Non-Invasive At-Home Sleep Therapy System

The purpose of the present research is to evaluate the ability of non-invasive transcranial electrical stimulation (TES) during slow-wave sleep (SWS) to enhance this stage of sleep. It has been demonstrated, in a pilot study, that TES can acutely (i.e., immediately after TES) increase SWS duration. In the present proposal, the study aim to replicate and extend the pilot findings. More specifically, it is proposed to conduct a sleep study using the Brain Electrophysiology Laboratory (BEL) company's Sleep WISP device (described in detail below). The Sleep WISP device is made up of three components: 1) 16-channel EEG amplifier with transcranial electrical stimulation (TES) capabilities, 2) a 16-channel EEG headband and 3) a small portable computer.

All participants will be provided a Sleep WISP device. Participation in the study requires that participants use the Sleep WISP when they sleep. As participants sleep, their sleep EEG will be measured and automatically scored by the computer to determine stage of sleep. When SWS is detected, low-level current (.5-1 mA total) will be applied through pre-set electrodes (four on the forehead and four at base of back of head). These electrodes were used in our pilot study, showing that current applied through these electrodes during SWS is able to increase total SWS sleep duration.

The study involves up to three nights of sleep. All sleep session will be at home. The first session is a baseline/acclimation session. In the first session, participants will use the Sleep WISP device to passively record sleep EEG (no TES) as baseline. The second session is performed the night following the baseline session with randomized experiment condition (either placebo or active TES session). Participants will be blinded for what condition they receive. The final session will occur one week after the second session to receive the opposite experiment condition to the second session.

In our previous TES study of SWS enhancement in the BEL lab, the investigators were able to show that SWS can be enhanced immediately (short-term/acute) after TES. The proposed new study will extend the previous pilot in-lab study results by using Sleep WISP device at home, which will allow us to support home EEG sleep monitoring and acute sleep therapy.

Aim 1: The study aims to replicate our previous in-lab study (acute/short-term enhancement of SWS) with Sleep WISP device at home for deep sleep enhance.

Aim 2: The study aims to investigate any change on sleep quality associated with TES sleep therapy delivered by Sleep WISP device.