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Effect of Cross Frequency tACS on Cognitive Control

Not Applicable
Completed
Conditions
Cognitive Control
Executive Function
Interventions
Device: Theta-gamma tACS
Device: Delta-beta tACS
Device: Sham tACS
Registration Number
NCT03800030
Lead Sponsor
University of North Carolina, Chapel Hill
Brief Summary

Investigation of frequency specific transcranial alternating current stimulation on cognitive control signals in frontal cortex

Detailed Description

Previous evidence suggests that there are specific frequency bands associated with different aspects of cognitive control. In specific delta (2-4Hz) and beta (15-30Hz) are associated with increased levels of abstraction for learned rules; and theta (5-8Hz) and gamma (30-50Hz) has been associated with increased set-size or number of learned rules. Here we aim to find causal evidence in support of these previous correlational findings by applying cross-frequency transcranial alternating current stimulation (tACS) in the specific frequency bands previously shown to be task-relevant. In a crossover design, we stimulate subjects with either delta-beta or theta-gamma tACS during performance of a hierarchical cognitive control task that manipulates the level of abstraction and set-size of rules that must be learned in order to make the correct button press.

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
26
Inclusion Criteria
  • Between the ages of 18 and 35 years
  • Able to provide informed consent
  • Willing to comply with all study procedures and be available for the duration of the study Speak and understand English
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Exclusion Criteria
  • Attention Deficit Hyperactivity Disorder (currently under treatment)
  • Neurological disorders and conditions, including, but not limited to:
  • History of epilepsy
  • Seizures (except childhood febrile seizures and electroconvulsive therapy induced seizures) Dementia
  • History of stroke
  • Parkinson's disease
  • Multiple sclerosis
  • Cerebral aneurysm
  • Brain tumors
  • Medical or neurological illness or treatment for a medical disorder that could interfere with study participation (e.g., unstable cardiac disease, malignancy)
  • Prior brain surgery
  • Any brain devices/implants, including cochlear implants and aneurysm clips
  • History or current traumatic brain injury
  • (For females) Pregnancy or breast feeding
  • Personal or family history of mental/psychiatric disorder (e.g., anxiety, major depressive disorder, schizophrenia, etc.)
  • Positive urine test for the following: Marijuana (THC), Cocaine (COC), Phencyclidine (PCP), Amphetamine (AMP), Ecstasy (MDMA), Methamphetamine (Mamp), Opiates (OPI), Oxycodone (OXY), Methadone (MTD), Barbiturates (BAR), Benzodiazepines (BZO), Buprenorphine (BUP), Tricyclic Antidepressants (TCA), Propoxyphene (PPX)
  • Anything that, in the opinion of the investigator, would place the participant at increased risk or preclude the participant's full compliance with or completion of the study
Read More

Study & Design

Study Type
INTERVENTIONAL
Study Design
CROSSOVER
Arm && Interventions
GroupInterventionDescription
Delta-beta, Theta-gamma, Sham tACSTheta-gamma tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Delta-beta tACS, then Theta-gamma tACS, then Sham tACS
Delta-beta, Theta-gamma, Sham tACSDelta-beta tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Delta-beta tACS, then Theta-gamma tACS, then Sham tACS
Delta-beta, Theta-gamma, Sham tACSSham tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Delta-beta tACS, then Theta-gamma tACS, then Sham tACS
Sham, Delta-beta, Theta-gamma tACSTheta-gamma tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Sham tACS, then Delta-beta tACS, then Theta-gamma tACS
Theta-gamma, Sham, Delta-betaTheta-gamma tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Theta-gamma tACS, then Sham tACS, then Delta-beta tACS
Theta-gamma, Sham, Delta-betaDelta-beta tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Theta-gamma tACS, then Sham tACS, then Delta-beta tACS
Theta-gamma, Sham, Delta-betaSham tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Theta-gamma tACS, then Sham tACS, then Delta-beta tACS
Theta-gamma, Delta-beta, ShamTheta-gamma tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Theta-gamma tACS, then Delta-beta tACS, then Sham tACS
Theta-gamma, Delta-beta, ShamSham tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Theta-gamma tACS, then Delta-beta tACS, then Sham tACS
Delta-beta, Sham, Theta-gamma tACSTheta-gamma tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Delta-beta tACS, then Sham tACS, then Theta-gamma tACS
Sham, Theta-gamma, Delta-beta tACSSham tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Sham tACS, then Theta-gamma tACS, then Delta-beta tACS
Delta-beta, Sham, Theta-gamma tACSSham tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Delta-beta tACS, then Sham tACS, then Theta-gamma tACS
Theta-gamma, Delta-beta, ShamDelta-beta tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Theta-gamma tACS, then Delta-beta tACS, then Sham tACS
Sham, Delta-beta, Theta-gamma tACSDelta-beta tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Sham tACS, then Delta-beta tACS, then Theta-gamma tACS
Sham, Delta-beta, Theta-gamma tACSSham tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Sham tACS, then Delta-beta tACS, then Theta-gamma tACS
Delta-beta, Sham, Theta-gamma tACSDelta-beta tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Delta-beta tACS, then Sham tACS, then Theta-gamma tACS
Sham, Theta-gamma, Delta-beta tACSTheta-gamma tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Sham tACS, then Theta-gamma tACS, then Delta-beta tACS
Sham, Theta-gamma, Delta-beta tACSDelta-beta tACSEvery participant will receive Theta-gamma tACS, Delta-beta tACS, and Sham tACS on separate sessions during performance of a computerized task. Sequence: Sham tACS, then Theta-gamma tACS, then Delta-beta tACS
Primary Outcome Measures
NameTimeMethod
Reaction Time for Trials With High Abstraction Relative to Low Abstractionthrough study completion, an average of 3 weeks

For low abstraction conditions, subjects must memorize a color to button mapping. For high abstraction conditions, subject must make a perceptual judgement on the similarity of two objects based on either texture or shape as cued by a color. The reaction time difference between high and low abstraction conditions was hypothesized to decrease when delta-beta tACS was delivered. As a control for the placebo effect of stimulation, the difference between delta-beta tACS and sham tACS, or placebo, was used for statistical analysis.

Theta Phase to Gamma Amplitude Coupling Strengththrough study completion, an average of 3 weeks

Theta-gamma tACS was hypothesized to increase cross frequency coupling strength (higher value) between the targeted frequency bands. Phase amplitude coupling between theta phase and gamma amplitude was calculated for the two minute electrical brain recordings after stimulation. A null distribution was calculated by shuffling the gamma amplitude time series relative to the theta phase time series and then calculating coupling strength. The outcome measure is the z-transformed value of the genuine phase amplitude coupling relative to the null distribution.

Reaction Time for Trials With High Set-size Relative to Low Set-sizethrough study completion, an average of 3 weeks

The reaction time difference between high and low set-size conditions was hypothesized to decrease when theta-gamma tACS is delivered. As a control for the placebo effect of stimulation, the difference between theta-gamma tACS and sham tACS, or placebo, was used for statistical analysis.

Percent Correct for Trials With High Abstraction Relative to Low Abstractionthrough study completion, an average of 3 weeks

For low abstraction conditions, subjects must memorize a color to button mapping. For high abstraction conditions, subject must make a perceptual judgement on the similarity of two objects based on either texture or shape as cued by a color. The accuracy difference between high and low abstraction conditions was hypothesized to decrease when delta-beta tACS was delivered. As a control for the placebo effect of stimulation, the difference between delta-beta tACS and sham tACS, or placebo, was used for statistical analysis.

Percent Correct for Trials With High Set-size Relative to Low Set-sizethrough study completion, an average of 3 weeks

The accuracy difference between high and low set-size conditions was hypothesized to decrease when theta-gamma tACS is delivered. As a control for the placebo effect of stimulation, the difference between theta-gamma tACS and sham tACS, or placebo, was used for statistical analysis.

Delta Phase to Beta Amplitude Coupling Strengththrough study completion, an average of 3 weeks

Delta-beta tACS was hypothesized to increase cross frequency coupling strength (higher value) between the targeted frequency bands. Phase amplitude coupling between delta phase and beta amplitude was calculated for the two minute electrical brain recordings after stimulation. A null distribution was calculated by shuffling the beta amplitude time series relative to the delta phase time series and then calculating coupling strength. The outcome measure is the z-transformed value of the genuine phase amplitude coupling relative to the null distribution.

Secondary Outcome Measures
NameTimeMethod

Trial Locations

Locations (1)

University of North Carolina, Chapel Hill

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Chapel Hill, North Carolina, United States

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