The aim of the research is to improve motor function in people with cerebellar ataxia by using neuroimaging methods and mental imagery to "exercise" motor networks in the brain. The relevance of this research to public health is that results have the potential to reduce motor deficits associated with cerebellar atrophy, thereby enhancing the quality of life and promoting independence.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
21
Participants undergo a real-time fMRI scan during which they are provided feedback regarding the accuracy of their motor imagery performance.
Johns Hopkins University School of Medicine
Baltimore, Maryland, United States
Change in Overt Tapping Accuracy as Assessed by Finger Tapping to a Flashing Cue at 1Hz Speed
During the MRI session, accuracy on overt tapping will be measured by the distance of the actual tapping rate vs. target rate (1Hz). Accuracy at baseline will be compared to that of final assessment, which will take place before and after neurofeedback training, respectively. The difference in accuracy between the two tests create a delta measure (i.e., fewer errors in the final vs. baseline tests). This delta accuracy will indicate the magnitude of tapping accuracy improvements. Root mean squared error (RMSE) is the measure for both the baseline and post-treatment behavioral tasks. RMSE will be based on the actual number of taps per second relative to the expected number of taps per second (e.g., 1 tap for 1Hz). Then post treatment RMSE minus baseline RMSE will determine a delta RMSE. A higher RMSE signifies greater error. For the delta measure, it is expected, lower scores reflect greater improvement on the task.
Time frame: Baseline and MRI duration, up to 1 hour
Change in Overt Tapping Accuracy as Assessed by Finger Tapping to a Flashing Cue at 4Hz Speed
During the MRI session, accuracy on overt tapping will be measured by the distance of the actual tapping rate vs. target rate (4Hz). Accuracy at baseline will be compared to that of final assessment, which will take place before and after neurofeedback training, respectively. The difference in accuracy between the two tests create a delta measure (i.e., fewer errors in the final vs. baseline tests). This delta accuracy will indicate the magnitude of tapping accuracy improvements. Root mean squared error (RMSE) is the measure for both the baseline and post-treatment behavioral tasks. RMSE will be based on the actual number of taps per second relative to the expected number of taps per second (e.g., 1 tap for 1Hz). Then post treatment RMSE minus baseline RMSE will determine a delta RMSE. A higher RMSE signifies greater error. For the delta measure, it is expected, lower scores reflect greater improvement on the task.
Time frame: Baseline and MRI duration, up to 1 hour
Change in At-home Overt Tapping Accuracy as Assessed by Finger Tapping to a Flashing Cue at 1Hz Speed
Accuracy at baseline will be compared to that of final assessment, which will take place before and after the 3-week at-home practice sessions, respectively. The delta measure will indicate the magnitude of tapping accuracy improvements. Groups will be compared to examine differences in delta as a function of practice condition (tapping only or imagery plus tapping). RMSE (root mean squared error) is the measure for both the baseline and post-treatment behavioral tasks. RMSE will be based on the actual number of taps per second relative to the expected number of taps per second (e.g., 1 tap for 1Hz). Then post treatment RMSE minus baseline RMSE will determine a delta RMSE. A higher RMSE signifies greater error. For the delta measure, it is expected, lower scores reflect greater improvement on the task.
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Time frame: Baseline and At-home sessions (10 minutes/day), up to 23 days
Change in At-home Overt Tapping Accuracy as Assessed by Finger Tapping to a Flashing Cue at 4Hz Speed
Accuracy at baseline will be compared to that of final assessment, which will take place before and after the 3-week at-home practice sessions, respectively. The delta measure will indicate the magnitude of tapping accuracy improvements. Groups will be compared to examine differences in delta as a function of practice condition (tapping only or imagery plus tapping). RMSE (root mean squared error) is the measure for both the baseline and post-treatment behavioral tasks. RMSE will be based on the actual number of taps per second relative to the expected number of taps per second (e.g., 4 taps for 4Hz). Then post treatment RMSE minus baseline RMSE will determine a delta RMSE. A higher RMSE signifies greater error. For the delta measure, it is expected, lower scores reflect greater improvement on the task.
Time frame: Baseline and At-home sessions (10 minutes/day), up to 23 days
The Correlation Between MRI BOLD During Imagery and Finger Tapping Accuracy Improvements to a Flashing Cue at 1Hz as Assessed by a Correlation Coefficient
This will assess the correlation between MRI Blood Oxygen Level Dependence (BOLD) during imagery and finger tapping accuracy improvement (pre- vs. post- neurofeedback training) by a correlation coefficient. The correlation coefficient ranging from -1 to 1, where the closer the coefficient is to -1 indicates a negative association and the closer the coefficient is to 1 indicates a strong positive association.
Time frame: MRI duration, up to 1 hour
The Correlation Between MRI BOLD and Finger Tapping Accuracy to a Flashing Cue at 4Hz as Assessed by a Correlation Coefficient
This will assess the correlation between MRI Blood Oxygen Level Dependence (BOLD) during imagery and finger tapping accuracy improvement (pre- vs. post- neurofeedback training) by a correlation coefficient. The correlation coefficient ranging from -1 to 1, where the closer the coefficient is to -1 indicates a negative association and the closer the coefficient is to 1 indicates a strong positive association.
Time frame: MRI duration, up to 1 hour
The Correlation Between the KVIQ and Imagery Accuracy of the Flashing Cross on the MRI Task as Assessed by a Correlation Coefficient
The Kinesthetic and Visual Imagery Questionnaire (KVIQ), overall score ranging from 0-100, where higher scores reflect more vivid imagery) will assess imagery vividness. This will be correlated with the image accuracy measures described in Secondary Outcome Measure 5. The correlation coefficient ranging from -1 to 1, where the closer the coefficient is to -1 indicates a negative association and the closer the coefficient is to 1 indicates a strong positive association.
Time frame: Up to 1.5 hours
The Correlation Between the ICARS and Imagery Accuracy Accuracy of the Flashing Cross on the MRI Task as Assessed by a Correlation Coefficient
The International Cooperative Ataxia Rating Scale (ICARS), overall score ranging from 0-100, where higher scores indicate more severe neurological impairment) will assess neurological impairments. This will be correlated with image accuracy measures described in 'Secondary Outcome Measure 5. The correlation coefficient ranging from -1 to 1, where the closer the coefficient is to -1 indicates a negative association and the closer the coefficient is to 1 indicates a strong positive association.
Time frame: Up to 1.5 hours