Targeted Noninvasive Brain Stimulation (T-NIBS) for Upper Extremity Motor Rehabilitation in Acquired Brain Injury (ABI) Patients
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Upper Extremity Dysfunction
- Sponsor
- Kessler Foundation
- Enrollment
- 14
- Locations
- 1
- Primary Endpoint
- Change scores of Box and Block test (BBT)
- Status
- Completed
- Last Updated
- 8 months ago
Overview
Brief Summary
Acquired Brain Injury (TBI) is a serious medical and health problem in the US. Individuals with an acquired brain injury due to stroke and Traumatic Brain Injury (TBI) commonly suffer from upper extremity physical impairments that persist even after years of injury; these deficits are attributed to the damage to brain structure and changes in structural and functional connectivity. Although the conventional rehabilitation approaches are helpful in assisting motor recovery often there is a complaint of fatigue due to the repetitive tasks and also, nearly half of the ABI survivors do not regain their ability to use their arms for daily activities.
To address this issue, Dr. Shenoy's proposed study will investigate the combined use of individually targeted non-invasive brain stimulation and music-assisted video game-based hand exercises to achieve functional recovery. Further, the project will also investigate how the intervention modulates brain activity (recorded using EEG) in terms of brain connectivity before- and after the -intervention. In the end, this study will allow us to understand the cortical dynamics of ABI rehabilitation upon brain stimulation. Extending further, this could pave the way to advance the knowledge of behavioral and neural aspects of motor control in patients with different types of neuromuscular disorders.
Detailed Description
Persistent physical deficits associated with upper extremities including motor weakness, spasticity, and the lack of bimanual coordination of fingers, hands, and arms are particularly problematic as it results in serious disruption of many instrumental activities of daily living. Conventional physical and occupational therapy help improve motor recovery in ABI but nearly 50% of the patients still suffer from a significant level of upper limb motor impairment following rehabilitation, undermining the need for novel therapeutic approaches to improve recovery. Non-invasive brain stimulation (NIBS) techniques such as Transcranial Direct Current Stimulation (tDCS) have shown great promises as adjuvant means to improve the efficacy of neurorehabilitation in Stroke. However, the benefit of combining NIBS with regular motor training has not been extensively studied in the TBI population. One of the inherent challenges with the approach in dealing with the heterogeneity of the TBI population in terms of the type of injury and the location of the affected cortical region which warrants personalized intervention than a one-size-fits-all approach. Therefore, we propose to develop an individually targeted high-definition tDCS (HD-tDCS) protocol to optimize its effect and achieve maximal upper limb motor recovery in each patient by stimulating the hand knob region which is close to precentral gyrus. HD-tDCS will be combined with MusicGlove exercises (music-assisted repetitive finger movements) to improve the neuroplasticity (adaptation and reorganization to compensate for the initial insult and to attempt to restore function) and fine motor learning while keeping patients engaged. Using a double-blind design, 24 individuals with an acquired brain injury will be randomized to either receive real or sham HD-tDCS during MusicGlove therapy to assess the added benefit of HD-tDCS. In addition, we aim to investigate the underlying neural mechanism of HD-tDCS on motor recovery by studying change in EEG based brain connectivity because of the intervention. The short-term significance of this project will be to validate the effectiveness of HD-tDCS in ABI neurorehabilitation and help better understand the underlying cortical mechanism of the improvement. In the long-term, the findings of this pilot study will contribute toward the development of an optimal patient-specific rehabilitation therapy to maximize motor recovery in individuals with neuromuscular disorders.
Investigators
Vikram Shenoy Handiru
Research Scientist
Kessler Foundation
Eligibility Criteria
Inclusion Criteria
- •18 and 75 years
- •Confirmed diagnosis of Acquired brain injury (individuals with stroke or Traumatic Brain Injury)
- •At least 6 months post-injury
- •Complaints of weak movement of hands and fingers
- •Ability to understand the instructions that are part of the tDCS-MusicGlove testing and intervention
- •Willingness and ability to participate in and travel to Kessler Foundation for the baseline assessment visits, 10 training visits, and post-training follow-up visits
- •Ability to sit and be active for 2 hours on a chair (or wheelchair) without cardiac, respiratory and/or pain disturbances as assessed during the screening visit.
- •Willingness to give written informed consent.
- •Medically stable and not planning for a major change in medications for at least 4 months
Exclusion Criteria
- •Unable to move the hand because of muscle stiffness (scoring 3 or more on the Ashworth scale)
- •Have lost the sensation of hand movement
- •Have a history of alcohol abuse and/or illicit drug use
- •Have a problem with the eyesight that would make it difficult to notice the changing instructions on a computer screen
- •Currently enrolled in another research study that might affect this research study
- •A history of epilepsy (including family members who are diagnosed with epilepsy)
- •An active history of migraine or chronic headache
- •A history of mental illness (e.g. schizophrenia, anxiety, depression, and PTSD)
- •Past or current history of treated ringing in the ears known as tinnitus or severe hearing problems
- •Have a tattoo with metal-based ink in the head or neck.
Outcomes
Primary Outcomes
Change scores of Box and Block test (BBT)
Time Frame: baseline (before intervention), Post-training (immediately after the end of 2-week intervention), Followup (2 months after the end of intervention)
BBT is an easy-to-evaluate inexpensive test which mainly evaluates the unilateral gross dexterity. The MusicGlove exercise that is proposed in this study recruits the finger muscles which are for fine motor coordination. During this test, the participant will be asked to move one-by-one, the maximum number of blocks from one compartment of a box to another of equal size, within 60 seconds.
Change scores of Upper-extremity Fugl-Myer Assessment (UEFMA)
Time Frame: baseline (before intervention), Post-training (immediately after the end of 2-week intervention), Followup (2 months after the end of intervention)
Upper extremity Fugl-Meyer Assessment Score (UEFMA) primarily evaluates the functions of Shoulder/Elbow and Forearm, Wrist, Hand and Coordination and Speed in a series of performed tasks. The maximum score associated with the UE-FMA is 66 points. Each of the 33 specific tasks is scored as either 0 or an absence of function to a maximum score of 2 for the tasks being fully completed. The partial function can be scored as 1 for selected tasks. The change in scores from baseline-to-post-intervention and post-intervention-to-2-month-followup will be assessed.
Secondary Outcomes
- Change scores of Nine Hole Peg Test (NHPT)(baseline (before intervention), Post-training (immediately after the end of 2-week intervention), Followup (2 months after the end of intervention))
- Change scores of Action Research Arm Test (ARAT)(baseline (before intervention), Post-training (immediately after the end of 2-week intervention), Followup (2 months after the end of intervention))
- Changes in the Cortical Excitability using Motor Evoked Potentials (MEP)(baseline (before intervention), Post-training (immediately after the end of 2-week intervention), Followup (2 months after the end of intervention))
- Change scores of Dexterity and Speed Test (DAST)(baseline (before intervention), Post-training (immediately after the end of 2-week intervention), Followup (2 months after the end of intervention))
- Quality of Life After Brain Injury (QOLIBRI)(baseline (before intervention), Post-training (immediately after the end of 2-week intervention), Followup (2 months after the end of intervention))
- Changes in the Functional Connectivity of the brain(baseline (before intervention), Post-training (immediately after the end of 2-week intervention), Followup (2 months after the end of intervention))