- ICH GCP
- US Clinical Trials Registry
- Clinical Trial NCT03896425
Maximizing the Impact of Neuroplasticity Using Transcranial Electrical Stimulation Study 1 (MINUTES)
Increased Thalamocortical Connectivity in Tdcs-potentiated Generalization of Cognitive Training
Non-invasive neuromodulation, such as transcranial direct current stimulation ( tDCS) , is emerging as an important therapeutic tool with documented effects on brain circuitry, yet little is understood about h ow it changes cognition. In particular, tDCS may have a critical role to play in generalization, that is how training in one domain generalizes to unlearned or unpracticed domains. This problem has resonance for disorders with cognitive deficits, such as schizophrenia.
Understanding how tDCS affects brain circuity is critical to the design and application of effective interventions, especially if the effects are different for healthy vs. psychiatric populations. In previous research, one clue to the mechanism underlying increased learning and generalization with tDCS was provided by neuroimaging data from subjects with schizophrenia undergoing cognitive training where increases in thalamocortical (prefrontal) functional connectivity (FC) predicted greater generalization.
The premise of this proposal is that increases in thalamocortical FC are associated with the generalization of cognitive training, and tDCS facilitates these increases. The overarching goals of this proposal are to deploy neuroimaging and cognitive testing to understand how tDCS with cognitive training affect thalamocortical circuitry in individuals with and without psychosis and to examine variability in response within both groups.
Study 1 will compare right prefrontal, left prefrontal and sham tDCS during concurrent cognitive training over 12 weeks in 90 healthy controls. Study 2 will be similar in all aspects but will examine 90 patients with schizophrenia or schizoaffective disorder and include clinical assessments. Results of the study will provide crucial information about location of stimulation, length of treatment, modeled dosage, trajectory and durability needed to guide future research and interventions for cognitive impairments.
Study Overview
Status
Conditions
Intervention / Treatment
Study Type
Enrollment (Actual)
Phase
- Not Applicable
Contacts and Locations
Study Contact
- Name: Lei Xuan
- Phone Number: 612-626-7302
- Email: lei@umn.edu
Study Locations
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Minnesota
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Minneapolis, Minnesota, United States, 55455
- University of Minnesota
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-
Participation Criteria
Eligibility Criteria
Ages Eligible for Study
Accepts Healthy Volunteers
Description
Inclusion Criteria:
- Ability to provide consent and comply with study procedures.
- Age 18 - 60 years old.
- Estimated IQ range within the range: 70 ≤ IQ ≤ 115.
- No Serious and Persistent Mental Illness (SPMI) or addictive disorder diagnosis as measured by the MINI (Mini International Neuropsychiatric Interview), or sleep disorder;
- Ability to participate in three weekly 45' training sessions over 12 weeks and participate in four assessments.
Exclusion Criteria:
- Any medical condition or treatment with neurological sequelae (e.g. stroke, tumor, loss of consciousness > 30 min, HIV).
- Contraindications for tDCS or MRI scanning (tDCS contraindication: history of seizures; MRI contraindications: The research team will utilize the CMRR Center's screening tools and adhere to the screening SOP during enrollment of all research participants in this protocol. The CMRR Center's screening tools and SOP are IRB approved under the CMRR Center Grant (HSC# 1406M51205) and information regarding screening procedures is publicly available on the CMRR website (CMRR Policies / Procedures).
Study Plan
How is the study designed?
Design Details
- Primary Purpose: Treatment
- Allocation: Randomized
- Interventional Model: Parallel Assignment
- Masking: Triple
Arms and Interventions
Participant Group / Arm |
Intervention / Treatment |
---|---|
Experimental: right active-tDCS
2-3 times/week for 12 weeks: ramp-up for 30 seconds, 2mA right (AF4 anode - AF3 cathode) for 20 min, and then ramp-down for 30 seconds.
|
Three different stimulation montages will be programmed: right, left and sham.
During the Ramp periods, 2 mA current will be delivered to both AF3 and AF4 with an ascending (RampUp) and descending ramp (RampDown) over 30 sec via two saline soaked electrode sponges (~ 25cm²; current density = 0.08 mA/cm²).
In this way, all subjects experience the same sensation on both sides to blind them to condition.
During the Constant period, current will be set based on the Condition: Right - 2mA AF4 anode-AF3 cathode; Left - 2mA applied to AF3 anode-AF4 cathode; Sham - current turned off.
|
Experimental: left active-tDCS
2-3 times/week for 12 weeks: ramp-up for 30 seconds, 2mA left (AF3 anode - AF4 cathode) for 20 min, and then ramp-down for 30 seconds.
|
Three different stimulation montages will be programmed: right, left and sham.
During the Ramp periods, 2 mA current will be delivered to both AF3 and AF4 with an ascending (RampUp) and descending ramp (RampDown) over 30 sec via two saline soaked electrode sponges (~ 25cm²; current density = 0.08 mA/cm²).
In this way, all subjects experience the same sensation on both sides to blind them to condition.
During the Constant period, current will be set based on the Condition: Right - 2mA AF4 anode-AF3 cathode; Left - 2mA applied to AF3 anode-AF4 cathode; Sham - current turned off.
|
Sham Comparator: sham tDCS
Current will be turned off immediately after the initial 30-second ramp-up period.
|
Three different stimulation montages will be programmed: right, left and sham.
During the Ramp periods, 2 mA current will be delivered to both AF3 and AF4 with an ascending (RampUp) and descending ramp (RampDown) over 30 sec via two saline soaked electrode sponges (~ 25cm²; current density = 0.08 mA/cm²).
In this way, all subjects experience the same sensation on both sides to blind them to condition.
During the Constant period, current will be set based on the Condition: Right - 2mA AF4 anode-AF3 cathode; Left - 2mA applied to AF3 anode-AF4 cathode; Sham - current turned off.
|
What is the study measuring?
Primary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Changes in thalamocortical functional connectivity (FC)
Time Frame: baseline; mid-test (week 6); post-test (week 12)
|
Most participants will complete MRI sessions on a 3T scanner located in the Center for Magnetic Resonance Research (CMRR) at the University of Minnesota.
To calculate FC, we will characterize the global and local network connectivity using a graph theory analysis.
This will be formed by extracting the fMRI time courses from ninety regions of interest, based on ROIs defined by the freesurfer T1 parcellation.
We will focus on low frequency (0.06-0.125 Hz) oscillations in the BOLD signal.
We will estimate the functional connectivity by computing the absolute value of the Pearson's correlation between all possible pairs of time series, creating a 90 x 90 (N x N) connectivity matrix.
The network topology metrics, characteristic path length and clustering coefficient, will be computed from the connectivity matrix, averaged over a threshold range representing .1 to .3 of the maximum possible number of edges in the graph.
We will also measure global strength and diversity of the nodes.
|
baseline; mid-test (week 6); post-test (week 12)
|
Changes in task-dependent thalamocortical functional connectivity (fMRI) during the N-back task.
Time Frame: baseline; mid-test (week 6); post-test (week 12);
|
Task-dependent thalamocortical connectivity associated with the N-back task will be identified by modeling the block task design together with the thalamic regressor (similar to psychophysiological interaction (PPI) analysis ).
The primary analysis for the N-Back tasks will consider the 2-back conditions alone.
Subsequent analyses will examine the 2 > 0-back contrast to strengthen interpretation of any observed changes in task-dependent thalamocortical connectivity.
Main effects of hemisphere (right active-tDCS vs left active-tDCS and sham-tDCS ), length of treatment , and modeled dosage will be examined for the N-back fMRI dataset .
Group x Time (pre-intervention, mid-intervention, post-intervention) interactions will also be examined for the N-back fMRI dataset.
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baseline; mid-test (week 6); post-test (week 12);
|
Changes in task-dependent thalamocortical functional connectivity (fMRI) during the DPX task.
Time Frame: baseline; mid-test (week 6); post-test (week 12);
|
Task-dependent thalamocortical connectivity associated with the DPX task demands will be identified by analyzing cue and probe events together with the thalamic regressor.
Preliminary analysis for the DPX task will examine B-cue related connectivity alone.
Subsequent analyses will strengthen interpretation by examining both B-cue > A-cue related connectivity, as well as connectivity changes associated with response-related, or reactive, control (during the AY condition).
Main effects of hemisphere (right active-tDCS vs left active-tDCS and sham-tDCS ), length of treatment , and modeled dosage will be examined for the DPX fMRI dataset .
Group x Time (pre-intervention, mid-intervention, post-intervention) interactions will also be examined for the DPX fMRI dataset.
|
baseline; mid-test (week 6); post-test (week 12);
|
Changes in N-back task performance
Time Frame: baseline; mid-test (week 6); post-test (week 12);
|
The n-back measures working memory capacity.
The participant is presented with a series of stimuli and instructed to indicate with a button press when the current stimulus matches the stimulus that appeared a pre-determined number (n) of trials before.
Both accuracy (percentage of correct responses) and reaction time (milliseconds) will be recorded, and d' (d prime) will be calculated as a measure of signal detection.
Increase in d' signifies improved signal detection, i.e. a better outcome.
|
baseline; mid-test (week 6); post-test (week 12);
|
Changes in DPX task performance
Time Frame: baseline; mid-test (week 6); post-test (week 12);
|
The DPX task is an adaptation of the expectancy AX task that uses pairs of simple dot patterns rather than letter pairs as stimuli.
DPX task will be performed in 3 blocks.
Each trial consists of a cue dot pattern followed by a probe dot pattern.
Different combinations of cues and probes enable the identification of a specific deficit in a subject's ability to maintain goal-relevant information throughout a trial.
Timing will be jittered and each block of the DPX task will consist of 40 trials: 24 AX (60%), 6 AY (15%), 6 BX (15%) and 4 BY (10%).
Each block will last 6 minutes.
d'-context will be calculated as a measure of signal detection.
Increase in d' -context signified improved signal detection, i.e. a better outcome.
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baseline; mid-test (week 6); post-test (week 12);
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Changes in Measurement and Treatment Research to Improve Cognition in Schizophrenia (MATRICS) Consensus Cognitive Battery (MCCB) composite score
Time Frame: baseline; mid-test (week 6); post-test (week 12);follow up (week 24).
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Intends to provide a relatively brief evaluation of key cognitive domains relevant to schizophrenia and related disorders.
The composite score is calculated as a sum of T scores from the battery's available sub tests.
Composite scores range from 213 (0.1 %tile) to 487 (99.9 %tile)
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baseline; mid-test (week 6); post-test (week 12);follow up (week 24).
|
Collaborators and Investigators
Sponsor
Collaborators
Study record dates
Study Major Dates
Study Start (Actual)
Primary Completion (Actual)
Study Completion (Estimated)
Study Registration Dates
First Submitted
First Submitted That Met QC Criteria
First Posted (Actual)
Study Record Updates
Last Update Posted (Actual)
Last Update Submitted That Met QC Criteria
Last Verified
More Information
Terms related to this study
Other Study ID Numbers
- PSYCH-2018-26586_01
- 1RF1MH116987-01 (U.S. NIH Grant/Contract)
Plan for Individual participant data (IPD)
Plan to Share Individual Participant Data (IPD)?
Drug and device information, study documents
Studies a U.S. FDA-regulated drug product
Studies a U.S. FDA-regulated device product
product manufactured in and exported from the U.S.
This information was retrieved directly from the website clinicaltrials.gov without any changes. If you have any requests to change, remove or update your study details, please contact register@clinicaltrials.gov. As soon as a change is implemented on clinicaltrials.gov, this will be updated automatically on our website as well.
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