Effect of Functional Electrical Stimulation in Convalescent Stroke Patients: A Multicenter, Randomized Controlled Trial.

BACKGROUND: We evaluated whether the Walkaide® device could effectively improve walking ability and lower extremity function in post-stroke patients with foot drop. Patients aged 20-85 years with an initial stroke within ≤6 months and a functional ambulation classification score of 3 or 4 were eligible. MATERIALS AND METHODS: Patients were randomly allocated to the functional electrical stimulation (FES) or control group at a 1:1 ratio. A 40 min training program using Walkaide was additionally performed by the FES group five times per week for 8 weeks. The control group received the 40 min training program without FES. RESULTS: A total of 203 patients were allocated to the FES (n = 102) or control (n = 101) groups. Patients who did not receive the intervention or whose data were unavailable were excluded. Finally, the primary outcome data of 184 patients (n = 92 in each group) were analyzed. The mean change in the maximum distance during the 6-MWT (primary outcome) was 68.37 ± 62.42 m and 57.50 ± 68.17 m in the FES and control groups (difference: 10.86 m; 95% confidence interval: -8.26 to 29.98, p = 0.26), respectively. CONCLUSIONS: In Japanese post-stroke patients with foot drop, FES did not significantly improve the 6 min walk distance during the convalescent phase. The trial was registered at UMIN000020604.

Quantitative measurement of resistance force and subsequent attenuation during passive isokinetic extension of the wrist in patients with mild to moderate spasticity after stroke.

BACKGROUND: Spasticity is evaluated by measuring the increased resistance to passive movement, primarily by manual methods. Few options are available to measure spasticity in the wrist more objectively. Furthermore, no studies have investigated the force attenuation following increased resistance. The aim of this study was to conduct a safe quantitative evaluation of wrist passive extension stiffness in stroke survivors with mild to moderate spastic paresis using a custom motor-controlled device. Furthermore, we wanted to clarify whether the changes in the measured values could quantitatively reflect the spastic state of the flexor muscles involved in the wrist stiffness of the patients. MATERIALS AND METHODS: Resistance forces were measured in 17 patients during repetitive passive extension of the wrist at velocities of 30, 60, and 90 deg/s. The Modified Ashworth Scale (MAS) in the wrist and finger flexors was also assessed by two skilled therapists and their scores were averaged (i.e., average MAS) for analysis. Of the fluctuation of resistance, we focused on the damping just after the peak forces and used these for our analysis. A repeated measures analysis of variance was conducted to assess velocity-dependence. Correlations between MAS and damping parameters were analyzed using Spearman's rank correlation. RESULTS: The damping force and normalized value calculated from damping part showed significant velocity-dependent increases. There were significant correlations (ρ = 0.53-0.56) between average MAS for wrist and the normalized value of the damping part at 90 deg/s. The correlations became stronger at 60 deg/s and 90 deg/s when the MAS for finger flexors was added to that for wrist flexors (ρ = 0.65-0.68). CONCLUSIONS: This custom-made isokinetic device could quantitatively evaluate spastic changes in the wrist and finger flexors simultaneously by focusing on the damping part, which may reflect the decrease in resistance we perceive when manually assessing wrist spasticity using MAS. Trial registration UMIN Clinical Trial Registry, as UMIN000030672, on July 4, 2018.

Reaching exercise for chronic paretic upper extremity after stroke using a novel rehabilitation robot with arm-weight support and concomitant electrical stimulation and vibration: before-and-after feasibility trial.

BACKGROUND: Our group developed a rehabilitation robot to assist with repetitive, active reaching movement of a paretic upper extremity. The robot is equipped with a servo motor-controlled arm-weight support and works in conjunction with neuromuscular electrical stimulation and vibratory stimulation to facilitate agonist-muscle contraction. In this before-and-after pilot study, we assessed the feasibility of applying the robot to improve motor control and function of the hemiparetic upper extremity in patients who suffered chronic stroke. METHODS: We enrolled 6 patients with chronic stroke and hemiparesis who, while sitting and without assistance, could reach 10 cm both sagitally and vertically (from a starting position located 10 cm forward from the patient's navel level) with the affected upper extremity. The patients were assigned to receive reaching exercise intervention with the robot (Yaskawa Electric Co., Ltd. Fukuoka, Japan) for 2 weeks at 15 min/day in addition to regular occupational therapy for 40 min/day. Outcomes assessed before and after 2 weeks of intervention included the upper extremity component of the Fugl-Meyer Assessment (UE-FMA), the Action Research Arm Test (ARAT), and, during reaching movement, kinematic analysis. RESULTS: None of the patients experienced adverse events. The mean score of UE-FMA increased from 44.8 [SD 14.4] to 48.0 [SD 14.4] (p = 0.026, r = 0.91), and both the shoulder-elbow and wrist-hand scores increased after 2-week intervention. An increase was also observed in ARAT score, from mean 29.8 [SD 16.3] to 36.2 [SD 18.1] (p = 0.042, r = 0.83). Kinematic analysis during the reaching movement revealed a significant increase in active range of motion (AROM) at the elbow, and movement time tended to decrease. Furthermore, trajectory length for the wrist ("hand path") and the acromion ("trunk compensatory movement") showed a decreasing trend. CONCLUSIONS: This robot-assisted modality is feasible and our preliminary findings suggest it improved motor control and motor function of the hemiparetic upper extremity in patients with chronic stroke. Training with this robot might induce greater AROM for the elbow and decrease compensatory trunk movement, thus contributing to movement efficacy and efficiency. Trial registration UMIN Clinical Trial Registry, as UMIN000018132, on June 30, 2015. https://upload.umin.ac.jp/cgi-open-bin/ctr/ctr_view.cgi?recptno=R000020398.

Acute changes in cortical activation during active ankle movement after whole-body vibration for spasticity in hemiplegic legs of stroke patients: a functional near-infrared spectroscopy study.

Background: A recent study revealed that whole-body vibration (WBV) tends to decrease spasticity in stroke-related hemiplegic legs. However, acute changes in cortical activation after WBV are unclear.Objective: To examine whether WBV induces acute changes in sensorimotor cortical activation in patients with stroke-related hemiplegic legs.Methods: Eleven stroke patients (mean age 52.6 [SD 15.4] years; median time after stroke 3 [25th and 75th percentiles; 3 and 10.5, respectively] months) participated in a comparative before-and-after intervention trial. Six healthy adults were also studied. WBV at 30 Hz was applied for 5 min to the hamstrings, gastrocnemius, and soleus muscles. Spasticity was assessed according to the modified Ashworth scale (MAS). Active and passive range of motion (A-ROM and P-ROM, respectively) were also measured. Change in Oxy-Hb concentration in bilateral sensorimotor cortex associated with voluntary ankle dorsiflexion of the affected limb was assessed via functional near-infrared spectroscopy (fNIRS) before and immediately after WBV.Results: MAS score, A-ROM, and P-ROM improved immediately after WBV. In the patients, while there was no significant interaction between effects of region (ipsilesional and contralesional sensorimotor cortex) and the WBV intervention (before and immediately after WBV) (F1,10 = 0.702, p = .422), there was a significant main effect of the WBV intervention (F1,10 = 6.971, p = .025). In the healthy participants, there was no association with the WBV intervention or region.Conclusions: In patients with stroke-related spastic-hemiplegic legs, WBV might result not only in clinical improvement but also in acute increase in sensorimotor cortical activation.

Effects of concomitant neuromuscular electrical stimulation during repetitive transcranial magnetic stimulation before repetitive facilitation exercise on the hemiparetic hand.

BACKGROUND: Repetitive transcranial magnetic stimulation (rTMS) and Repetitive facilitative exercise (RFE) improves motor impairment after stroke. OBJECTIVE: To investigate whether neuromuscular electrical stimulation (NMES) can facilitate the effects of rTMS and RFE on the function of the hemiparetic hand in stroke patients. METHODS: This randomized double-blinded crossover study divided 20 patients with hemiparesis into two groups and provided treatment for 4 weeks at 5 days/week. NMES-before-sham group and NMES-following-sham group performed NMES sessions and sham NMES sessions for each 2 weeks. Patients received NMES or sham NMES for the affected extensor muscle concurrently with 1 Hz rTMS for the unaffected motor cortex for 10 min and performed RFE for 60 min. The Fugl-Meyer Assessment (FMA), Action Research Arm Test (ARAT), Box and Block Test (BBT) and Modified Ashworth Scale (MAS) were used for evaluation. RESULTS: FMA and ARAT improved significantly during both sessions. The gains in the BBT during an NMES session were significantly greater than those during a sham NMES session. MAS for the wrist and finger significantly decreased only during an NMES session. CONCLUSIONS: NMES combined with rTMS might facilitate, at least in part, the beneficial effects of RFE on motor function and spasticity of the affected upper limb.

Rationale and design of the theRapeutic effects of peroneal nerve functionAl electrical stimuLation for Lower extremitY in patients with convalescent poststroke hemiplegia (RALLY) study: study protocol for a randomised controlled study.

INTRODUCTION: Increasing evidence supports the utilisation of functional electrical stimulation (FES) to improve gait following stroke; however, few studies have focused exclusively on its use in the convalescent phase. In addition, its efficacy in patients with a non-Western life style has not been evaluated. METHODS AND ANALYSIS: This is a randomised, controlled, open-label multicentre study, comparing rehabilitation with and without FES. The purpose of our study is to test the hypothesis that the FES system improves walking ability in Japanese patients with hemiplegia during the convalescent phase. Two hundred patients aged 20-85 years who had an initial stroke ≤6 months prior to the enrolment, are in a convalescent phase (after the end of acute phase treatment, within 6 months after the onset of stroke) with functional ambulation classification 3 or 4 and have a hemiplegic gait disorder (drop foot) due to stroke have been recruited from 21 institutions in Japan. The patients are randomised in 1:1 fashion to usual gait rehabilitation or rehabilitation using FES (Walkaide). The trial duration is 8 weeks, and the primary outcome measured will be the change in maximum distance from baseline to the end of the trial, as measured with the 6 min walk test (6-MWT). The 6-MWT is performed barefoot, and the two treatment groups are compared using the analysis of covariance. ETHICS AND DISSEMINATION: This study is conducted in accordance with the principles of the Declaration of Helsinki and the Ethical Guidelines for Medical and Health Research Involving Human Subjects and is approved by the ethics committee of all participating institutions. The published results will be disseminated to all the participants by the study physicians. TRIAL REGISTRATION NUMBER: The University Hospital Medical Information Network-Clinical Studies Registry (UMIN000020604).

Effects of Repetitive Facilitative Exercise on Spasticity in the Upper Paretic Limb After Subacute Stroke.

BACKGROUND: Repetitive facilitative exercise is an effective method for recovery of the affected limb in stroke patients. However, its effects on spasticity are unknown. We aimed to determine the effects of repetitive facilitative exercise on spasticity using the Modified Ashworth Scale (MAS) and the F-wave, and to determine the relationship between the changes in spasticity and functional recovery of the hemiplegic upper limb. METHODS: Subacute stroke patients underwent repetitive facilitative exercise (n = 11) or conventional rehabilitation (n = 8) for 4 weeks. We investigated spasticity and functional recovery in a hemiplegic upper limb retrospectively. The MAS, F-wave, Fugl-Meyer Assessment (FMA), and the Action Research Arm Test (ARAT) were assessed immediately before and after the 4-week session. RESULTS: Repetitive facilitative exercise did not change the MAS and decreased F persistence and the F amplitude ratio, and improved both the FMA and the ARAT for the affected upper limb. The reduction of F-wave parameters was not correlated with the improvements in the FMA and ARAT in the repetitive facilitative exercise group. Conventional rehabilitation had no effect on the MAS, F-wave parameters, FMA, or the ARAT. CONCLUSIONS: Repetitive facilitative exercise decreases spinal motoneuron excitability and promotes functional recovery. However, there was no correlation between the change in spinal motoneuron excitability and the improvement of upper-limb function. The present results suggest that repetitive facilitative exercise is useful for treating spasticity in the subacute phase of stroke.

Effect of whole body vibration on spasticity in hemiplegic legs of patients with stroke.

BACKGROUND: Several reports have focused on the effects of whole body vibration (WBV) on spasticity with differing results. Most studies used modified Ashworth scale (MAS) for qualitative measurements, but the effect was small. OBJECTIVE: To investigate the effect of WBV on spasticity in hemiplegic legs of patients with stroke using F-wave parameters. METHODS: Sixteen patients with stroke (mean age, 54.7 ± 13.5 years: time after stroke, 28.0 ± 26.3 months) were enrolled in a comparative before-and-after intervention trial. WBV was applied at 30 Hz (4-8 mm amplitude) for 5 min on the hamstrings, gastrocnemius, and soleus muscles in a sitting position. Spasticity was assessed according to the F-wave parameters, MAS, and active and passive range of motion (A-ROM and P-ROM, respectively). These assessments were obtained before, immediately after, and 20 min after each intervention. RESULTS: The F-wave parameters, MAS score, and P-ROM improved significantly after the WBV and remained below the baseline level, even after 20 min; no such change was noted in the unaffected limb via the F-wave parameters. The WBV also improved volitional movement immediately after intervention, as indicated by the A-ROM. CONCLUSIONS: These results confirmed a significant reduction of motor neuron excitability until 20 min after the WBV, as indicated by F-wave parameters.

Outcomes of repetitive facilitation exercises in convalescent patients after stroke with impaired health status.

OBJECTIVE: To investigate the impact of stroke on health status and the effects of repetitive facilitation exercises (RFEs) for convalescent patients after stroke. METHODS: The study was a prospective observational study of patients enrolled in an RFE programme. Between April 2008 and March 2012, 468 patients with stroke were enrolled in an intensive, comprehensive RFE programme. Patients participated in this interdisciplinary programme for 12 weeks, for an average of 5 hours per week. Before and immediately after the programme, several measures of rehabilitation outcomes and health-related quality-of-life were evaluated. RESULTS: At baseline, most patients (95.4%) had modified Rankin scale scores of 3-5. Their health-related quality-of-life was significantly impaired, with physical and mental component summary scores on the Short Form 36-item questionnaire (SF-36) of 30.7 and 35.8, respectively. After the RFE programme, all outcome measures improved significantly. CONCLUSIONS: The results demonstrate that convalescent patients after stroke may benefit substantially from RFE programmes in stroke rehabilitation centres, even when patients have impaired health status or high levels of healthcare utilization. Thus, an RFE programme is a simple yet highly effective means to improve rehabilitation outcomes and health-related quality-of-life, with a relatively low dropout rate.

Effect of Underwater Exercise on Lower-Extremity Function and Quality of Life in Post-Stroke Patients: A Pilot Controlled Clinical Trial.

OBJECTIVES: To date, controlled clinical trials evaluating the efficacy of underwater exercise in improving the lower-extremity function and quality of life (QOL) in post-stroke patients have yet to be conducted. The purpose of the present study was to determine whether repeated underwater exercise enhances the therapeutic effect of conventional therapy for post-stroke patients. DESIGN: This was a pilot controlled clinical trial. SETTING: The study took place in a research facility attached to a rehabilitation hospital. PATIENTS: This prospective trial included 120 consecutive post-stroke inpatients with hemiplegic lower limbs (Brunnstrom stage 3-6). Patients were assigned to either an experimental or a control group. Patients in the experimental group received both repeated underwater exercise and conventional rehabilitation therapy. INTERVENTIONS: The underwater exercise consisted of 30-min training sessions in a pool with a water temperature of 30-31°C in which patients followed the directions and movements of trained staff. Training sessions were conducted once a day on 2 days of the week for a total of 24 times. Patients in the control group received only the conventional therapy. OUTCOME MEASURES: The 10-Minute Walk Test (10MWT), the Modified Ashworth Scale, and the 36-Item Short Form Health Survey were the outcome measures used. Lower-extremity function and QOL were assessed before and upon completion of the 12-week program. RESULTS: Improvements in 10MWT results and spasticity parameters were greater in the experimental group than they were in the control group (p < 0.01). Significant differences between the groups were observed in magnitudes of changes of all QOL parameters (p < 0.01). CONCLUSIONS: Combining conventional therapy with repeated underwater exercise may improve both lower-extremity function and QOL in post-stroke patients.

Effects of repetitive facilitative exercise with neuromuscular electrical stimulation, vibratory stimulation and repetitive transcranial magnetic stimulation of the hemiplegic hand in chronic stroke patients.

AIM: Repetitive facilitative exercise (RFE) is a developed approach to the rehabilitation of hemiplegia. RFE can be integrated with neuromuscular electrical stimulation (NMES), direct application of vibratory stimulation (DAVS) and repetitive transcranial magnetic stimulation (rTMS). The aims of the present study were to retrospectively compare the effects of RFE and NMES, DAVS with those of RFE and rTMS, and to determine the maximal effect of the combination of RFE with NMES, DAVS, rTMS and pharmacological treatments in stroke patients. SUBJECTS AND METHODS: Thirty-three stroke patients were enrolled and divided into three groups: 15 who received RFE with rTMS (4 min) (TMS4 alone), 9 who received RFE with NMES, DAVS (NMES, DAVS alone) and 9 who received RFE with NMES, DAVS and rTMS (10 min) (rTMS10 + NMES, DAVS). The subjects performed the Fugl-Meyer Assessment (FMA) and Action Research Arm Test (ARAT) before and after the 2-week session. The 18 patients in the NMES, DAVS alone and rTMS10 + NMES, DAVS group underwent the intervention for 4 weeks. RESULT: There were no significant differences in the increases in the FMA, ARAT scores in the three groups. The FMA or ARAT scores in the NMES, DAVS alone and the rTMS10 + NMES, DAVS group were increased significantly. The FMA and ARAT scores were significantly improved after 4 weeks in the NMES, DAVS alone group. DISCUSSION: RFE with NMES, DAVS may be more effective than RFE with rTMS for the recovery of upper-limb function. Patients who received RFE with NMES, DAVS and pharmacological treatments showed significant functional recovery.

Anti-spastic effects of footbaths in post-stroke patients: a proof-of-principle study.

OBJECTIVES: To investigate whether a footbath inhibits spasticity in the hemiplegic lower limbs of post-stroke patients. DESIGN: Randomized, controlled study. SETTING: Rehabilitation education and research hospital. INTERVENTIONS: Twenty-two post-stroke patients were randomly allocated to control or experimental groups. After relaxing in a supine posture for 30min, the experimental group subject's legs were immersed in 41°C water below the knee joint for 15min, while the control group remained in a resting posture. MAIN OUTCOME MEASURES: Modified Ashworth Scale (MAS) scores of the affected triceps surae muscle and F-wave parameters (i.e., F-wave amplitude, F/M ratio, and F-wave persistence) were recorded before, immediately after, and 30min after each intervention. Physiological parameters were simultaneously monitored to determine the thermo-therapeutic mechanisms and side effects of footbath usage. RESULTS: At the time immediately after the intervention, F-wave amplitudes decreased significantly in the experimental group, compared to the control group (p<0.01, difference: -106.8; 95% CI; -181.58 to -32.09). F-wave amplitudes decreased significantly after 30-min intervention in the experimental group, with a total reduction of 161.2µV being recorded compared to 8.8µV increase in the control group (p<0.01, difference: -170.0; 95% CI; -252.73 to -87.33). There were also significant differences between the experimental and control group for both F/M ratio and F-wave persistence, immediately after and 30min after the intervention. Further, there were significant differences between the experimental and control group for the MAS scores immediately after the intervention (p<0.05, difference: -0.72; 95% CI; -1.262 to -0.193), and 30min after the intervention (p<0.05, difference: -0.73; 95% CI; -1.162 to -0.293). CONCLUSION: These findings demonstrate that the use of footbaths is an effective non-pharmacological anti-spastic treatment for use in stroke rehabilitation.

Novel neuromuscular electrical stimulation system for treatment of dysphagia after brain injury.

The purpose of this study was to compare the effects of a novel neuromuscular electrical stimulation (NMES) to the effects of conventional treatment in patients with dysphagia after brain injury. In total, 26 patients were non-randomly divided into an experimental group (n = 12) and a control group (n = 14). The experimental group received NMES intervention followed by conventional treatment, including thermaltactile stimulation with intensive repetition of a dry-swallow task. The control group received conventional treatment without NMES. NMES at a fixed pulse duration of 50 µs and a frequency of 50 Hz was delivered over the skin areas above the motor point of the target muscles, i.e., the bilateral geniohyoid, mylohyoid/anterior belly of the digastric, and thyrohyoid muscles, using a high-voltage pulsed-current device. The two groups received 40-min treatments once a day, 5 days per week, for 8 weeks. Outcome, assessed before and 8 weeks after treatment, was evaluated with regard to the videofluoroscopic dysphagia scale (VDS), the anterior and superior displacement of the hyoid bone and larynx, and the functional oral intake scale. Both groups exhibited improvement, but the experimental group exhibited more significant improvement in the displacement of the hyoid bone and larynx, VDS-total score, and VDS-pharyngeal score than the control group did. The results suggest that NMES combined with conventional treatment is superior to conventional treatment alone in patients with dysphagia following treatment for brain injury. Further investigations are necessary to examine the effects of NMES in patients with more varied types of diseases.

Novel neuromuscular electrical stimulation system for the upper limbs in chronic stroke patients: a feasibility study.

OBJECTIVE: The aim of this study was to assess the feasibility of applying a novel neuromuscular electrical stimulation system, targeting shoulder flexion, elbow extension, wrist extension, and individual finger extensions, to improve motor control and function of the hemiparetic upper limbs in chronic stroke patients. DESIGN: Fifteen participants with chronic (>1 yr after cerebrovascular accident) upper limb hemiparesis were enrolled. The subjects underwent upper limb training for 60 mins per day, 6 days per week, for 2 wks, using both a shoulder-and-elbow stimulation device and a wrist-and-finger stimulation device developed by the study investigators. Outcomes were assessed using the upper extremity component of the Fugl-Meyer assessment, the action research arm test, and the modified Ashworth scale before and after intervention. RESULTS: All patients completed the training successfully using the neuromuscular electrical stimulation system without any safety incidents or other complications reported. Nonparametric statistical analyses indicated significant improvements in the upper extremity component of the Fugl-Meyer assessment and action research arm test scores, both at P < 0.01. There were also significant reductions in modified Ashworth scale scores for the elbow and the wrist flexor, both at P < 0.01. CONCLUSIONS: The multimuscle stimulation approach and method presented in this study seem feasible, and the improvements of upper limb motor control and functional test in chronic stroke patients justify further controlled investigation.

Feasibility of using whole body vibration as a means for controlling spasticity in post-stroke patients: a pilot study.

To examine the feasibility of adapting whole body vibration (WBV) in the hemiplegic legs of post-stroke patients and to investigate the anti-spastic effects, and the improvement of motor function and walking ability. Twenty-five post-stroke patients with lower-limb spasticity were enrolled in the study. Each subject sat with hip joint angles to approximately 90° of flexion, and with knee joint angles to 0° of extension. WBV was applied at 30 Hz (4-8 mm amplitude) for 5 min on hamstrings, gastrocnemius and soleus muscles. The modified Ashworth scale was significantly decreased, active and passive range of motion (A-ROM, P-ROM) for ankle dorsiflexion and straight leg raising increased, and walking speed and cadence both improved during the 5-min intervention. Our proposed therapeutic approach could therefore be a novel neuro-rehabilitation strategy among patients with various severities.

Repetitive facilitative exercise under continuous electrical stimulation for severe arm impairment after sub-acute stroke: a randomized controlled pilot study.

OBJECTIVE: To investigate the effectiveness of repetitive facilitative exercise (RFE) under surface neuromuscular electrical stimulation (NMES) in patients with post-stroke hemiplegia. METHODS: This randomized, controlled, observer-blinded, pilot trial randomized 27 adults with severe arm impairment [Fugl-Meyer Arm scale (FMA) ≤ 20] due to stroke of 3-13 weeks duration into three groups and provided treatment on a 4-week, 40 minutes/day, 5 days/week schedule. The RFE-under-NMES group were given 100-150 repetitions of standardized movements of shoulder, elbow and wrist joints of their affected arm with concurrent low-amplitude NMES for each corresponding musculature. The RFE group was given the same exercise regimen but without NMES. The control group was treated with a conventional arm rehabilitation programme without NMES. FMA was assessed at baseline and 4 weeks. RESULTS: All 27 participants (nine in each group) completed the trial. At 4 weeks, the RFE-under-NMES group evidenced significantly greater improvement compared with the control group on the FMA (p = 0.003), but not with the RFE group (p = 0.092). The RFE group showed improvement compared with the control group, but it was not significant (p = 0.199). CONCLUSIONS: RFE under NMES is feasible in clinical settings and may be more effective than conventional rehabilitation in lessening arm impairment after sub-acute stroke.

Effects of repetitive trascranial magnetic stimulation on repetitive facilitation exercises of the hemiplegic hand in chronic stroke patients.

OBJECTIVE: To investigate whether multiple sessions of 1-Hz repetitive transcranial magnetic stimulation (rTMS) facilitates the effect of repetitive facilitation exercises on hemiplegic upper-limb function in chronic stroke patients. DESIGN: Randomized double-blinded crossover study. PATIENTS: Eighteen patients with hemiplegia of the upper limb. METHODS: Patients were assigned to 2 groups: a motor-before-sham rTMS group, which performed motor rTMS sessions for 2 weeks followed by sham rTMS sessions for 2 weeks; or a motor-following-sham rTMS group, which performed sham rTMS sessions for 2 weeks followed by motor rTMS sessions for 2 weeks. Patients received 1-Hz rTMS to the unaffected motor cortex for 4 min and performed repetitive facilitation exercises for 40 min during motor rTMS sessions. The Fugl-Meyer Assessment, Action Research Arm Test (ARAT) and Simple Test for Evaluating Hand Function were used to evaluate upper-limb function. The Modified Ashworth Scale and F-wave were measured to evaluate spasticity. RESULTS: Motor function improved significantly during the motor, but not sham, rTMS sessions. ARAT score gains were 1.5 (0-4.0) (median, interquartile range) during the motor rTMS session, and 0 (-0.8-1.8) during the sham rTMS session (p = 0.04). Spasticity did not significantly change during either session. CONCLUSION: Multiple sessions of 1-Hz rTMS facilitated the effects of repetitive facilitation exercises in improving motor function of the affected upper limb, but did not change spasticity.

Benefits of a repetitive facilitative exercise program for the upper paretic extremity after subacute stroke: a randomized controlled trial.

BACKGROUND: Repetitive facilitative exercise (RFE), a combination of high repetition rate and neurofacilitation, is a recently developed approach to the rehabilitation of stroke-related limb impairment. Preliminary investigations have been encouraging, but a randomized controlled evaluation has yet to be performed. OBJECTIVES: To compare the efficacy of RFE with that of conventional rehabilitation in adults with subacute stroke. METHODS: A total of 52 adults with stroke-related upper-limb impairment (Brunnstrom stage ≥III) of 3 to 13 weeks' duration participated in this randomized, controlled, observer-blinded trial. Participants were randomized into 2 groups and received treatment on a 4-week, 40 min/d, 5 d/wk schedule. Those assigned to RFE received 100 standardized movements of at least 5 joints of their affected upper extremity, whereas those in the control group participated in a conventional upper-extremity rehabilitation program. Primary and secondary outcomes (improvement in group action research arm test [ARAT] and Fugl-Meyer Arm [FMA] scores, respectively) were assessed at the end of training. RESULTS: In all, 49 participants (26 receiving RFE) completed the trial. ARAT and FMA scores at baseline were 19 ± 21 and 39 ± 21 (mean ± standard deviation). Evaluation at the trial's completion revealed significantly larger improvements in the RFE group than in the control group in both ARAT (F = 7.52; P = .009) and FMA (F = 5.98; P = .019) scores. CONCLUSIONS: These findings suggest that RFE may be more effective than conventional rehabilitation in lessening impairment and improving upper-limb motor function during the subacute phase of stroke.

Anti-spastic effects of the direct application of vibratory stimuli to the spastic muscles of hemiplegic limbs in post-stroke patients: a proof-of-principle study.

OBJECTIVE: To investigate whether the direct application of vibratory stimuli inhibits spasticity in the hemiplegic upper limbs of post-stroke patients. DESIGN: A randomized controlled study. SUBJECTS: Thirty-six post-stroke patients. METHODS: Patients were randomly allocated to the "Rest group", "Stretch group", or "Direct application of vibratory stimuli group". After relaxing in a supine posture for 30 min, subjects received the interventions for 5 min. The Modified Ashworth Scale scores and F-wave parameters were recorded before, immediately after and 30 min after each intervention. RESULTS: The Rest group showed no significant changes in F-wave parameters and Modified Ashworth Scale scores. The Stretch group showed a tendency to decrease in F-wave amplitude and F/M ratio immediately after the intervention, but not 30 min later. The Direct application of vibratory stimuli group showed significant improvements in F-wave parameters and Modified Ashworth Scale scores immediately after the intervention, which remained 30 minutes later. The changes in F-wave parameters and Modified Ashworth Scale scores observed in the Direct application of vibratory stimuli group significantly differed from those in the Rest group and the Stretch group. CONCLUSION: The direct application of vibratory stimuli has anti-spastic effects in the hemiplegic upper limbs of post-stroke patients.

Effects of intensive repetition of a new facilitation technique on motor functional recovery of the hemiplegic upper limb and hand.

OBJECTIVE: To study the effects on the hemiplegic upper limb of repetitive facilitation exercises (RFEs) using a novel facilitation technique, in which the patient's intention to move the hemiplegic upper limb or finger was followed by realization of the movement using multiple sensory stimulations. METHODS: Twenty-three stroke patients were enrolled in a cross-over study in which 2-week RFE sessions (100 repetitions each of five-to-eight types of facilitation exercise per day) were alternated with 2-week conventional rehabilitation (CR) sessions, for a total of four sessions. Treatments were begun with the 2-week RFE session in one group and the 2-week CR session in the second group. RESULTS: After the first 2-week RFE session, both groups showed improvements in the Brunnstrom stages of the upper limb and the hand, in contrast to the small improvements observed during the first CR session. The Simple Test for Evaluating Hand Function (STEF) score, which evaluates the ability of manipulating objects, in both groups improved during both sessions. After the second 2-week RFE and CR sessions, both groups showed little further improvement except in the STEF score. CONCLUSION: The novel RFEs promoted the functional recovery of the hemiplegic upper limb and hand to a greater extent than the CR sessions.