Effect of Different Walking Aids on Walking Capacity of Patients With Poststroke Hemiparesis

Allet L, Leemann B, Guyen E, Murphy L, Monnin D, Herrmann FR, Schnider A. Effect of different walking aids on walking capacity of patients with poststroke hemiparesis.

Objective

To examine the effects of 3 different walking aids on walking capacity, temporo-spatial gait parameters, and patient satisfaction.

Design

Observational study.

Setting

University Hospital of Geneva.

Participants

Hemiparetic inpatients (N=25) with impaired gait, at an early stage of rehabilitation, unfamiliar with any of the walking aids tested.

Interventions

On 3 consecutive days subjects used, in random order, 1 of 3 walking aids: 4-point cane, simple cane with ergonomic handgrip, and Nordic stick.

Main Outcome Measures

Maximal walking distance in 6 minutes, temporo-spatial gait parameters determined with a commercial electronic gait analysis system, and patients' preference on a subjective ranking scale.

Results

Walking distance was greatest with the simple cane with an ergonomic handgrip, followed by the 4-point cane and the Nordic walking stick. Walking velocity was highest with the simple cane, which was also indicated as the preferred walking aid by the patients. There was no significant difference in step length symmetry.

Conclusions

The simple cane with the ergonomic handgrip was not only preferred by patients, but was also the most efficient among 3 commonly used walking aids. It appears justified to take patients' subjective preference into account when prescribing a walking aid.     

Training to walk amid uncertainty with Re-Step: measurements and changes with perturbation training for hemiparesis and cerebral palsy

Abstract

Purpose: To describe Re-Step?, a novel mechatronic shoe system that measures center of pressure (COP) gait parameters and complexity of COP dispersion while walking, and to demonstrate these measurements in healthy controls and individuals with hemiparesis and cerebral palsy (CP) before and after perturbation training. Method: The Re-Step? was used to induce programmed chaotic perturbations to the feet while walking for 30?min for 36 sessions over 12-weeks of training in two subjects with hemiparesis and two with CP. Results: Baseline measurements of complexity indices (fractal dimension and approximate entropy) tended to be higher in controls than in those with disabilities, while COP variability, mean and variability of step time and COP dispersion were lower. After training the disabled subjects these measurement values tended toward those of the controls, along with a decrease in step time, 10?m walk time, average step time, percentage of double support and increased Berg balance score. Conclusions: This pilot trial reveals the feasibility and applicability of this unique measurement and perturbation system for evaluating functional disabilities and changes with interventions to improve walking.

• Implication for Rehabilitation

• Walking, of individuals with cerebral palsy and hemiparesis following stroke, can be viewed in terms of a rigid motor behavior that prevents adaptation to changing environmental conditions.

• Re-Step system (a) measures and records linear and non-linear gait parameters during free walking to provide a detailed evaluation of walking disabilities, (b) is an intervention training modality that applies unexpected perturbations during walking.

• This perturbation intervention may improve gait and motor functions of individuals with hemiparesis and cerebral plasy.

     

The Influence of Applying Additional Weight to the Affected Leg on Gait Patterns During Aquatic Treadmill Walking in People Poststroke

Jung T, Lee D, Charalambous C, Vrongistinos K. The influence of applying additional weight to the affected leg on gait patterns during aquatic treadmill walking in people poststroke.

Objective

To investigate how the application of additional weights to the affected leg influences gait patterns of people poststroke during aquatic treadmill walking.

Design

Comparative gait analysis.

Setting

University-based aquatic therapy center.

Participants

Community-dwelling volunteers (n=22) with chronic hemiparesis caused by stroke.

Interventions

Not applicable.

Main Outcome Measures

Spatiotemporal and kinematic gait parameters.

Results

The use of an ankle weight showed an increase in the stance phase percentage of gait cycle (3%, P=.015) when compared with no weight. However, the difference was not significant after a Bonferroni adjustment was applied for a more stringent statistical analysis. No significant differences were found in cadence and stride length. The use of an ankle weight showed a significant decrease of the peak hip flexion (7.9%, P=.001) of the affected limb as compared with no weight condition. This decrease was marked as the reduction of unwanted limb flotation because people poststroke typically show excessive hip flexion of the paretic leg in the late swing phase followed by fluctuating hip movements during aquatic treadmill walking. The frontal and transverse plane hip motions did not show any significant differences but displayed a trend of a decrease in the peak hip abduction during the swing phase with additional weights. The use of additional weight did not alter sagittal plane kinematics of the knee and ankle joints.

Conclusions

The use of applied weight on the affected limb can reduce unwanted limb flotation on the paretic side during aquatic treadmill walking. It can also assist the stance stability by increasing the stance phase percentage closer to 60% of gait cycle. Both findings can contribute to the development of more efficient motor patterns in gait training for people poststroke. The use of a cuff weight does not seem to reduce the limb circumduction during aquatic treadmill walking.     

Effects of therapeutic gait training using a prosthesis and a treadmill for ambulatory patients with hemiparesis

Hase K, Suzuki E, Matsumoto M, Fujiwara T, Liu M. Effects of therapeutic gait training using a prosthesis and a treadmill for ambulatory patients with hemiparesis.

Objective

To examine the short-term effects of a newly developed hemiparetic gait training in which patients walk with a prosthesis applied to the nonparetic leg in the flexed knee position.

Design

Pre-post nonrandomized controlled trial.

Setting

Rehabilitation center and gait laboratory of a university hospital.

Participants

Community-dwelling ambulatory volunteers (N=22) with chronic hemiparesis caused by a unilateral stroke.

Intervention

Study subjects participated in a gait training program using either a below-knee prosthesis or a treadmill. Treadmill gait training was performed at a speed approximating the maximum gait velocity for each patient. The 3-week program consisted of a 5-minute gait training session 2 to 3 times a day.

Main Outcome Measures

The ground reaction forces, stance time, step length and cadence during walking at a comfortable speed, and maximum gait speed, as well as the Berg Balance Score, were estimated before and after each training program.

Results

In comparison with changes after the treadmill gait training, analyses of covariance demonstrated a significant increase of the fore-aft ground reaction forces during the paretic propulsion phase and a significant increase in the relative durations of the paretic and nonparetic single stance involved in a gait cycle after the prosthetic gait training (P<.05).

Conclusions

Prosthetic gait training would have different effects on a hemiparetic gait than treadmill gait training. The gait-related task inducing the dominant use of the paretic leg to support the body may be useful as a rehabilitative treatment to improve the kinetic abilities in the paretic stance period.     

Home-Based Treadmill Training to Improve Gait Performance in Persons With a Chronic Transfemoral Amputation

Objective

To investigate the effectiveness of a home-based multiple-speed treadmill training program to improve gait performance in persons with a transfemoral amputation (TFA).

Design

Repeated measures.

Setting

Research laboratory.

Participants

Individuals with a TFA (N=8) who had undergone a unilateral amputation at least 3 years prior as a result of limb trauma or cancer.

Intervention

Home-based treadmill walking for a total of 30 minutes a day, 3 days per week for 8 weeks. Each 30-minute training session involved 5 cycles of walking for 2 minutes at 3 speeds.

Main Outcome Measures

Participants were tested pretraining and after 4 and 8 weeks of training. The primary measures were temporal-spatial gait performance (symmetry ratios for stance phase duration and step length), physiological gait performance (energy expenditure and energy cost), and functional gait performance (self-selected walking speed [SSWS], maximum walking speed [MWS], and 2-minute walk test [2MWT]).

Results

Eight weeks of home-based training improved temporal-spatial gait symmetry at SSWS but not at MWS. A relative interlimb increase in stance duration for the prosthetic limb and proportionally greater increases in step length for the limb taking shorter steps produced the improved symmetry. The training effect was significant for the step length symmetry ratio within the first 4 weeks of the program. Energy expenditure decreased progressively during the training with nearly 10% improvement observed across the range of walking speeds. SSWS, MWS, and 2MWT all increased by 16% to 20%.

Conclusions

Home-based treadmill walking is an effective method to improve gait performance in persons with TFA. The results support the application of training interventions beyond the initial rehabilitation phase, even in individuals considered highly functional.     

Virtual Reality-Enhanced Partial Body Weight-Supported Treadmill Training Poststroke: Feasibility and Effectiveness in 6 Subjects

Walker ML, Ringleb SI, Maihafer GC, Walker R, Crouch JR, Van Lunen B, Morrison S. Virtual reality-enhanced partial body weight-supported treadmill training poststroke: feasibility and effectiveness in 6 subjects.

Objective

To determine whether the use of a low-cost virtual reality (VR) system used in conjunction with partial body weight-supported treadmill training (BWSTT) was feasible and effective in improving the walking and balance abilities of patients poststroke.

Design

A before-after comparison of a single group with BWSTT intervention.

Setting

University research laboratory.

Participants

A convenience sample of 7 adults who were within 1 year poststroke and who had completed traditional rehabilitation but still exhibited gait deficits. Six participants completed the study.

Intervention

Twelve treatment sessions of BWSTT with VR. The VR system generated a virtual environment that showed on a television screen in front of the treadmill to give participants the sensation of walking down a city street. A head-mounted position sensor provided postural feedback.

Main Outcome Measures

Functional Gait Assessment (FGA) score, Berg Balance Scale (BBS) score, and overground walking speed.

Results

One subject dropped out of the study. All other participants made significant improvements in their ability to walk. FGA scores increased from mean of 13.8 to 18. BBS scores increased from mean of 43.8 to 48.8, although a ceiling effect was seen for this test. Overground walking speed increased from mean of .49m/s to .68m/s.

Conclusions

A low-cost VR system combined with BWSTT is feasible for improved gait and balance of patients poststroke.     

Gait training of subacute stroke patients using a hybrid assistive limb: a pilot study

Purpose To determine whether gait training with a hybrid assistive limb (HAL) as an exoskeleton robotic device was safe and could increase functional mobility and gait ability in subacute stroke patients. Methods The participants were eight patients with post-stroke hemiparesis whose walking impairment and gait recovery curves had plateaued. The intervention program was gait training using HAL and a walker for 20?min daily 5 days a week for 5 weeks. The 10-m maximum walking speed (MWS), self-selected walking speed (SWS) and 2-min-walk test (2MT) without HAL were used as primary outcome measures to determine the effects of training. The Berg Balance Scale (BBS), Fugl-Meyer Assessment of Motor Recovery after Stroke (FMA) and functional ambulation category (FAC) were assessed as secondary outcomes. These measures were assessed before and after the 5-week intervention program and were analyzed statistically using a paired t-test. Results All eight participants completed the intervention program with no adverse events. There were significant increases in MWS, SWS and 2MT. BBS, FMA and FAC also increased, but not significantly. Conclusion The new HAL exoskeleton robotic device was efficient and safe for improving motor function and gait in patients in the subacute stage after stroke.

• Implications for Rehabilitation

• Gait training using HAL will improve gait ability of individuals with post stroke.

• The HAL achieve intensive gait training without increase spasticity and abnormal gait pattern.

     

Targeting Paretic Propulsion to Improve Poststroke Walking Function: A Preliminary Study

Objectives

To determine the feasibility and safety of implementing a 12-week locomotor intervention targeting paretic propulsion deficits during walking through the joining of 2 independent interventions, walking at maximal speed on a treadmill and functional electrical stimulation of the paretic ankle musculature (FastFES); to determine the effects of FastFES training on individual subjects; and to determine the influence of baseline impairment severity on treatment outcomes.

Design

Single group pre-post preliminary study investigating a novel locomotor intervention.

Setting

Research laboratory.

Participants

Individuals (N=13) with locomotor deficits after stroke.

Intervention

FastFES training was provided for 12 weeks at a frequency of 3 sessions per week and 30 minutes per session.

Main Outcome Measures

Measures of gait mechanics, functional balance, short- and long-distance walking function, and self-perceived participation were collected at baseline, posttraining, and 3-month follow-up evaluations. Changes after treatment were assessed using pairwise comparisons and compared with known minimal clinically important differences or minimal detectable changes. Correlation analyses were run to determine the correlation between baseline clinical and biomechanical performance versus improvements in walking speed.

Results

Twelve of the 13 subjects that were recruited completed the training. Improvements in paretic propulsion were accompanied by improvements in functional balance, walking function, and self-perceived participation (each P<.02)—all of which were maintained at 3-month follow-up. Eleven of the 12 subjects achieved meaningful functional improvements. Baseline impairment was predictive of absolute, but not relative, functional change after training.

Conclusions

This report demonstrates the safety and feasibility of the FastFES intervention and supports further study of this promising locomotor intervention for persons poststroke.     

Gait training with partial body weight support during overground walking for individuals with chronic stroke: a pilot study

Background

It is not yet established if the use of body weight support (BWS) systems for gait training is effective per se or if it is the combination of BWS and treadmill that improves the locomotion of individuals with gait impairment. This study investigated the effects of gait training on ground level with partial BWS in individuals with stroke during overground walking with no BWS.

Methods

Twelve individuals with chronic stroke (53.17 ± 7.52 years old) participated of a gait training program with BWS during overground walking, and were evaluated before and after the gait training period. In both evaluations, individuals were videotaped walking at a self-selected comfortable speed with no BWS. Measurements were obtained for mean walking speed, step length, stride length and speed, toe-clearance, durations of total double stance and single-limb support, and minimum and maximum foot, shank, thigh, and trunk segmental angles.

Results

After gait training, individuals walked faster, with symmetrical steps, longer and faster strides, and increased toe-clearance. Also, they displayed increased rotation of foot, shank, thigh, and trunk segmental angles on both sides of the body. However, the duration of single-limb support remained asymmetrical between each side of the body after gait training.

Conclusions

Gait training individuals with chronic stroke with BWS during overground walking improved walking in terms of temporal-spatial parameters and segmental angles. This training strategy might be adopted as a safe, specific and promising strategy for gait rehabilitation after stroke.

     

Laufbandbasierte Gangreferenzdaten für gesunde Probanden

Background

Clinical gait analysis is an established component in the evaluation of human physiological and pathological gait. Walking speed is one of the most important determinants of kinematic and kinetic parameters, and velocity-specific reference data are thus essential for interpretation of results. The aim of this study was to evaluate kinematic and kinetic gait treadmill data with respect to velocity, gender, height, and body mass.

Subjects and methods

On a dynamometric treadmill, 141 healthy volunteers underwent three trials (30?s per trial) at walking speeds of 2, 4, and 6?km/h. Kinematic and kinetic parameters were obtained using the zebris FDM-TF1.8 Treadmill (zebris Medical GmbH, Isny, Germany).

Results

In 80% (4/5) of the kinematic gait parameters, a significant influence (η² > 0.2) of walking velocity was demonstrated. This ranged from 89% (stance: η² = 0.243) to 98% (stride length: η² = 0.982). Gender effects were observed in two (40%) kinematic gait parameters (stride length: η² = 0.209; cadence: η² = 0.202).

Conclusion

Walking velocity has a large influence on the kinematics of gait on the treadmill. Therefore, clinical analysis of gait parameters should always be related to walking velocity. Use of a standardized velocity is highly recommended in a longitudinal investigation setting.

     

Comparison of soleus H-reflex modulation after incomplete spinal cord injury in 2 walking environments: treadmill with body weight support and overground

Phadke CP, Wu SS, Thompson FJ, Behrman AL. Comparison of soleus H-reflex modulation after incomplete spinal cord injury in 2 walking environments: treadmill with body weight support and overground.

Objective

To investigate a walking environment effect on soleus H-reflex modulation during walking in persons with motor incomplete spinal cord injury (SCI) and noninjured controls.

Design

Pretest and posttest repeated-measures quasi-experimental controlled design.

Setting

Locomotor training laboratory.

Participants

Eight adults with incomplete SCI and 8 noninjured age- and speed-matched controls.

Intervention

Walking overground with a customary assistive device and brace at a self-selected, comfortable walking speed was compared with walking on treadmill with 40% body weight support (BWS) and manual trainers for leg and trunk movement guidance.

Main Outcome Measure

Mean soleus H-reflex amplitude (H/M ratio) was recorded during midstance and midswing phases of walking.

Results

The H/M ratio was 33% smaller in stance phase (P=.078) and 56% smaller in the swing phase (P=.008) of walking on the treadmill with BWS and manual assistance compared with overground in the incomplete SCI group. The H/M ratio in the incomplete SCI group was significantly greater compared with noninjured controls in the stance and swing phases of overground walking (P=.001, P=.007, respectively). Soleus H-reflex modulation in the 2 walking environments did not differ significantly in the noninjured population.

Conclusions

Training walking on a treadmill with BWS and manual assistance to approximate the kinematics and spatiotemporal pattern of walking may be a more optimal environment to aid in normalizing reflex modulation after incomplete SCI when compared with conventional gait training overground.     

Arm motor control as predictor for hypertonia after stroke: a prospective cohort study

de Jong LD, Hoonhorst MH, Stuive I, Dijkstra PU. Arm motor control as predictor for hypertonia after stroke: a prospective cohort study.

Objectives

To analyze the development of hypertonia in the hemiparetic elbow flexors, and to explore the predictive value of arm motor control on hypertonia in a cohort of first-ever stroke survivors in the first 6 months poststroke.

Design

A prospective cohort study.

Setting

A cohort of stroke survivors from a large, university-affilliated hospital in The Netherlands.

Participants

Patients (N=50) with first-time ischemic strokes and initial arm paralysis who were admitted to a stroke unit.

Interventions

Not applicable.

Main Outcome Measures

At 48 hours, 10 to 12 days, 3 and 6 months poststroke, hypertonia and arm motor control were assessed using the Modified Ashworth Scale and the Fugl-Meyer Assessment arm score.

Results

The incidence rate of hypertonia reached its maximum before the third month poststroke (30%). Prevalence was 42% at 3 and 6 months. Participants with poor arm motor control at 48 hours poststroke were 13 times more likely to develop hypertonia in the first 6 months poststroke than those with moderate to good arm motor control. These results were not confounded by the amount of arm function training received.

Conclusions

Hypertonia develops in a large proportion of patients with stroke, predominantly within the first 3 months poststroke. Poor arm motor control is a risk factor for the development of hypertonia.     

Effects of walking with loads above the ankle on gait parameters of persons with hemiparesis after stroke

Background

Walking with a load at the ankle during gait training is a simple way to resist lower limb movements to induce functional muscle strengthening. This study investigated the effects of walking with different loads attached above the paretic ankle on biomechanical gait parameters during over ground walking in post-stroke participants.

Methods

Ten participants with moderate chronic hemiparesis were evaluated while walking over ground with three different loads (0.5, 1.0, and 1.5 kg) attached above the paretic ankle. Gait speed, cadence, step lengths as well as hip and knee angular displacements, joint moments and power of the paretic limb were compared while walking with and without loads.

Findings

Walking with a load led to an increased in gait speed (+ 0.03–0.05 m/s), and in step length of the paretic leg (+ 5.6 to 9.4% step length, effect size = 0.49–0.63), but not of the non-paretic leg. The proportion of the stance and swing phases did not change. Maximal joint moments (+ 20 to 48%, effect size = 0.26–0.55) and power (+ 20 to 114%, effect size = 0.30–0.57) increases varied across participants but were mostly affected in early stance at the hip and during the late swing phase at the knee. Mean angular displacement changes were less than 4°.

Interpretation

Post-stroke participants are able to increase hip and knee power bursts to meet the increased mechanical demand of added loads attached to the paretic ankle, while preserving the basic pattern of walking. Further study is needed before using loading to functionally strengthen paretic muscles.     

Feasibility of motor capability training at home in children with acquired brain injury

Objectives

Acquired brain injury (ABI) requires an extended recovery time and residual signs may be observed years after discharge. Supervised home-based motor training may present a viable option for continuing treatment of adult patients, but little information is available on home-based treatment in children. This study assessed the feasibility of home practice in children with ABI (1 or more years post-trauma). The efficacy of the programme was also evaluated.

Design

A non-randomised, self-control study with control and intervention periods.

Setting

Home-based exercise programme.

Participants

Nineteen children (mean age 12.5 ± 3.1 years).

Interventions

A 4-week daily training programme of step-up and sit-stand-sit exercises.

Main outcome measures

Feasibility was assessed by the number of participants who completed the programme. Efficacy was evaluated at different stages using 10-metre walking and 2-minute walking tests, and the balance subitems of the Bruininks-Oseretsky Test of Motor Proficiency. An energy expenditure index was calculated for walking. Performance scores were used to assess balance.

Results

Nine participants completed the study. The mean number of training sessions was 22 ± 8 of the 30 sessions originally scheduled. Major differences were noted between the experimental stages. Walking speed, endurance and balance improved significantly during the intervention period.

Conclusions

Continuing exercising at home may be a feasible and efficient option for a considerable proportion of ABI children who are compliant with a simple but challenging exercise programme. A randomised controlled trial with a larger sample is now required.     

Effects of a novel walking training program with postural correction and visual feedback on walking function in patients with post-stroke hemiparesis

[Purpose] This study aimed to elucidate the effects of a novel walking training program with postural correction and visual feedback on walking function in patients with post-stroke hemiparesis. [Subjects] Sixteen subjects were randomly allocated to either the experimental group (EG) or the control group (CG), with eight subjects in each. [Methods] EG and CG subjects performed a 30-min treadmill walking training exercise twice daily for 2 weeks. EG subjects also underwent postural correction using elastic bands and received visual feedback during walking. The 10-m walk test was performed, and gait parameters were measured using a gait analysis system. [Results] All parameters showed significant main effects for the group factor and time-by-group interactions. Significant main effects for the time factor were found in the stride length and stance phase ratios. [Conclusion] The novel walking training program with postural correction and visual feedback may improve walking function in patients with post-stroke hemiparesis.Key words: Postural correction, Stroke, Walking function     

Locomotion Improvement Using a Hybrid Assistive Limb in Recovery Phase Stroke Patients: A Randomized Controlled Pilot Study

Objective

To compare the efficacy of gait training using a single-leg version of the Hybrid Assistive Limb (HAL) on the paretic side with conventional gait training in individuals with subacute stroke.

Design

Randomized open controlled pilot trial.

Setting

Hospitalized care.

Participants

Convenience sample of 44 patients who met the criteria; 12 patients refused. After randomization (N=32), 10 patients withdrew and a total of 22 poststroke participants (HAL group: n=11; conventional group: n=11) completed the randomized controlled trial.

Interventions

All participants received twelve 20-minute sessions in 4 weeks of either HAL (wearing the single-leg version of the HAL on their paretic side) or conventional (performed by skilled and experienced physical therapists) gait training.

Main Outcome Measures

Outcome measures were evaluated prior to training and after 12 sessions. Functional Ambulation Category (FAC) was the primary outcome measure, whereas secondary outcome measures included maximum walking speed, timed Up and Go test, 6-minute walk distance, Short Physical Performance Battery, Fugl-Meyer Assessment of Lower Extremity, and isometric muscle strength (hip flexion and extension, knee flexion and extension).

Results

No participants withdrew because of adverse effects. Participants who received gait training with the HAL showed significantly more improvement in the FAC than those who received conventional gait training (95% confidence interval, .02–.88; P=.04). Secondary measures did not differ between the 2 groups.

Conclusions

The results obtained in this randomized controlled trial suggest that a gait training program with the HAL could improve independent walking more efficiently than conventional gait training.     

Motor imagery practice in gait rehabilitation of chronic post-stroke hemiparesis: four case studies

The aim of this series of pilot case studies was to examine the feasibility of enhancing the walking of individuals with post-stroke hemiparesis through the imagery practice of gait activities at home. Four persons with chronic hemiparesis received imagery gait practice, 3 days a week for 6 weeks. The intervention addressed gait impairments of the affected lower limb and task-specific gait training. Pre-intervention, mid-term, post-intervention and follow-up evaluations were performed. At 6 weeks from the beginning of treatment, the participants increased walking speed, stride length, cadence and single-support time on the affected lower limb, while decreasing double-support time. The findings appear to justify the institution of a larger-scale study in order to better delineate the contribution of motor imagery practice to gait performance in individuals with post-stroke hemiparesis.     

Cortical Reorganization Induced by Body Weight-Supported Treadmill Training in Patients With Hemiparesis of Different Stroke Durations

Yang Y-R, Chen I-H, Liao K-K, Huang C-C, Wang R-Y. Cortical reorganization induced by body weight-supported treadmill training in patients with hemiparesis of different stroke durations.

Objective

To investigate corticomotor changes induced by body weight-supported treadmill training (BWSTT) in patients with short or long poststroke duration.

Design

Single-blinded and randomized controlled trial.

Setting

Neurologic physical therapy research laboratory.

Participants

Hemiparesis patients (N=18) whose motor-evoked potentials could be induced participated in this study. Subjects in each hemiparesis postonset of short (<6mo) or long (>12mo) duration group were randomly assigned to either the control or experimental group.

Interventions

Subjects in the experimental groups participated in BWSTT for 4 weeks. Those in the control groups received the general exercise program.

Main Outcome Measures

The primary outcomes were motor threshold and map size of the abductor hallucis muscle in the ipsilesional hemisphere. The secondary outcome was Fugl-Meyer Assessment. Outcome measures were blindly assessed before and after completing the 4 weeks of training.

Results

The 4-week BWSTT resulted in a decrease of motor threshold and an increase of map size in subjects with hemiparesis of short duration, whereas only the expansion of the map size was noted in subjects with hemiparesis of long duration. Improvement of motor control occurred in subjects with hemiparesis of both short and long duration after BWSTT.

Conclusions

The BWSTT results in similar improvement in motor control but different patterns of treatment-induced cortical reorganization in subjects with different poststroke durations.     

Recovery of Paretic Lower Extremity Loading Ability and Physical Function in the First Six Months After Stroke

Objectives

To evaluate poststroke recovery of paretic lower extremity loading, walking ability, and self-reported physical function; and to identify subject characteristics associated with recovery.

Design

Inception cohort study, with testing at monthly intervals from 1 to 6 months poststroke.

Setting

Medical center and research laboratory.

Participants

Volunteer sample of individuals with first-ever, unilateral, noncerebellar stroke (N=33). A total of 78 individuals underwent screening, and 45 were found to be eligible. Of these, 8 declined participation, 2 were excluded because of deteriorating cognitive status, and 2 were lost to follow-up. The remaining 33 individuals enrolled in the study, and 30 (91%) completed the study.

Interventions

Not applicable.

Main Outcome Measures

Outcomes were loading of the paretic lower extremity when standing up from a chair, self-selected gait speed (GS), and Physical Functioning Index.

Results

Data analyses using linear mixed models indicated that subjects improved over time for all outcomes. Baseline Fugl-Meyer (FM) lower extremity motor scale score was a predictor of immediate poststroke performance for paretic lower extremity loading and self-selected GS, and a predictor of recovery rate for paretic lower extremity loading. Factors identified as having significant effects on performance at 6 months poststroke were baseline FM lower extremity motor scale score for paretic lower extremity loading and self-selected GS and baseline star cancellation score (from the Behavioral Inattention Test) for paretic lower extremity loading.

Conclusions

Individuals with better baseline paretic lower extremity motor function have better ability to load that extremity during functional activities and faster walking speeds, and these advantages are still present at 6 months poststroke. Individuals with severe visuospatial neglect demonstrate less ability to load the paretic leg during functional activities at 6 months poststroke.