Stroke occurs when blood supply to some part of the brain is compromised and can lead to focal motor, language, and general functional deficits important for activities of daily life. Recovery after deficits in stroke patients is linked to bran plasticity changes occurring over time. There is evidence that these plasticity changes can be adaptive as well as maladaptive towards functional recovery and rehabilitation aimed at facilitating adaptive networks and suppressing maladaptive networks may hasten stroke recovery. One way to characterize plasticity changes over time is by utilizing fMRI methods in adults who have suffered an insult (e.g., stroke) resulting in damage to an area typically associated with a specific language or motor function. Studies have shown that these patients show recovery through brain reorganization changes over time where a network of areas are recruited while performing the language or motor function. There are a number of novel stroke rehabilitation treatments aimed at improving recovery. Yet no set guidelines exist on how to utilize these treatments. There is an important need to develop a set of prognostic predictors to make decisions about which patients are appropriate for which treatment, identify a time window that best predicts stroke recovery and therefore ideal for intervention, as well as characterize adaptive and maladaptive brain plasticity changes in order to facilitate faster and more effective rehabilitation. This proposal has three aims: 1) Identify prognostic predictors of stroke recovery, 2) Identify a time window which best predicts stroke recovery, and 3) Identify adaptive and maladaptive brain plasticity changes involved in stroke recovery. Stroke patients will undergo through neuroimaging and behavioral testing at the acute, subacute and chronic stages. Neuroimaging measures (e.g., fMRI activation) along with clinical measures will be utilized to predict behavior. It is hypothesized that neuroimaging along with clinical measures will predict motor, language, and general functional stroke recovery more accurately than either measure. It is also hypothesized a subacute time window would best predict stroke recovery, given that the most robust plasticity changes occur at this time window. It is hypothesized that that brain plasticity changes assessed by brain measures over time will predict behavioral performance changes over time, characterizing adaptive and maladaptive plasticity networks essential for motor, language, and general functional stroke recovery. Overall this would lead to better prognostic prediction of recovery in stroke patients, identify a critical time window for intervention, identify adaptive and maladaptive networks involved in reorganization. Subsequently this would allow us to provide individualized treatments based on the prognostics, allow us to intervene at a particular time window for optimal effect, and expand the potential for a range of rehabilitation strategies aimed at facilitating adaptive and suppressing maladaptive networks hastening and maximizing functional recovery.

Public Health Relevance

Stroke is the fourth leading cause of death in the United States as well as the leading cause of long-term disability. Each year about 800,000 people suffer a new or recurrent stroke in the United States. 85% of these patients survive and require rehabilitation, making it the leading cause of long-term disability in the U.S. The majority of the stroke costs(e.g. $57 billion in 2003 to $73.7 billion in 2010 and from 2005-2050 is projected to be $2.2 trillion) are needed for long-term care and rehabilitation (>2/3). Although there are already several rehabilitation techniques aimed at stroke recovery including traditional physical-occupational-speech therapy, novel therapies such as constraint-induced therapy, robot-aided therapy, Transcranial Magnetic Stimulation (TMS), real-time biofeedback, and brain-computer interface treatments, few guidelines exist for these interventions. The recommendations from the 2009 workshop sponsored by the NIH blueprint for neuroscience research heralded the translation of neuroplasticity as key to developing guidelines for effective clinical therapies in rehabilitation. Furthermore, the high prevalence of stroke and the high economic costs associated with it make rehabilitation or reduction of stroke-related disability a national healthcare priority. This research proposal is designed to characterize brain plasticity changes using neuroimaging measures and: 1) identify prognostic predictors in terms of neuroimaging and clinical measures so specific rehabilitation treatment plans can be tailored for a particular patient based on these predictors 2) identify a time window using neuroimaging measures which best predicts stroke recovery where stroke interventions may be maximally effective and 3) characterize the brain networks involved in stroke recovery so interventions can facilitate adaptive networks and suppress maladaptive networks which may lead to faster and more optimal rehabilitation. The results of this study could potentially help in the designing of effectve patient specific rehabilitation plans. The ability to plan patient-specific rehabilitation techniqus for optimal recovery will result in longer productive life-spans for the patients and less burden o the care- givers. This research would lay down the groundwork for utilizing neuroimaging as an objective tool for stroke rehabilitation.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Mentored Patient-Oriented Research Career Development Award (K23)
Project #
5K23NS086852-02
Application #
8791720
Study Section
Special Emphasis Panel (ZAG1-ZIJ-6 (M3))
Program Officer
Bosetti, Francesca
Project Start
2014-01-15
Project End
2017-12-31
Budget Start
2015-01-01
Budget End
2015-12-31
Support Year
2
Fiscal Year
2015
Total Cost
$187,483
Indirect Cost
$13,888
Name
University of Wisconsin Madison
Department
Radiation-Diagnostic/Oncology
Type
Schools of Medicine
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
Remsik, Alexander B; Dodd, Keith; Williams Jr, Leroy et al. (2018) Behavioral Outcomes Following Brain-Computer Interface Intervention for Upper Extremity Rehabilitation in Stroke: A Randomized Controlled Trial. Front Neurosci 12:752
Mohanty, Rosaleena; Sinha, Anita M; Remsik, Alexander B et al. (2018) Machine Learning Classification to Identify the Stage of Brain-Computer Interface Therapy for Stroke Rehabilitation Using Functional Connectivity. Front Neurosci 12:353
Mohanty, Rosaleena; Sinha, Anita M; Remsik, Alexander B et al. (2018) Early Findings on Functional Connectivity Correlates of Behavioral Outcomes of Brain-Computer Interface Stroke Rehabilitation Using Machine Learning. Front Neurosci 12:624
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