Clinical Research Directory

Participants will receive 120 Hz transcutaneous electrical nerve stimulation (eTNS) during nighttime sleep. The stimulation is delivered via a current source stimulator connected to self-adhesive silicone electrodes placed above the left and right eyebrows. The stimulation consists of biphasic rectangular pulses with a 250 μs pulse width at a frequency of 120 Hz. It is delivered in continuous cycles of 30 seconds on and 30 seconds off. Before sleep, the current intensity is individually titrated to elicit a mild tingling sensation (corresponding to a score of 3-4 on a numerical rating scale) that will not disrupt the participant's sleep. The stimulation protocol automatically terminates after a duration of 8 hours.

Participants will receive 2 Hz transcutaneous electrical nerve stimulation (eTNS) during nighttime sleep. The stimulation is delivered via a current source stimulator connected to self-adhesive silicone electrodes placed above the left and right eyebrows. The stimulation consists of biphasic rectangular pulses with a 250 μs pulse width at a frequency of 2 Hz. It is delivered in continuous cycles of 30 seconds on and 30 seconds off. Before sleep, the current intensity is individually titrated to elicit a mild tingling sensation (corresponding to a score of 3-4 on a numerical rating scale) that will not disrupt the participant's sleep. The stimulation protocol automatically terminates after a duration of 8 hours.

Participants will receive a sham stimulation designed to serve as a placebo control. The equipment setup, including the placement of self-adhesive silicone electrodes above the left and right eyebrows, is identical to the active eTNS conditions. The current intensity is initially adjusted before sleep to elicit the same mild tingling sensation (a score of 3-4 on a numerical rating scale). However, to maintain double-blinding without providing a therapeutic dose, the stimulator only delivers current output during the first 2 minutes of the night (i.e., exactly two cycles of 30 seconds on and 30 seconds off). After these initial 2 minutes, the current output ceases entirely for the remainder of the 8-hour sleep period.