The Effects of an Innovative Combined Virtual Reality and Robot Assisted Gait Training on Cognitive and Walking Functions in Patients With Multiple Sclerosis: A Randomized Control Trial
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Multiple Sclerosis
- Sponsor
- Universita di Verona
- Enrollment
- 20
- Locations
- 1
- Primary Endpoint
- 10 meters Walking test (10-MtWT) change in gait speed (m/sec)
- Last Updated
- 9 years ago
Overview
Brief Summary
Multiple Sclerosis (MS), the most common non-traumatic cause of neurologic disability in young adults, affects mobility and ambulation in the majority of patients. Nearly 50% of persons with MS will require an assistive device to ambulate within 10 years of diagnosis. A subgroup of MS is Primary Progressive MS, which manifests with gait disturbances over 80% of patients in the long term. In addition to altered gait, nearly 70% of patients will experience cognitive deficits during the course of the disease. Therefore, actions that facilitate patient involvement in finding solutions for personalized management of disease and disability are needed.
Although immunomodulatory drugs offer some benefit in other types of Multiple Sclerosis, there is currently no effective treatment for Primary Progressive MS. A fundamental goal in the management of persons with MS is to maximize their ability to ambulate and perform safe and effective transfers in everyday life.
In the last decade, research has increasingly centered on the effects of robot devices in the rehabilitation of patients with neurological diseases. This has led to the development of new robot-assisted gait devices engendered by virtual-reality systems, and several studies have demonstrated the positive effects that these devices have on gait endurance and quality of life in patients with neurological diseases and disability.
The aim of this project is to develop and study the effects of a novel, cognitively intensive virtual-reality -based rehabilitation software application that simulates a real-world environment where a person can walk. The virtual-reality application is an upgrade version synchronized to a robotic device, the GEO System. The second aim is to compare the cognitive and motor effects of robot-assisted gait training with this application against training with robot-assisted gait training without virtual reality.
The experimental group will receive robot-assisted gait training with the virtual-reality application and the control group will receive robot-assisted gait training All subjects will undergo training for 6 weeks (2 sessions/week) for a total of 12 sessions. Assessments before training, after training, and at follow-up will be performed using clinical and instrumental tests to compare the effects of training.
Successful completion of the study may help patients to alleviate the impact of disability, increase their independence in activities of daily life, and improve their quality of life. Through new rehabilitative strategies that combine cognitive and motor training involving higher brain functions and motivation, patients will be stimulated to walk in a reality-based environment.
Investigators
Nicola Smania, MD, Clinical Professor
Full Professor
Universita di Verona
Eligibility Criteria
Inclusion Criteria
- •Expanded Disability Status Scale between 3 and 6;
- •Mini Mental Examination State \>24;
- •age \>18 years;
- •ability to sit without trunk support;
- •ability to stand for at least 10 seconds with support;
- •no botulinum toxin injection into the affected leg muscles or rehabilitation treatment in the 6 months before recruitment.
Exclusion Criteria
- •patients with disease recurrence that has worsened significantly during the 8 weeks before recruitment;
- •changes in pharmacological therapy that could modify the disease course in the previous 3 months before recruitment;
- •changes in pharmacological therapy for fatigue treatment in the previous 3 months before recruitment
- •medications altering central nervous system (excitability (e.g., antiepileptics, neuroleptics, benzodiazepines or antidepressants) or with presumed effects on central nervous system plasticity (e.g., dopamine, fluoxetine or D-amphetamine);
- •other neurological or orthopedic conditions involving the lower limbs (musculoskeletal diseases, severe osteoarthritis, peripheral neuropathy, joint replacement);
- •cardiovascular co-morbidity (recent myocardial infarction, heart failure, uncontrolled hypertension, orthostatic hypotension).
Outcomes
Primary Outcomes
10 meters Walking test (10-MtWT) change in gait speed (m/sec)
Time Frame: Baseline time 0 and up to 12 weeks
the test has been selected as a measure of gait speed. This is a validated test requiring individuals to walk on a flat hard floor at their fastest speed for 10 meters. Scoring is walking speed.
Secondary Outcomes
- Berg Balance Scale(Baseline time 0 and up to 12 weeks)
- 2-Minute Walking Test (meters)(Baseline time 0 and up to 12 weeks)
- Activities-specific Balance Confidence Scale(Baseline time 0 and up to 12 weeks)
- Gait Analysis - Cadence (step/min)(Baseline time 0 and up to 12 weeks)
- Gait Analysis - time of double support (sec)(Baseline time 0 and up to 12 weeks)
- Tower of London - point(Baseline time 0 and up to 12 weeks)
- Multiple Sclerosis Quality Of Life-54(Baseline time 0 and up to 12 weeks)
- Gait Analysis - Step length (cm)(Baseline time 0 and up to 12 weeks)
- Paced Auditory Serial Addition Test(Baseline time 0 and up to 12 weeks)
- Gait Analysis - distance of heel to heel (cm)(Baseline time 0 and up to 12 weeks)
- Gait Analysis - time of swing (sec)(Baseline time 0 and up to 12 weeks)
- Wechsler Adult Intelligence Scale(Baseline time 0 and up to 12 weeks)
- Sustained Attention to Response Task - Time of reaction time(Baseline time 0 and up to 12 weeks)
- Phonemic Fluency Test(Baseline time 0 and up to 12 weeks)
- Gait Analysis - Stride length (cm)(Baseline time 0 and up to 12 weeks)
- Gait Analysis - time of stance (sec)(Baseline time 0 and up to 12 weeks)
- Gait Analysis - time of single support (sec)(Baseline time 0 and up to 12 weeks)
- Body's Centre of Pressure length (mm)(Baseline time 0 and up to 12 weeks)
- Body's Centre of Pressure Area Path (mm2)(Baseline time 0 and up to 12 weeks)
- Trail Making Test(Baseline time 0 and up to 12 weeks)