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Use of Real-Time Functional Magnetic Resonance Imaging Neurofeedback to Improve Motor Function in Cerebellar Ataxia (fMRI)

Primary Purpose

Healthy

Status

Recruiting

Phase

Not Applicable

Locations

United States

Study Type

Interventional

Intervention

Neurofeedback treatment

At-home therapy

About this trial

This is an interventional basic science trial for Healthy focused on measuring Cerebellar Ataxia, Healthy Controls, Ataxia, Spinocerebellar Ataxias, Cerebellar Diseases, Neurodegenerative Diseases, Movement Disorders, Cerebellum, Gait, Balance

Eligibility Criteria

18 Years - 100 Years (Adult, Older Adult)All SexesAccepts Healthy Volunteers

Inclusion Criteria:

18-100 years of age
At least 8th-grade education
Right-handedness

Exclusion Criteria:

History of Axis I psychiatric disorders (including alcohol and drug dependence)
Severe or unstable medical disorder, neurological disorders, such as stroke or epilepsy
History of head injury that resulted in a loss of consciousness greater than 5 minutes and/or neurological sequelae
Any condition that is contraindicated for the MRI environment (e.g., metal in the body, pacemaker, claustrophobia)
Currently pregnant
Eligible subjects may be asked to refrain from medications that affect the central nervous system that would also make data difficult to interpret (e.g., sedatives) for an appropriate period of time prior to scanning
Participants will be excluded if they do not have a home computer with internet available to complete the 3-week at-home component of the study protocol

Sites / Locations

Johns Hopkins University School of MedicineRecruiting

Arms of the Study

Arm 1

Arm 2

Arm Type

Other

Arm Label

Real time neurofeedback with task

Overt tapping and/or motor imagery practice

Arm Description

Participants will undergo a real-time fMRI scan during which two distinct tasks will be performed.

Participants will undergo an overt tapping task at baseline. Participants are assigned to a group where they will then perform respective motor and/or imagery tasks at home for 3 weeks.

Outcomes

Primary Outcome Measures

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.

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. 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.

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 (imagery only, tapping only, or imagery plus tapping). At-home tapping performance will be compared to MRI tapping performance. 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.

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 (imagery only, tapping only, or imagery plus tapping). At-home tapping performance will be compared to MRI tapping performance. 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.

Secondary Outcome Measures

The correlation between MRI BOLD and finger tapping accuracy to a flashing cue at 1Hz as assessed by a correlation coefficient

This will assess the correlation between MRI Blood Oxygen Level Dependence (BOLD) and finger tapping accuracy by a correlation coefficient. The correlation coefficient ranges from -1 to 1, where the closer the coefficient is to -1 indicates a strong negative association and the closer the coefficient is to 1 indicates a strong positive association.

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 BOLD (Blood Oxygen Level Dependence) and finger tapping accuracy 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.

The correlation between the KVIQ and imagery accuracy of the slider bar from target 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 between the ICARS and imagery accuracy of the slider bar from target 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'.

Full Information

NCT ID

NCT05436249

First Posted

June 23, 2022

Last Updated

December 9, 2022

Sponsor

Johns Hopkins University

Collaborators

Virginia Polytechnic Institute and State University, Johns Hopkins Discovery Award

1. Study Identification

Unique Protocol Identification Number

NCT05436249

Brief Title

Use of Real-Time Functional Magnetic Resonance Imaging Neurofeedback to Improve Motor Function in Cerebellar Ataxia

Acronym

fMRI

Official Title

Using Motor Imagery and Machine Learning-Based Real-Time fMRI Neurofeedback to Improve Motor Function in Cerebellar Ataxia

Study Type

Interventional

2. Study Status

Record Verification Date

December 2022

Overall Recruitment Status

Recruiting

Study Start Date

December 7, 2022 (Actual)

Primary Completion Date

August 1, 2026 (Anticipated)

Study Completion Date

August 1, 2026 (Anticipated)

3. Sponsor/Collaborators

Responsible Party, by Official Title

Sponsor

Name of the Sponsor

Johns Hopkins University

Collaborators

Virginia Polytechnic Institute and State University, Johns Hopkins Discovery Award

4. Oversight

Studies a U.S. FDA-regulated Drug Product

Studies a U.S. FDA-regulated Device Product

Data Monitoring Committee

5. Study Description

Brief Summary

This project will study the feasibility of motor rehabilitation in people with cerebellar ataxia using real-time functional magnetic resonance imaging neurofeedback (rt-fMRI NF) in conjunction with motor imagery. To do so, data will be collected from healthy adults in this protocol, to be compared with data from cerebellar ataxia participants.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study

Healthy

Keywords

Cerebellar Ataxia, Healthy Controls, Ataxia, Spinocerebellar Ataxias, Cerebellar Diseases, Neurodegenerative Diseases, Movement Disorders, Cerebellum, Gait, Balance

7. Study Design

Primary Purpose

Basic Science

Study Phase

Not Applicable

Interventional Study Model

Factorial Assignment

Masking

None (Open Label)

Allocation

Randomized

Enrollment

30 (Anticipated)

8. Arms, Groups, and Interventions

Arm Title

Real time neurofeedback with task

Arm Type

Other

Arm Description

Participants will undergo a real-time fMRI scan during which two distinct tasks will be performed.

Arm Title

Overt tapping and/or motor imagery practice

Arm Type

Other

Arm Description

Participants will undergo an overt tapping task at baseline. Participants are assigned to a group where they will then perform respective motor and/or imagery tasks at home for 3 weeks.

Intervention Type

Device

Intervention Name(s)

Neurofeedback treatment

Intervention Description

During the fMRI scan, the tasks consist of: Overt finger tapping in time with a flashing cue. Motor imagery (of finger tapping). During overt finger tapping, feedback will consist of a slider bar that indicates tapping accuracy to target speed (1 or 4Hz). During motor imagery, neurofeedback will consist of a slider bar that indicates the success of recruiting predicted brain regions (consistent with those engaged during overt tapping).

Intervention Type

Behavioral

Intervention Name(s)

At-home therapy

Intervention Description

Participants are assigned to groups where they will practice each day for 3 weeks at-home. Group 1: Imagery only. Group 2: Overt finger tapping only. Group 3: Imagery plus overt finger tapping. During imagery, participants will view the task while imagining that they are finger tapping in time with the flashing cue, using the imagery strategies identified during their previous neurofeedback session. During overt tapping, participants will finger tap in time with the flashing cue. A final assessment of overt tapping will be performed the day after therapy ends.

Primary Outcome Measure Information:

Title

Change in overt tapping accuracy as assessed by finger tapping to a flashing cue at 1Hz speed

Description

Time Frame

Baseline and MRI duration, up to 1 hour

Title

Change in overt tapping accuracy as assessed by finger tapping to a flashing cue at 4Hz speed

Description

Time Frame

Baseline and MRI duration, up to 1 hour

Title

Change in at-home overt tapping accuracy as assessed by finger tapping to a flashing cue at 1Hz speed

Description

Time Frame

Baseline and At-home sessions (10 minutes/day), up to 23 days

Title

Change in at-home overt tapping accuracy as assessed by finger tapping to a flashing cue at 4Hz speed

Description

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 (imagery only, tapping only, or imagery plus tapping). At-home tapping performance will be compared to MRI tapping performance. 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

Secondary Outcome Measure Information:

Title

The correlation between MRI BOLD and finger tapping accuracy to a flashing cue at 1Hz as assessed by a correlation coefficient

Description

Time Frame

MRI duration, up to 1 hour

Title

The correlation between MRI BOLD and finger tapping accuracy to a flashing cue at 4Hz as assessed by a correlation coefficient

Description

Time Frame

MRI duration, up to 1 hour

Title

The correlation between the KVIQ and imagery accuracy of the slider bar from target on the MRI task as assessed by a correlation coefficient

Description

Time Frame

Up to 1.5 hours

Title

The correlation between the ICARS and imagery accuracy of the slider bar from target on the MRI task as assessed by a correlation coefficient

Description

Time Frame

Up to 1.5 hours

10. Eligibility

Sex

All

Minimum Age & Unit of Time

18 Years

Maximum Age & Unit of Time

100 Years

Accepts Healthy Volunteers

Eligibility Criteria

Inclusion Criteria: 18-100 years of age At least 8th-grade education Right-handedness Exclusion Criteria: History of Axis I psychiatric disorders (including alcohol and drug dependence) Severe or unstable medical disorder, neurological disorders, such as stroke or epilepsy History of head injury that resulted in a loss of consciousness greater than 5 minutes and/or neurological sequelae Any condition that is contraindicated for the MRI environment (e.g., metal in the body, pacemaker, claustrophobia) Currently pregnant Eligible subjects may be asked to refrain from medications that affect the central nervous system that would also make data difficult to interpret (e.g., sedatives) for an appropriate period of time prior to scanning Participants will be excluded if they do not have a home computer with internet available to complete the 3-week at-home component of the study protocol

Central Contact Person:

First Name & Middle Initial & Last Name or Official Title & Degree

Cherie Marvel, PhD

Phone

410-502-4664

cmarvel1@jhmi.edu

Overall Study Officials:

First Name & Middle Initial & Last Name & Degree

Cherie Marvel, PhD

Organizational Affiliation

Johns Hopkins University

Official's Role

Principal Investigator

Facility Information:

Facility Name

Johns Hopkins University School of Medicine

City

Baltimore

State/Province

Maryland

ZIP/Postal Code

21205

Country

United States

Individual Site Status

Recruiting

Facility Contact:

First Name & Middle Initial & Last Name & Degree

Cherie Marvel

Phone

410-387-8510

cmarvel1@jhmi.edu

First Name & Middle Initial & Last Name & Degree

Cherie Marvel, PhD

12. IPD Sharing Statement

Plan to Share IPD

Yes

IPD Sharing Plan Description

Individual participant data that underlie the results reported in this article, after deidentification (text, tables, figures, and appendices).

IPD Sharing Time Frame

Immediately following publication. No end date.

IPD Sharing Access Criteria

Access to trial individual participant data (IPD) can be requested by qualified researchers engaging in independent scientific research, and will be provided following review and approval of a research proposal and Statistical Analysis Plan (SAP) and execution of a Data Sharing Agreement (DSA). For more information or to submit a request, please contact cmarvel1@jhmi.edu.

Learn more about this trial

Use of Real-Time Functional Magnetic Resonance Imaging Neurofeedback to Improve Motor Function in Cerebellar Ataxia

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