Noninvasive Temporal Interference Stimulation: Modulating Associative Memory by Targeting Deep-brain Targets

"TIS relies on high frequencies which can penetrate with relatively low loss. High-frequency carriers (\>1 kHz) emitted by two (or more) pairs of cutaneous electrodes can temporally interfere at deep peripheral nerve targets. The effective stimulation frequency is equal to the offset frequency between the carriers. By controlling field orientation and frequency offset, the hot spot of constructive interference can be precisely targeted. The key aspect of this method is the use of carrier waves at frequencies higher than 1 kHz. Frequencies above this range are regarded as non-stimulating and pass-through tissues with relatively low loss. While these higher frequencies do not stimulate neural tissue, the interference envelope of two phase-shifted frequencies can elicit action potentials because the offset (aka beat) frequency can be tuned accordingly to \< 100 Hz."

"TIS relies on high frequencies which can penetrate with relatively low loss. High-frequency carriers (\>1 kHz) emitted by two (or more) pairs of cutaneous electrodes can temporally interfere at deep peripheral nerve targets. The effective stimulation frequency is equal to the offset frequency between the carriers. By controlling field orientation and frequency offset, the hot spot of constructive interference can be precisely targeted. The key aspect of this method is the use of carrier waves at frequencies higher than 1 kHz. Frequencies above this range are regarded as non-stimulating and pass-through tissues with relatively low loss. While these higher frequencies do not stimulate neural tissue, the interference envelope of two phase-shifted frequencies can elicit action potentials because the offset (aka beat) frequency can be tuned accordingly to \< 100 Hz."

High-frequency (\>1 kHz) stimulation; Standardly used as a carrier frequency; Effects are expected to he high-pass filtered by neurons