Temporal Interference Methods for Non-invasive Deep Brain Stimulation, Study 1.2

Through the grant's duration, the investigators hypothesize that temporal interference (TI) electrical neurostimulation will be well tolerated and effective at focally manipulating deep brain activity as measured by functional MRI (fMRI) BOLD signals. The investigators will investigate whether TI stimulation can increase BOLD activity in targeted deep brain regions including the nucleus accumbens (NAcc) and dorsal anterior cingulate cortex (dACC), and whether this stimulation can influence cognitive functions controlled by these regions. TI works by applying alternating currents of slightly different frequencies through multiple electrode pairs, creating an interference pattern that can stimulate deep brain regions without significantly affecting superficial cortical areas. This method is similar to traditional transcranial direct current stimulation (tDCS), however TI can stimulate deeper brain structures that tDCS cannot reach effectively. The study is broken up into two main aims with multiple sub-studies. In Aim 1, the investigators will characterize the effects of TI on fMRI BOLD signals, test different beat frequencies, and compare TI effects in the nucleus accumbens versus dorsal anterior cingulate cortex. In Aim 2, the investigators will apply TI to the dorsal anterior cingulate cortex to test causal theories about its role in cognitive control, conflict monitoring, risk avoidance, and foraging behavior using established cognitive tasks while subjects undergo fMRI scanning.

Study 1.2 (Aim 1, Study 12) will test the ability to focally activate the nucleus accumbens without activating the overlying cortex, and also its effects on functional connectivity. Healthy subjects (n=30) will present for a single study visit during which they will be placed in the fMRI scanner and administered a temporal interference protocol. Specifically, subjects will have four pairs of carbon fiber electrodes attached to the scalp with conductive gel. They will receive one 8-minute block of stimulation at 2mA per electrode pair. The stimulation sequence will be 2 minutes on, 2 minutes off, 2 minutes on, and 2 minutes off with 30 second ramp up and ramp down beginning at the start of each 2-minute period. For Study 1.2, two TI beat frequencies will be evaluated: 5 Hz (produced by channels at 2000 Hz and 2005 Hz) and 10 Hz (produced by channels at 2000 Hz and 2010 Hz). Each beat frequency will have an Active block (30-second ramp to 2 mA, 2 min on / 2 min off cycles) and a matching Sham block where the stimulation immediately ramps down as soon as it reaches 2 mA after ramp up. The order of blocks and whether the "on" or "off" condition occurs first will be counterbalanced across subjects.