Neurophysiological, Behavioral, and Cognitive Networks in Movement Disorders
Primary Purpose
Movement Disorders
Status
Recruiting
Phase
Not Applicable
Locations
United States
Study Type
Interventional
Intervention
Response Inhibition and Deep Brain Stimulation in Parkinson's disease
Sponsored by
About this trial
This is an interventional treatment trial for Movement Disorders focused on measuring Parkinson's disease
Eligibility Criteria
Inclusion Criteria:
- Eligible for DBS surgery based on multi-disciplinary consensus review
- Have a diagnosis of Parkinson's disease or Essential Tremor
- A minimum of 18 years of age
- Willingness to participate in the paradigms described in the protocol
Exclusion Criteria:
- Inability to provide full and informed consent
- Are not surgical candidates due to co-morbid conditions or pregnancy
- Have not undergone an adequate trial of conservative medical management
- Have a clinical presentation for which DBS surgery is not indicated
- Are not able to participate in study-related activities
Sites / Locations
- University of Alabama at BirminghamRecruiting
Arms of the Study
Arm 1
Arm 2
Arm Type
Experimental
No Intervention
Arm Label
Treatment
Control
Arm Description
Parkinson's Disease Patients receiving DBS electrodes
Control subjects will be non-Parkinson's Disease patients with essential tremor
Outcomes
Primary Outcome Measures
Accuracy via Simon Task (% correct)
In the Simon task, participants are instructed to respond with a right or left button press (Right = Red, Left = Blue) according to how a word is printed on a screen ("RED" or "BLUE"), regardless of the color in which the word is printed.
This is a measurement of accuracy (% correct, ranging from 0-100, with higher scores indicating better performance)
Accuracy via Simon Task (% correct)
In the Simon task, participants are instructed to respond with a right or left button press (Right = Red, Left = Blue) according to how a word is printed on a screen ("RED" or "BLUE"), regardless of the color in which the word is printed.
This is a measurement of accuracy (% correct, ranging from 0-100, with higher scores indicating better performance)
Response times via Simon Task (sec)
In the Simon task, participants are instructed to respond with a right or left button press according to the word "RIGHT" or "LEFT" that appears on a screen, regardless of where on the screen it actually appears.
This is a measurement response times (continuous measure, from 0-4000 milliseconds) between correct and incorrect responses.
Response times via Simon Task (sec)
In the Simon task, participants are instructed to respond with a right or left button press according to the word "RIGHT" or "LEFT" that appears on a screen, regardless of where on the screen it actually appears.
This is a measurement response times (continuous measure, from 0-4000 milliseconds) between correct and incorrect responses.
Simon Effect on Response times (sec)
Participants will perform the Simon task as described, and the Simon effect will be calculated as the difference in response times between congruent and incongruent trials
Simon Effect on Response times (sec)
Participants will perform the Simon task as described, and the Simon effect will be calculated as the difference in response times between congruent and incongruent trials
Simon Effect on Accuracy (% correct)
Participants will perform the Simon task as described, and the Simon effect will be calculated as the difference in accuracy between congruent and incongruent trials
Simon Effect on Accuracy (% correct)
Participants will perform the Simon task as described, and the Simon effect will be calculated as the difference in accuracy between congruent and incongruent trials
UPDRS 3 motor score (0-108)
Participants will undergo motor evaluation using the validated United Parkinson's disease Rating Scale (UPDRS) part 3
UPDRS 3 motor score (0-108)
Participants will undergo motor evaluation using the validated United Parkinson's disease Rating Scale (UPDRS) part 3
Dementia Rating Scale Score (0-144 points)
Participants will undergo neuropsychological testing as part of routine care, including the Dementia Rating Scale
Prefrontal power spectral density (microvolt^2/Hertz)
Participants will undergo intracranial monitoring during DBS surgery in which a prefrontal strip electrode will be placed, enabling measurement of brain activity.
Subcortical power spectral density (microvolt^2/Hertz)
Participants will undergo intracranial monitoring during DBS surgery in which a DBS electrode will be placed, enabling measurement of brain activity at subcortical targets.
Subcortical time-frequency spectrogram
Participants will undergo intracranial monitoring during DBS surgery in which a DBS electrode will be placed, enabling measurement of brain activity at subcortical targets.
Prefrontal time-frequency spectrogram
Participants will undergo intracranial monitoring during DBS surgery in which a prefrontal strip electrode will be placed, enabling measurement of brain activity.
Cortical-subcortical coherence (no units)
Participants will undergo intracranial monitoring during DBS surgery in which a prefrontal strip electrode and DBS electrode will be placed, enabling measurements of connectivity between these structures.
Cortical-subcortical phase slope index (no units)
Participants will undergo intracranial monitoring during DBS surgery in which a prefrontal strip electrode and DBS electrode will be placed, enabling measurements of connectivity between these structures.
Secondary Outcome Measures
Accuracy via Simon Task (% correct)
In the Simon task, participants are instructed to respond with a right or left button press (Right = Red, Left = Blue) according to how a word is printed on a screen ("RED" or "BLUE"), regardless of the color in which the word is printed.
This is a measurement of accuracy (% correct, ranging from 0-100, with higher scores indicating better performance)
Response times via Simon Task (sec)
In the Simon task, participants are instructed to respond with a right or left button press according to the word "RIGHT" or "LEFT" that appears on a screen, regardless of where on the screen it actually appears.
This is a measurement response times (continuous measure, from 0-4000 milliseconds) between correct and incorrect responses.
Simon Effect on Response times (sec)
Participants will perform the Simon task as described, and the Simon effect will be calculated as the difference in response times between congruent and incongruent trials
Simon Effect on Accuracy (% correct)
Participants will perform the Simon task as described, and the Simon effect will be calculated as the difference in accuracy between congruent and incongruent trials
UPDRS 3 motor score (0-108)
Participants will undergo motor evaluation using the validated United Parkinson's disease Rating Scale (UPDRS) part 3
Comparison of hemispheric differences in power spectral density (p-value, parametric two-tailed t-test)
We will compare changes in right and left-hemispheric power spectral density
Full Information
NCT ID
NCT04061135
First Posted
July 16, 2019
Last Updated
April 4, 2023
Sponsor
University of Alabama at Birmingham
1. Study Identification
Unique Protocol Identification Number
NCT04061135
Brief Title
Neurophysiological, Behavioral, and Cognitive Networks in Movement Disorders
Official Title
Neurophysiological, Behavioral, and Cognitive Networks in Movement Disorders
Study Type
Interventional
2. Study Status
Record Verification Date
April 2023
Overall Recruitment Status
Recruiting
Study Start Date
September 1, 2019 (Actual)
Primary Completion Date
March 31, 2025 (Anticipated)
Study Completion Date
March 31, 2026 (Anticipated)
3. Sponsor/Collaborators
Responsible Party, by Official Title
Principal Investigator
Name of the Sponsor
University of Alabama at Birmingham
4. Oversight
Studies a U.S. FDA-regulated Drug Product
No
Studies a U.S. FDA-regulated Device Product
No
5. Study Description
Brief Summary
The purpose of this study is to investigate the brain activity associated with motor and non-motor symptoms of movement disorders, including Parkinson's disease (PD) and essential tremor. These movement disorders commonly have significant non-motor features, such as depression, cognitive and memory impairment, decreased attention, speech and language disturbances, and slower processing speeds. The investigators are interested in the brain activity associated with these motor and non-motor symptoms, and propose to investigate changes in brain activity while the investigators perform recordings of the surface and deep structures of the brain, in addition to the typical recordings the investigators perform, during routine deep brain stimulation (DBS) surgery.
Detailed Description
Movement disorders are a prominent cause of disability worldwide. In the United States, it is estimated that more than 4 million people suffer from Parkinson's disease (PD), essential tremor (ET), and dystonia, making them some of the most prevalent of neurologic disorders. Of these, PD is the most common, and is primarily characterized by tremor, rigidity, and bradykinesia. However, though primarily characterized by motor symptoms, many patients also have prominent non-motor features, including depression and cognitive impairment, with deficiencies in processing speed, memory, attention, and learning. Some of the most debilitating cognitive deficiencies include deficits in goal-directed response selection and response inhibition, language, and/or speech difficulties, all of which substantially contribute to reduced quality of life.
Unfortunately, these features of movement disorders are less well-studied and lack effective treatment options, necessitating that new treatments be investigated. Deep brain stimulation (DBS), while a highly effective treatment for the cardinal features of PD, is essentially ineffective for, and can even worsen other cognitive domains, and there are few studies currently investigating how different parameters of DBS may improve these symptoms. In addition, speech abnormalities are common with Parkinson's disease and DBS can sometimes worsen speech problems. These impairments consists primarily of hypophonia, but cognitive deficits can result in actual language disturbance. It is often difficult to know whether the speech problems are related to language processing or articulation (related to the movement disorder). In an effort to begin addressing these questions, we propose to study motor and non-motor symptoms in patients with movement disorders, and to correlate movement and cognition with underlying neural electrophysiology.
6. Conditions and Keywords
Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Movement Disorders
Keywords
Parkinson's disease
7. Study Design
Primary Purpose
Treatment
Study Phase
Not Applicable
Interventional Study Model
Parallel Assignment
Masking
Participant
Allocation
Randomized
Enrollment
60 (Anticipated)
8. Arms, Groups, and Interventions
Arm Title
Treatment
Arm Type
Experimental
Arm Description
Parkinson's Disease Patients receiving DBS electrodes
Arm Title
Control
Arm Type
No Intervention
Arm Description
Control subjects will be non-Parkinson's Disease patients with essential tremor
Intervention Type
Procedure
Intervention Name(s)
Response Inhibition and Deep Brain Stimulation in Parkinson's disease
Intervention Description
After creation of the burr hole and prior to DBS electrode placement, 1-2 subdural strip electrodes will be placed anteriorly or posteriorly from the cranial opening. These electrodes are routinely placed using this technique for seizure mapping, with arrays of electrodes (up to 6) being placed around the perimeter of the opening.14 Subdural strips vary in length and contact size (e.g., the 6-contact Ad-Tech strip), and are currently placed predominantly for studies of sensorimotor function,13 including at our institution (IRB-140327003). Placement over prefrontal areas is performed at other institutions.11-13 The DBS surgery will then proceed according to routine practice, and following lead placement in the optimal desired location, the research task paradigm will begin.
Primary Outcome Measure Information:
Title
Accuracy via Simon Task (% correct)
Description
In the Simon task, participants are instructed to respond with a right or left button press (Right = Red, Left = Blue) according to how a word is printed on a screen ("RED" or "BLUE"), regardless of the color in which the word is printed.
This is a measurement of accuracy (% correct, ranging from 0-100, with higher scores indicating better performance)
Time Frame
Baseline
Title
Accuracy via Simon Task (% correct)
Description
In the Simon task, participants are instructed to respond with a right or left button press (Right = Red, Left = Blue) according to how a word is printed on a screen ("RED" or "BLUE"), regardless of the color in which the word is printed.
This is a measurement of accuracy (% correct, ranging from 0-100, with higher scores indicating better performance)
Time Frame
0-3 months
Title
Response times via Simon Task (sec)
Description
In the Simon task, participants are instructed to respond with a right or left button press according to the word "RIGHT" or "LEFT" that appears on a screen, regardless of where on the screen it actually appears.
This is a measurement response times (continuous measure, from 0-4000 milliseconds) between correct and incorrect responses.
Time Frame
Baseline
Title
Response times via Simon Task (sec)
Description
In the Simon task, participants are instructed to respond with a right or left button press according to the word "RIGHT" or "LEFT" that appears on a screen, regardless of where on the screen it actually appears.
This is a measurement response times (continuous measure, from 0-4000 milliseconds) between correct and incorrect responses.
Time Frame
0-3 months
Title
Simon Effect on Response times (sec)
Description
Participants will perform the Simon task as described, and the Simon effect will be calculated as the difference in response times between congruent and incongruent trials
Time Frame
Baseline
Title
Simon Effect on Response times (sec)
Description
Participants will perform the Simon task as described, and the Simon effect will be calculated as the difference in response times between congruent and incongruent trials
Time Frame
0-3 months
Title
Simon Effect on Accuracy (% correct)
Description
Participants will perform the Simon task as described, and the Simon effect will be calculated as the difference in accuracy between congruent and incongruent trials
Time Frame
Baseline
Title
Simon Effect on Accuracy (% correct)
Description
Participants will perform the Simon task as described, and the Simon effect will be calculated as the difference in accuracy between congruent and incongruent trials
Time Frame
0-3 months
Title
UPDRS 3 motor score (0-108)
Description
Participants will undergo motor evaluation using the validated United Parkinson's disease Rating Scale (UPDRS) part 3
Time Frame
Baseline
Title
UPDRS 3 motor score (0-108)
Description
Participants will undergo motor evaluation using the validated United Parkinson's disease Rating Scale (UPDRS) part 3
Time Frame
0-3 months
Title
Dementia Rating Scale Score (0-144 points)
Description
Participants will undergo neuropsychological testing as part of routine care, including the Dementia Rating Scale
Time Frame
Baseline
Title
Prefrontal power spectral density (microvolt^2/Hertz)
Description
Participants will undergo intracranial monitoring during DBS surgery in which a prefrontal strip electrode will be placed, enabling measurement of brain activity.
Time Frame
0-3 months
Title
Subcortical power spectral density (microvolt^2/Hertz)
Description
Participants will undergo intracranial monitoring during DBS surgery in which a DBS electrode will be placed, enabling measurement of brain activity at subcortical targets.
Time Frame
0-3 months
Title
Subcortical time-frequency spectrogram
Description
Participants will undergo intracranial monitoring during DBS surgery in which a DBS electrode will be placed, enabling measurement of brain activity at subcortical targets.
Time Frame
0-3 months
Title
Prefrontal time-frequency spectrogram
Description
Participants will undergo intracranial monitoring during DBS surgery in which a prefrontal strip electrode will be placed, enabling measurement of brain activity.
Time Frame
0-3 months
Title
Cortical-subcortical coherence (no units)
Description
Participants will undergo intracranial monitoring during DBS surgery in which a prefrontal strip electrode and DBS electrode will be placed, enabling measurements of connectivity between these structures.
Time Frame
0-3 months
Title
Cortical-subcortical phase slope index (no units)
Description
Participants will undergo intracranial monitoring during DBS surgery in which a prefrontal strip electrode and DBS electrode will be placed, enabling measurements of connectivity between these structures.
Time Frame
0-3 months
Secondary Outcome Measure Information:
Title
Accuracy via Simon Task (% correct)
Description
In the Simon task, participants are instructed to respond with a right or left button press (Right = Red, Left = Blue) according to how a word is printed on a screen ("RED" or "BLUE"), regardless of the color in which the word is printed.
This is a measurement of accuracy (% correct, ranging from 0-100, with higher scores indicating better performance)
Time Frame
6 months
Title
Response times via Simon Task (sec)
Description
In the Simon task, participants are instructed to respond with a right or left button press according to the word "RIGHT" or "LEFT" that appears on a screen, regardless of where on the screen it actually appears.
This is a measurement response times (continuous measure, from 0-4000 milliseconds) between correct and incorrect responses.
Time Frame
6 months
Title
Simon Effect on Response times (sec)
Description
Participants will perform the Simon task as described, and the Simon effect will be calculated as the difference in response times between congruent and incongruent trials
Time Frame
6 months
Title
Simon Effect on Accuracy (% correct)
Description
Participants will perform the Simon task as described, and the Simon effect will be calculated as the difference in accuracy between congruent and incongruent trials
Time Frame
6 months
Title
UPDRS 3 motor score (0-108)
Description
Participants will undergo motor evaluation using the validated United Parkinson's disease Rating Scale (UPDRS) part 3
Time Frame
6 months
Title
Comparison of hemispheric differences in power spectral density (p-value, parametric two-tailed t-test)
Description
We will compare changes in right and left-hemispheric power spectral density
Time Frame
0-3 months
Other Pre-specified Outcome Measures:
Title
Correlation of prefrontal power spectra between outpatient EEG and intraoperative ECOG (correlation coefficient)
Description
Participants will perform the Simon task during pre- and post-operative study visits. Power spectra will be compared to intraoperative power spectra.
Time Frame
0-6 months
10. Eligibility
Sex
All
Minimum Age & Unit of Time
18 Years
Accepts Healthy Volunteers
No
Eligibility Criteria
Inclusion Criteria:
Eligible for DBS surgery based on multi-disciplinary consensus review
Have a diagnosis of Parkinson's disease or Essential Tremor
A minimum of 18 years of age
Willingness to participate in the paradigms described in the protocol
Exclusion Criteria:
Inability to provide full and informed consent
Are not surgical candidates due to co-morbid conditions or pregnancy
Have not undergone an adequate trial of conservative medical management
Have a clinical presentation for which DBS surgery is not indicated
Are not able to participate in study-related activities
Central Contact Person:
First Name & Middle Initial & Last Name or Official Title & Degree
Nicole Bentley, MD
Phone
205-975-0011
Email
jbentley@uabmc.edu
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Nicole Bentley, MD
Organizational Affiliation
University of Alabama at Birmingham
Official's Role
Principal Investigator
Facility Information:
Facility Name
University of Alabama at Birmingham
City
Birmingham
State/Province
Alabama
ZIP/Postal Code
35233
Country
United States
Individual Site Status
Recruiting
Facility Contact:
First Name & Middle Initial & Last Name & Degree
Nicole Bentley, MD
Phone
205-975-0011
Email
jbentley@uabmc.edu
12. IPD Sharing Statement
Learn more about this trial
Neurophysiological, Behavioral, and Cognitive Networks in Movement Disorders
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