Temporal Interference Methods for Non-invasive Deep Brain Stimulation, Study 1.2
Temporal Interference Methods for Non-invasive Deep Brain Stimulation
Indiana University
30 participants
Feb 3, 2026
INTERVENTIONAL
Conditions
Summary
In its totality, this grant aims to develop a line of research using temporal interference (TI) electrical neurostimulation technology to understand the causal role of deep brain structures in cognition. In the short term, the investigators aim to validate and characterize the effects of TI on brain activity as measured by fMRI and demonstrate its ability to focally stimulate deep brain regions without affecting overlying cortex. In the longer term, investigators aim to use these data to resolve longstanding debates about the function of deeper brain regions and lay the foundation for future clinical applications of TI for treating addiction, Obsessive-Compulsive Disorder (OCD), Parkinson's disease, and other disorders involving deep brain dysfunction. The grant supports 2 distinct aims, each of which will be evaluated through a series of independent studies.
Eligibility
Inclusion Criteria3
- Between the ages of 18 and 50
- Must have at least a 6th grade education
- Ability to speak and read English for all phases
Exclusion Criteria13
- Currently taking psychotropic medications for ADHD, other mental illness, or medications for cancer
- History of epilepsy or seizure disorders
- History of migraines or other neurological syndromes
- History of AIDS (due to potential cognitive deficits)
- History of head trauma or cognitive impairments
- Personal experiences consistent with symptoms of psychosis (e.g., hallucinations, delusions of control or special powers)
- History of skull defects (e.g., holes bored into the skull or known cranial fissures)
- Metal implants in the head or under the scalp
- Does not meet fMRI safety screening criteria (e.g., metal implants in the body, permanent jewelry, tattoos on the head or neck)
- Uses an intrauterine device (IUD) for birth control and cannot provide documentation to verify MRI safety
- Pregnancy (self-reported; no pregnancy test administered)
- Weight over 440 lbs (scanner weight limit)
- Presence of pacemakers
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Interventions
Non-invasive electrical brain stimulation delivered through two sets of scalp electrodes using alternating current frequencies at up to 2 mA per electrode. For the NAcc 5 Hz TI Active condition, one channel will deliver 2000 Hz and the other 2005 Hz, producing a 5 Hz beat frequency that focally stimulates deep brain regions without activating overlying cortex. Stimulation is administered in 2-minute on / 2-minute off cycles with a 30-second ramp up and ramp down beginning at the start of each 2-minute period.
Same setup as the 5 Hz TI Active condition, except that the stimulation immediately ramps down as soon as it reaches 2 mA after ramp up, producing a sham condition.
Non-invasive electrical brain stimulation delivered through two sets of scalp electrodes using alternating current frequencies at up to 2 mA per electrode. For the NAcc 10 Hz TI Active condition, one channel will deliver 2000 Hz and the other 2010 Hz, producing a 10 Hz beat frequency that focally stimulates deep brain regions without activating overlying cortex. Stimulation is administered in 2-minute on / 2-minute off cycles with a 30-second ramp up and ramp down beginning at the start of each 2-minute period.
Same setup as the 10 Hz TI Active condition, except that the stimulation immediately ramps down as soon as it reaches 2 mA after ramp up, producing a sham condition.
Locations(1)
View Full Details on ClinicalTrials.gov
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NCT07339072