Virtual reality for the rehabilitation of the upper limb motor function after stroke: a prospective controlled trial.

BACKGROUND: Recent evidence has demonstrated the efficacy of Virtual Reality (VR) for stroke rehabilitation nonetheless its benefits and limitations in large population of patients have not yet been studied. OBJECTIVES: To evaluate the effectiveness of non-immersive VR treatment for the restoration of the upper limb motor function and its impact on the activities of daily living capacities in post-stroke patients. METHODS: A pragmatic clinical trial was conducted among post-stroke patients admitted to our rehabilitation hospital. We enrolled 376 subjects who had a motor arm subscore on the Italian version of the National Institutes of Health Stroke Scale (It-NIHSS) between 1 and 3 and without severe neuropsychological impairments interfering with recovery. Patients were allocated to two treatments groups, receiving combined VR and upper limb conventional (ULC) therapy or ULC therapy alone. The treatment programs consisted of 2 hours of daily therapy, delivered 5 days per week, for 4 weeks. The outcome measures were the Fugl-Meyer Upper Extremity (F-M UE) and Functional Independence Measure (FIM) scales. RESULTS: Both treatments significantly improved F-M UE and FIM scores, but the improvement obtained with VR rehabilitation was significantly greater than that achieved with ULC therapy alone. The estimated effect size of the minimal difference between groups in F-M UE and FIM scores was 2.5 ± 0.5 (P < 0.001) pts and 3.2 ± 1.2 (P = 0.007) pts, respectively. CONCLUSIONS: VR rehabilitation in post-stroke patients seems more effective than conventional interventions in restoring upper limb motor impairments and motor related functional abilities. TRIAL REGISTRATION: Italian Ministry of Health IRCCS Research Programme 2590412.

Motor learning principles for rehabilitation: a pilot randomized controlled study in poststroke patients.

BACKGROUND: Six months after a stroke, the hemiplegic arm often remains compromised. More innovative approaches to motor rehabilitation are needed. OBJECTIVE: The authors compared a motor learning-based approach in a virtual environment with more conventional upper extremity therapy in a pilot trial. METHODS: This prospective, single-blinded, randomized controlled trial compared reinforced feedback in a virtual environment (RFVE; n = 27) with a control intervention (n = 20) of progressive therapy for the affected upper extremity. Both treatments were provided for 4 weeks, 5 days per week, with 1-hour treatment sessions daily. The primary outcomes were the Fugl-Meyer Upper Extremity (F-M UE) and Functional Independence Measure (FIM) scores. Kinematic outcomes included mean duration (MD), mean linear velocity (MLV), and number of submovements to measure the motor performance. Analyses of the primary outcomes were performed per protocol and by intention to treat. RESULTS: F-M UE scores improved significantly in the RFVE group compared with the conventional therapy group ("intention to treat" = 5.10 points, P = .004; ANCOVA = 4.26 points, P < .01). Several of the kinematic parameters improved in the RFVE group (MD, P < .01; MLV, P < .01). FIM improvements did not differ. CONCLUSIONS: Both rehabilitation therapies improved arm motor performance and functional activity, but the RFVE therapy induced more robust results in patients exposed to late rehabilitation treatment.

Exercises for paretic upper limb after stroke: a combined virtual-reality and telemedicine approach.

OBJECTIVE: Telerehabilitation enables a remotely controlled programme to be used to treat motor deficits in post-stroke patients. The effects of this telerehabilitation approach were compared with traditional motor rehabilitation methods. DESIGN: Randomized single-blind controlled trial. PATIENTS: A total of 36 patients with mild arm motor impairments due to ischaemic stroke in the region of the middle cerebral artery. METHODS: The experimental treatment was a virtual reality-based system delivered via the Internet, which provided motor tasks to the patients from a remote rehabilitation facility. The control group underwent traditional physical therapy for the upper limb. Both treatments were of 4 weeks duration. All patients were assessed one month prior to therapy, at the commencement and termination of therapies and one month post-therapy, with the Fugl-Meyer Upper Extremity, the ABILHAND and the Ashworth scales. RESULTS: Both rehabilitative therapies significantly improved all outcome scores after treatment, but only the Fugl-Meyer Upper Extremity scale showed differences in the comparison between groups. CONCLUSION: Both strategies were effective, but the experimental approach induced better outcomes in motor performance. These results may favour early discharge from hospital sustained by a telerehabilitation programme, with potential beneficial effects on the use of available resources.

Assessment and treatment of the upper limb by means of virtual reality in post-stroke patients.

The disability deriving from stroke impacts heavily on the economic and social aspects of western countries because stroke survivors commonly experience various degrees of autonomy reduction in the activities of daily living. Recent developments in neuroscience, neurophysiology and computational science have led to innovative theories about the brain mechanisms of the motor system. Thereafter, innovative, scientifically based therapeutic strategies have initially arisen in the rehabilitation field. Promising results from the application of a virtual reality based technique for arm rehabilitation are reported.

The augmented-feedback rehabilitation technique facilitates the arm motor recovery in patients after a recent stroke.

Previous studies have shown that the motor training in a virtual-environment with the augmented feedback promotes motor learning in normal subjects and in long-term post-stroke patients. We evaluated whether this approach could be useful also for treating patients with arm motor deficits due to a recent stroke. Twenty-four patients were included in the study within 3 months from an ischemic stroke in the territory of the middle cerebral artery. Twelve subjects received virtual-environment-training (VET) therapy for the arm, and twelve patients received an equal amount of a conventional rehabilitation therapy focused to the upper limb. Before and after therapy, the autonomy of daily living activities were assessed with the Functional Independence Measure and the degree of motor impairment was measured with the Fugl-Meyer scale for the upper extremity. For both groups the therapy lasted from 5 to 7 weeks, 1 hour daily for five days a week. The VET therapy group showed 20,2% and 12,4% improvements in the Fugl-Meyer and the Functional Independence Measure scale mean scores respectively. In a comparable way, the conventional therapy determined significant, but smaller scores improvements: 11,3% and 9,1%, respectively. These data indicate that the recovery of arm motor function in patients after a recent stroke is promoted by an augmented feedback strategy applied through a virtual-environment.