Healthy Clinical Trial
Official title:
Theta-burst Stimulation Modulates Criticality and Cognitive Control
The project examines electroencephalography, MRI, and behavioral measures indexing flexibility (critical state dynamics) in the brain when healthy young adults do demanding cognitive tasks, and in response to transcranial magnetic stimulation.
Status | Not yet recruiting |
Enrollment | 60 |
Est. completion date | June 1, 2026 |
Est. primary completion date | December 30, 2025 |
Accepts healthy volunteers | Accepts Healthy Volunteers |
Gender | All |
Age group | 18 Years to 45 Years |
Eligibility | Inclusion Criteria: 1. Provision of signed and dated informed consent form 2. Stated willingness to comply with all study and availability for the duration of the study 3. Males and females; Ages 18-45 4. Healthy, neurologically normal with no diagnosed mental or physical illness 5. Willingness to adhere to the MRI and two session stimulation protocol 6. Fluent in English 7. Normal or corrected to normal vision 8. At least twelve years of education (high school equivalent) Exclusion Criteria: 1. Ongoing drug or alcohol abuse 2. Diagnosed psychiatric or mental illness 3. Currently taking psychoactive medication 4. Prior brain injury 5. Metal in body 6. History of seizures or diagnosis of epilepsy 7. Claustrophobia 8. Pregnant or possibly pregnant 9. Younger than 18 or older than 45 10. Use of medications which potentially lower the usage threshold |
Country | Name | City | State |
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n/a |
Lead Sponsor | Collaborator |
---|---|
Rutgers, The State University of New Jersey |
Chung SW, Hill AT, Rogasch NC, Hoy KE, Fitzgerald PB. Use of theta-burst stimulation in changing excitability of motor cortex: A systematic review and meta-analysis. Neurosci Biobehav Rev. 2016 Apr;63:43-64. doi: 10.1016/j.neubiorev.2016.01.008. Epub 2016 Feb 3. — View Citation
Huang YZ, Edwards MJ, Rounis E, Bhatia KP, Rothwell JC. Theta burst stimulation of the human motor cortex. Neuron. 2005 Jan 20;45(2):201-6. doi: 10.1016/j.neuron.2004.12.033. — View Citation
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Critical dynamics - immediate effects of cTBS versus sham stimulation | Long-range temporal correlations quantified by the scaling exponent, which is derived from EEG data, via detrended fluctuation analysis. Scores range from 0.5 (uncorrelated time series) to 1.0 (correlated time series). Lower scores, indicating weaker correlations, are expected following active continuous theta burst stimulation (cTBS) versus sham stimulation. So, the difference score should be negative, indicating weaker long-range temporal correlations as a result of cTBS, immediately after stimulation. | Change in correlations recorded during rest, immediately after stimulation, for active versus sham stimulation. | |
Primary | Functional E/I balance - immediate effects of cTBS versus sham stimulation | The functional E/I ratio, which is derived from a comparison of band-limited amplitude to the fluctuation function, reflects the balance of excitation versus inhibition driving the associated oscillations. Scores range from approximately 0.5 to 1.5 with values below 1.0 indicating inhibition dominance and values above 1.0 indicating excitation dominance. Lower scores, indicating more inhibition dominance, are expected following active continuous theta burst stimulation (cTBS) versus sham stimulation. So, the difference score should be negative, indicating a lower E/I balance as a result of cTBS, immediately after stimulation. | Change in the functional E/I balance recorded during rest, immediately after stimulation, for active versus sham stimulation. | |
Primary | Avalanche branching ratio - immediate effects of cTBS versus sham stimulation | The growth rate of neuronal avalanches can be estimated from the clustering of high amplitude events in in electroencephalography (EEG) signal. Faster growing avalanches correspond with tighter clustering of events in time. Scores range from approximately 0.5 to 1.5 with values below 1.0 indicating inhibition dominance and values above 1.0 indicating excitation dominance. Lower scores, indicating more inhibition dominance, are expected following active continuous theta burst stimulation (cTBS) versus sham stimulation. So, the difference score should be negative, indicating a lower E/I balance as a result of cTBS, immediately after stimulation. | Change in the avalanche branching ratio recorded during rest, immediately after stimulation, for active versus sham stimulation. | |
Primary | Critical dynamics - immediate effects of iTBS versus sham stimulation | Long-range temporal correlations quantified by the scaling exponent, which is derived from EEG data, via detrended fluctuation analysis. Scores range from 0.5 (uncorrelated time series) to 1.0 (correlated time series). Higher scores, indicating stronger correlations, are expected following active intermittent theta burst stimulation (iTBS) versus sham stimulation. So, the difference score should be positive, indicating stronger long-range temporal correlations as a result of iTBS, immediately after stimulation. | Change in correlations recorded during rest, immediately after stimulation, for active versus sham stimulation. | |
Primary | Functional E/I balance - immediate effects of iTBS versus sham stimulation | The functional E/I ratio, which is derived from a comparison of band-limited amplitude to the fluctuation function, reflects the balance of excitation versus inhibition driving the associated oscillations. Scores range from approximately 0.5 to 1.5 with values below 1.0 indicating inhibition dominance and values above 1.0 indicating excitation dominance. Higher scores, indicating more excitation dominance, are expected following active intermittent theta burst stimulation (iTBS) versus sham stimulation. So, the difference score should be positive, indicating a higher E/I balance as a result of iTBS, immediately after stimulation. | Change in the functional E/I balance recorded during rest, immediately after stimulation, for active versus sham stimulation. | |
Primary | Avalanche branching ratio - immediate effects of iTBS versus sham stimulation | The growth rate of neuronal avalanches can be estimated from the clustering of high amplitude events in in electroencephalography (EEG) signal. Faster growing avalanches correspond with tighter clustering of events in time. Scores range from approximately 0.5 to 1.5 with values below 1.0 indicating inhibition dominance and values above 1.0 indicating excitation dominance. Higher scores, indicating more excitation dominance, are expected following active intermittent theta burst stimulation (iTBS) versus sham stimulation. So, the difference score should be positive, indicating a higher E/I balance as a result of iTBS, immediately after stimulation. | Change in the avalanche branching ratio recorded during rest, immediately after stimulation, for active versus sham stimulation. | |
Primary | Memory-guided saccade accuracy - effects of cTBS versus sham stimulation | Accuracy on the memory-guided saccade task, as quantified by mean degrees of visual angle deviation typically range from ~1.0 to 5.0 degrees, with higher scores indicating higher inaccuracy. Theta burst stimulation to the FEF should modulate cortical excitability making the FEF in some people's brains operate closer to criticality, and in others' brains, operate farther from criticality. Because criticality implies susceptibility and flexibility, stimulation protocols which make the FEF operate closer to criticality, relative to sham stimulation, will show bigger errors in degrees of visual angle. | Change in degrees of visual angle error estimated 44 minutes after stimulation, for cTBS versus sham stimulation. | |
Primary | Memory-guided saccade accuracy - effects of iTBS versus sham stimulation | Accuracy on the memory-guided saccade task, as quantified by mean degrees of visual angle deviation typically range from ~1.0 to 5.0 degrees, with higher scores indicating higher inaccuracy. Theta burst stimulation to the FEF should modulate cortical excitability making the FEF in some people's brains operate closer to criticality, and in others' brains, operate farther from criticality. Because criticality implies susceptibility and flexibility, stimulation protocols which make the FEF operate closer to criticality, relative to sham stimulation, will show bigger errors in degrees of visual angle. | Change in degrees of visual angle error estimated 44 minutes after stimulation, for iTBS versus sham stimulation. | |
Primary | Anti-saccade accuracy - effects of cTBS versus sham stimulation | Accuracy on the anti-saccade task, as quantified by mean percent of correct saccades away from a cue typically ranges between 80% and 100% correct. Theta burst stimulation to the FEF should modulate cortical excitability making the FEF in some people's brains operate closer to criticality, and in others' brains, operate farther from criticality. Because criticality implies greater inter-regional communication between top-down control regions and sensorimotor cortex, stimulation protocols which make the FEF operate closer to criticality, relative to sham stimulation, will a higher perfect increase in accuracy as a result of stimulation. | Change in percent accuracy estimated 12 minutes after stimulation, for cTBS versus sham stimulation. | |
Primary | Anti-saccade accuracy - effects of iTBS versus sham stimulation | Accuracy on the anti-saccade task, as quantified by mean percent of correct saccades away from a cue typically ranges between 80% and 100% correct. Theta burst stimulation to the FEF should modulate cortical excitability making the FEF in some people's brains operate closer to criticality, and in others' brains, operate farther from criticality. Because criticality implies greater inter-regional communication between top-down control regions and sensorimotor cortex, stimulation protocols which make the FEF operate closer to criticality, relative to sham stimulation, will a higher perfect increase in accuracy as a result of stimulation. | Change in percent accuracy estimated 12 minutes after stimulation, for iTBS versus sham stimulation. | |
Primary | Subjective effort discounting - cTBS versus sham stimulation | Subjective values as estimated from an effort discounting procedure as a discounted offer ranging from 0.0 (full effort discounting) to 1.0 (no effort discounting). Lower values indicate that people find subjective effort to be more costly. Theta burst stimulation to the FEF should modulate cortical excitability making the FEF in some people's brains operate closer to criticality, and in others' brains, operate farther from criticality. We hypothesize that divergence from criticality underlies phenomenological effort. So, we predict that stimulation which makes people's brains operate closer to criticality relative to sham will experience less effort and have a higher subjective value. | Change in subjective value estimated 72 minutes after stimulation, for cTBS versus sham stimulation. | |
Primary | Subjective effort discounting - iTBS versus sham stimulation | Subjective values as estimated from an effort discounting procedure as a discounted offer ranging from 0.0 (full effort discounting) to 1.0 (no effort discounting). Lower values indicate that people find subjective effort to be more costly. Theta burst stimulation to the FEF should modulate cortical excitability making the FEF in some people's brains operate closer to criticality, and in others' brains, operate farther from criticality. We hypothesize that divergence from criticality underlies phenomenological effort. So, we predict that stimulation which makes people's brains operate closer to criticality relative to sham will experience less effort and have a higher subjective value. | Change in subjective value estimated 72 minutes after stimulation, for iTBS versus sham stimulation. | |
Primary | Subjective effort rating - cTBS versus sham stimulation | Likert ratings of subjective effort randing from 1 (low effort) to 10 (high effort). Theta burst stimulation to the FEF should modulate cortical excitability making the FEF in some people's brains operate closer to criticality, and in others' brains, operate farther from criticality. We hypothesize that divergence from criticality underlies phenomenological effort. So, we predict that stimulation which makes people's brains operate closer to criticality relative to sham will experience less effort and have a higher subjective value. | Change in subjective value estimated 70 minutes after stimulation, for cTBS versus sham stimulation. | |
Primary | Subjective effort rating - iTBS versus sham stimulation | Likert ratings of subjective effort randing from 1 (low effort) to 10 (high effort). Theta burst stimulation to the FEF should modulate cortical excitability making the FEF in some people's brains operate closer to criticality, and in others' brains, operate farther from criticality. We hypothesize that divergence from criticality underlies phenomenological effort. So, we predict that stimulation which makes people's brains operate closer to criticality relative to sham will experience less effort and have a higher subjective value. | Change in subjective value estimated 70 minutes after stimulation, for iTBS versus sham stimulation. |
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