several months following stroke or that map changes are a time-dependent epiphenomenon. [ABSTRACT FROM AUTHOR]

Published

2014

8. Behavioral, Neurophysiological, and Descriptive Changes After Occupation-Based Intervention.

Author

Skubik-Peplaski, Camille, Carrico, Cheryl, Nichols, Laurel, Chelette, Kenneth, and Sawaki, Lumy

Subjects

ARM physiology, BRAIN mapping, ELECTROMAGNETISM, ELECTROMYOGRAPHY, HEMIPLEGIA, HOME care services, NEUROPHYSIOLOGY, NEUROPLASTICITY, OCCUPATIONS, HEALTH outcome assessment, REHABILITATION, RESEARCH evaluation, SCALE analysis (Psychology), SELF-evaluation, NEUROMUSCULAR system, TREATMENT effectiveness, PRE-tests & post-tests, INTER-observer reliability, MULTITRAIT multimethod techniques, RESEARCH methodology evaluation, DATA analysis software, FUNCTIONAL assessment, STROKE rehabilitation, DESCRIPTIVE statistics

Abstract

OBJECTIVE. We evaluated the effects of occupation-based intervention on poststroke upper-extremity (UE) motor recovery, neuroplastic change, and occupational performance in 1 research participant. METHOD. A 55-yr-old man with chronic stroke and moderately impaired UE motor function participated in 15 sessions of occupation-based intervention in a hospital setting designed to simulate a home environment. We tested behavioral motor function (Fugl-Meyer Assessment, Stroke Impact Scale, Canadian Occupational Performance Measure) and neuroplasticity (transcranial magnetic stimulation [TMS]) at baseline and at completion of intervention. We collected descriptive data on occupational participation throughout the study. RESULTS. All behavioral outcomes indicated clinically relevant improvement. TMS revealed bihemispheric corticomotor reorganization. Descriptive data revealed enhanced occupational performance. CONCLUSION. Occupation-based intervention delivered in a hospital-based, homelike environment can lead to poststroke neuroplastic change, increased functional use of the affected UE, and improved occupational performance. [ABSTRACT FROM AUTHOR]

Published

2012

9. Effective Interventions for Stroke Recovery: Comparing Modified Constraint- Induced With Occupation-Based Interventions.

Author

Skubik-Peplaski, Camille, Stroud, Robin, Howell, Dana, Custer, Melba, and Sawaki, Lumy

Subjects

MOTOR ability, ARM, COMPARATIVE studies, CONVALESCENCE, INTELLECT, RESEARCH methodology, NEUROPLASTICITY, OCCUPATIONAL therapy, OCCUPATIONAL therapy services, PATIENT satisfaction, EVIDENCE-based medicine, TRANSCRANIAL magnetic stimulation, QUALITATIVE research, CONSTRAINT-induced movement therapy, TREATMENT effectiveness, PRE-tests & post-tests, PATIENTS' attitudes, STROKE rehabilitation, DESCRIPTIVE statistics

Abstract

Eight intervention sessions using mCIT or occupation-based activities was effective for motor recovery. The mCIT group improved most on motor assessments, and the occupation-based group had more change in the occupational performance assessments. Changes were also noted with the experience of moving. [ABSTRACT FROM AUTHOR]

Published

2016

10. Effects of Dynamic Overground Body Weight Support Training During Inpatient Rehabilitation After Traumatic Spinal Cord Injury: A Retrospective Case Series.

Author

Powell, Elizabeth Salmon MS, Lopez, John DO, Westgate, Philip M., Hines, Emily MS, and Sawaki, Lumy

Subjects

*INJURY complications, *SPINAL cord injuries, *BODY weight, *ACQUISITION of data methodology, *PHYSICAL therapy, *FUNCTIONAL status, *CONVALESCENCE, *RETROSPECTIVE studies, *TREATMENT effectiveness, *T-test (Statistics), *MEDICAL records, *CASE studies, *RESEARCH funding, *DATA analysis software, *WEIGHT-bearing (Orthopedics), *MOTOR ability, *EVALUATION

Abstract

Rehabilitation strategies after traumatic spinal cord injury aim to maximize functional recovery by applying principles of neuroplasticity via task-specific, repetitive training. Rehabilitation of patients with traumatic spinal cord injury poses unique challenges, including bilateral limb involvement, autonomic dysfunction, loss of proprioception, and potentially spinal precautions/bracing. The purpose of this retrospective case series was to determine whether use of dynamic body weight support would yield greater improvement in functional recovery compared with standard of care in adults with traumatic spinal cord injury. Data were collected from patients with traumatic spinal cord injury who completed inpatient rehabilitation incorporating dynamic body weight support (n = 5) and who completed inpatient rehabilitation without dynamic body weight support (n = 5). The primary outcome measure was the change in Functional Independence Measures. The dynamic body weight support group had a significantly greater improvement in Total Functional Independence Measures and in Functional Independence Measures motor subscale compared with the standard of care group (P = 0.023 and P = 0.033, respectively). This study presents initial evidence that dynamic body weight support therapy during inpatient rehabilitation has the potential to improve functional independence compared with standard of care in patients with traumatic spinal cord injury. Larger prospective randomized studies need to be conducted to expand on these findings. [ABSTRACT FROM AUTHOR]

Published

2022

11. Nerve Stimulation Enhances Task-Oriented Training for Moderate-to-Severe Hemiparesis 3-12 Months After Stroke: A Randomized Trial.

Author

Carrico, Cheryl, Westgate, Philip M., Salmon Powell, Elizabeth, Chelette, Kenneth C., Nichols, Laurie, Pettigrew, L. Creed, and Sawaki, Lumy

Subjects

*ARM, *HEMIPLEGIA, *MOTOR ability, *STATISTICAL sampling, *SENSORY stimulation, *DISABILITIES, *RANDOMIZED controlled trials, *FUNCTIONAL training, *TREATMENT effectiveness, *DATA analysis software, *STROKE rehabilitation, *DESCRIPTIVE statistics

Abstract

Objective: The aim of the study was to determine whether somatosensory stimulation affects outcomes of motor training for moderate-to-severe upper limb hemiparesis less than 12 mos before stroke. Design: Fifty-five adults participated in 18 intervention sessions pairing 2 hours of active (n = 33) or sham (n = 22) somatosensory stimulation with 4 hours of intensive task-oriented motor training. Wolf Motor Function Test, Action Research Arm Test, Fugl-Meyer Assessment, and Stroke Impact Scale were administered at baseline, postintervention, and 1- and 4-mo follow-up. Results: Statistically significant between-groups differences favored the active condition on Wolf Motor Function Test at post (P = 0.04) and Action Research Arm Test at post (P = 0.02), 1 mo (P = 0.01), and 4 mos (P = 0.01) but favored the sham condition on Stroke Impact Scale at 1 mo (P = 0.03). There were no significant between-groups differences on Fugl-Meyer Assessment. Conclusions: Somatosensory stimulation can improve objective outcomes of motor training for moderate-to-severe hemiparesis less than 12 mos after stroke, although it needs to be determined whether the magnitude of between-groups differences in this study is clinically relevant. Future studies should investigate the intervention's impact on disability and functional recovery for this population as well as neurophysiological mechanisms underlying intervention effects. [ABSTRACT FROM AUTHOR]

Published

2018

12. Slow Versus Fast Robot-Assisted Locomotor Training After Severe Stroke: A Randomized Controlled Trial.

Author

Rodrigues, Thais Amanda, Goroso, Daniel Gustavo, Westgate, Philip M., Carrico, Cheryl, Batistella, Linamara R., and Sawaki, Lumy

Subjects

*CONFIDENCE intervals, *EXERCISE tests, *FISHER exact test, *PROBABILITY theory, *RESEARCH funding, *ROBOTICS, *T-test (Statistics), *PILOT projects, *RANDOMIZED controlled trials, *TREATMENT effectiveness, *BLIND experiment, *DATA analysis software, *STROKE rehabilitation, *MANN Whitney U Test, *BODY-weight-supported treadmill training, GAIT disorder treatment

Abstract

Background and Purpose: Robot-assisted locomotor training on a bodyweight-supported treadmill is a rehabilitation intervention that compels repetitive practice of gait movements. Standard treadmill speed may elicit rhythmic movements generated primarily by spinal circuits. Slower-than-standard treadmill speed may elicit discrete movements, which are more complex than rhythmic movements and involve cortical areas. Objective: Compare effects of fast (i.e., rhythmic) versus slow (i.e., discrete) robot-assisted locomotor training on a bodyweight-supported treadmill in subjects with chronic, severe gait deficit after stroke. Methods: Subjects (N = 18) were randomized to receive 30 sessions (5 d/wk) of either fast or slow robot-assisted locomotor training on a bodyweight-supported treadmill in an inpatient setting. Functional ambulation category, time up and go, 6-min walk test, 10-m walk test, Berg Balance Scale, and Fugl-Meyer Assessment were administered at baseline and postintervention. Results: The slow group had statistically significant improvement on functional ambulation category (first quartile--third quartile, P = 0.004), 6-min walk test (95% confidence interval [CI] = 1.8 to 49.0, P = 0.040), Berg Balance Scale (95% CI = 7.4 to 14.8, P < 0.0001), time up and go (95%CI = -79.1 to 5.0, P < 0.0030), and Fugl-Meyer Assessment (95% CI = 24.1 to 45.1, P < 0.0001). The fast group had statistically significant improvement on Berg Balance Scale (95% CI = 1.5 to 10.5, P = 0.02). Conclusions: In initial stages of robot-assisted locomotor training on a bodyweight-supported treadmill after severe stroke, slow training targeting discrete movement may yield greater benefit than fast training. [ABSTRACT FROM AUTHOR]

Published

2017