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Emma R. Huels

University of Michigan–Ann Arbor

4 papers in the library · 56 citations · publishing 2021-2025

Papers

Neural Correlates of the Shamanic State of Consciousness

Frontiers in Human Neuroscience March 18, 2021 Emma R. Huels, Hyoungkyu Kim, UnCheol Lee et al. 51 citations

Shamanic practitioners in trance show brain changes that overlap with but are distinct from those caused by psychedelic drugs. In 24 practitioners and 24 controls, EEG recordings during shamanic drumming revealed increased gamma power linked to visual changes, decreased low alpha and increased low beta connectivity, reduced gamma-band signal diversity tied to insightfulness, and increased criticality in beta and gamma bands correlating with complex imagery. Practitioners' altered-state scores matched or exceeded those of people on psychedelics. The findings indicate that shamanic trance and psychedelic states share some phenomenal features but produce unique neural signatures.

Psychedelic-mediated Reversal of General Anesthesia and Restoration of Brain Dynamics in Rat

bioRxiv Preprint Server January 22, 2025 Emma R. Huels, Nicholas Kolbman, Christopher W. Fields et al. 4 citations preprint

A serotonergic psychedelic, DOI, can reverse general anesthesia and restore wakefulness in rats, even while anesthetics like propofol or isoflurane continue to be delivered. Behavioral arousal was accompanied by recovery of high gamma functional connectivity and restoration of brain network structure. These effects were blocked by a 5-HT2A antagonist, volinanserin, and a non-psychedelic 5-HT2A agonist, lisuride, failed to produce similar results. This provides the first evidence of psychedelic-mediated reversal of general anesthesia and concurrent restoration of brain dynamics associated with normal wakefulness.

Intravenous Administration of Serotonergic Psychedelics Produce Short-lasting Changes in Sleep-Wake Behavior and High Gamma Functional Connectivity in Rats

bioRxiv (Cold Spring Harbor Laboratory) October 14, 2025 Nicholas Kolbman, Amanda Nelson, Rachel Summerfield et al. 1 citation preprint

Psilocybin and DMT, two serotonergic psychedelics, delay the onset of slow-wave sleep and REM sleep, and cause a short-lasting increase in wakefulness and decrease in slow-wave sleep in rats. Psilocybin also reduces REM sleep, decreases theta power and coherence, and increases high gamma power and coherence during wake and slow-wave sleep, as well as increasing high gamma coherence during REM sleep. DMT increases gamma coherence only during wakefulness. The enhanced high gamma functional connectivity suggests that psychedelic-induced changes in neural dynamics can occur independently of arousal states.

Neurochemical and Neurophysiological Effects of Intravenous Administration of N,N -Dimethyltryptamine in Rats

Journal of Neuroscience December 19, 2025 Nicolas G. Glynos, Emma R. Huels, Trent Groenhout et al.

In rats, intravenous DMT causes dose-dependent increases in serotonin and dopamine in the medial prefrontal and somatosensory cortices, along with distinct changes in brain wave patterns: reduced theta and low gamma power, increased delta, medium gamma, and high gamma power, and altered functional connectivity. Head twitch responses were most frequent at the lowest dose. Endogenous DMT was detected in the cortex of most animals at baseline, suggesting it may be naturally present. The work provides a detailed neurochemical and neurophysiological profile of DMT action in rats.