Walking Balance Training Post-Stroke
StrokeStroke is one of the leading causes of disability in the United States, affecting ~795,000 people annually. Among ambulatory people with chronic stroke, impaired balance is common and substantially limits mobility (those with the poorest balance walk the least). This project will explore if a novel gait training intervention using a robotic device to amplify a person's self-generated movements can improve walking balance in people with chronic stroke. The development of effective interventions to increase walking balance among people with chronic stroke will positively impact quality of life and ability to participate in walking activities.
Mirror Therapy and Augmented Reality in Stroke Rehabilitation
Stroke RehabilitationThis research is in line with the National Health Research Institutes (NHRI) Innovative Research Grant priority to address innovative treatment strategies for neurological disorders that are in desperate need of scientific scrutiny. Stroke is one of the major medical conditions that leads to long-term disability and causes a heavy health care and financial burden. To meet multidimensional needs of patients with stroke, hybrid interventions that combine different approaches are needed due to the complexity of stroke. Our previous research funded by the NHRI has been published and translated to stroke rehabilitation, particularly in the priming and synergic effects of robotic-assisted training and/or mirror therapy (MT). To extend from our previous research, the investigators will combine MT with augmented reality (AR), an emerging adjunct therapy in stroke rehabilitation. An AR-based intervention provides an intensive, repetitive, and context-rich training program, leading to an interesting environment with real-time feedback to increase motivation and participation.
Neuroimaging Biomarkers Toward a Personalized Upper Limb Action Observation Treatment in Chronic...
Chronic StrokeMuch recent interest was raised by the use of Action Observation Treatment (AOT) in stroke patients rehabilitation. AOT, well-grounded in neurophysiology, is an updated approach, based on mirror neuron system (MNS) used to rebuild motor function despite injuries by engaging the brain regions active during action execution in individuals with limited mobility. This project aims at identifying, for the first time in Italy, neurophysiological electroencephalographic (EEG) biomarkers able to predict rehabilitation outcomes and providing an innovative optimized AOT rehabilitation protocol for chronic Stroke outpatients. EEG will be recorded to identify the most effective stimuli, quantify changes/recovery, profile patients. Moreover, an innovative AOT home-based program will be implemented. The translational research results will ensure advances in the optimization and personalization of the rehabilitative process thus contributing to improve the quality of life of chronic stroke patients. Stroke is a leading cause of death and one of the greatest causes of long-term disability that interferes with a good quality of life. Nowadays the rehabilitation interventions are the major component of patient's care to achieve functional outcome. In the last few years, in order to improve Activity of Daily Living (ADL), new noninvasive strategies have emerged as rehabilitative treatments rather than traditional physical therapies. The Action Observation Treatment (AOT), supported by results collected through randomized controlled trials, is one of these. This new rehabilitation approach is based on the properties of the Mirror Neuron System (MNS; 11-13). The extensive research of the last 20 years on the human MNS (hMNS) showed its importance not only in action recognition but also in motor intentions and other social cognitive functions. Lastly, because recruited also in damage brain (18,19), the MNS is demonstrated to provide satisfactory rehabilitative outcomes. The AOT takes advantage of the opportunity to restore functions despite the patient's impairment and it seems to be a valid example of translational medicine from basic neuroscience to rehabilitation. To date, neurophysiological outcomes were never used for translational purposes aimed to the optimization of the therapy and no evidence, in Italy, related to the effectiveness of the home-based program were proposed.
Repetitive Transcranial Magnetic Stimulation in Patients With Hemiplegic Stroke
StrokeStroke is one of the major causes of death in the World. Many stroke survivors may suffer from long-term sequelae of stroke such as hemiplegia. The effects of rehabilitation therapy are limited. The development of new treatment strategies is essential. Repetitive transcranial magnetic stimulation (rTMS) is a non-invasive method to stimulate the focal area of the brain for restoring brain function. The aim of this study is to investigate the therapeutic effect of rTMS on the motor recovery in patients with hemiplegic stroke.
Enhancing Community Participation for Stroke Survivors With Cognitive Impairments
StrokeCognitive ImpairmentAbstract Method: Participants with a diagnosis of stroke and have cognitive impairment (a score of 3 or more on the Executive Interview, 14-item version) will be randomly assigned to the intervention group and the attention control group at a 1:1 ratio. Each session will be around 45 minutes and will be delivered 1 to 2 sessions per week for 12 to 15 sessions. Outcome measures including the Participation Measure- 3 Domains, 4 Dimensions (PM-3D4D), Canadian Occupational Performance Measure(COPM), Activity Measure for Post-Acute Care (AMPAC) Outpatient Short Forms, Wisconsin Card Sorting Task (WCST), Stroop Test, Montreal Cognitive Assessment (MoCA), Trail-Making Test (TMT A and B), The National Institutes of Health Stroke scale (NIHSS), modified Rankin Scale (MRS), Euro-QoL-5-Dimension (EQ-5D) and Participation Strategies Self Efficacy Scale (PS-SES) will be administered at baseline (T1), post-intervention (T2), 3-month follow-up (T3), 6-month follow-up (T4), and 12-month follow-up (T5). Of the recruited participants, 50 will recieve the fMRI tests (including the resting-state scan, the fMRI scan with Stroop Test and TMT tasks, and the anatomical structure scan) at baseline, post-intervention, and 6month follow-up.Data will be analyzed using multiple linear regression models and mixed-effects regression models.
Does Cardiorespiratory Interval Training Improve Post-stroke Fatigue
StrokeFatiguePost-stroke fatigue is common and negatively influences post-stroke recovery. Today, there is insufficient evidence how to treatment post-stroke fatigue. Our objective is to investigate if a structured cardiorespiratory interval training program added to the early supported discharge (ESD)-service results in relieved post-stroke fatigue and increased oxygen uptake. This is a 1:1 prospective randomized open- label trial(Two-centre study) with blinded evaluators (PROBE-design) of 50 participants referred to ESD with study start at 4 (±1) weeks after discharge from the stroke unit. The intervention group (N=25) receives a structured cardiorespiratory interval training program on ergometer cycle, 30-40 minutes, 3 days a week for 8 weeks. The cardiorespiratory interval training program comprises of 4x4 minute interval, at 70 to 80% of peak heart rate, interrupted by 3 minutes active recovery. The control group (N=25) receives usual ESD care. The primary outcome will be a shift in the Swedish Fatigue Assessment Scale before intervention (baseline) versus 8 weeks months after start of intervention in the intervention and control groups. Secondary outcomes include cardiorespiratory fitness, compliance, adherence and adverse events.
Motor Excitability Study of High Definition Transcranial Direct Current Stimulation (HD-tDCS) in...
StrokeHigh definition tDCS will be conducted to both stroke and healthy subjects on primary motor cortex area to explore the motor excitability changes before and after stimulation. In next stage, a randomized control trial with 20-session training will be conducted to evaluate the effectiveness of transient modulation of cortical excitability through multisite HD-tDCS with EMG driven robot hand training, a sham stimulation with EMG-driven robot hand training will be applied as control group.
Neurorehabilitation Using a Virtual Reality-based Mirror Therapy
RehabilitationMirror Neurons1 moreIn the proposed study, the investigators assumed that mirror therapy combined with virtual reality technology will provide a better treatment effects than traditional mirror therapy for the patients with unilateral stroke. The aim of the study is to examine the difference in the treatment effects among the combination of task-oriented training with either virtual reality based mirror therapy, mirror therapy or traditional occupational therapy on the upper extremity function and brain activity of the stroke patients.
Enhancement of Stroke Rehabilitation With Levodopa
Acute StrokeStroke RehabilitationTrial investigates the benefits and harms of Levodopa /Carbidopa 100/25mg compared to placebo (given in addition to standardized rehabilitation based on the principles of motor learning) and whether there is an association with a patient-relevant enhancement of functional recovery in acute stroke patients. Study participants will be randomized 1:1.
Exercise Intensity Matters in Stroke Rehabilitation
StrokeThe main objective of this multi-site project is to compare the effects of 12 weeks of HIIT vs. MICT on brain plasticity. The effects of HIIT vs. MICT on cardiovascular health, psychosocial predictors of physical activity and motor function will also be compared. HIIT and MICT will be delivered through a whole-body exercise paradigm using a recumbent stepper that requires arm and leg forces. Outcomes will be assessed at baseline (T0, 0 weeks), at the end of the intervention (T1, 12 weeks) and at 8-week follow-up (T2, 20 weeks).