Psychedelic Neuroscience Demystified: How Psychedelics Alter Consciousness and Produce Therapeutic Effects is a comprehensive course presented by Psychedelics Today and live-taught by experts in the field, Melanie Pincus, Ph.D., and Manesh Girn, Ph.D. The course is designed to provide participants with a solid understanding of the neuroscientific principles behind psychedelic therapies, equipping them with the knowledge needed to guide clients through their experiences better. Clinicians, therapists, and other professionals in the psychedelic space will benefit from this in-depth exploration of brain structure and function, the therapeutic mechanisms of psychedelics, and the science of set and setting.
Enrollment in the course grants participants access to over 10 hours of course material, 12 hours of face-to-face time with instructors via Zoom, live chats with expert guest presenters, and lifetime access to the course material. Throughout the program, participants will delve into topics such as the neural mechanisms underlying the psychedelic experience, the role of neuroplasticity in therapy, and the differences between psychedelics and standard pharmacological treatments.
The course is held every six months and is designed for a range of professionals, including healthcare workers, mental health workers, wellness practitioners, and students in related fields. However, it should be noted that this course does not qualify participants as psychedelic therapists.
Find More Info on Psychedelic Neuroscience Demystified on PsychedelicsCourses.com
Related Company
Psychedelics Today
Psychedelics Today is an educational website that offers courses on psychedelics and their therapeutic applications. Psychedelics Today is also known for its long-running podcast (nearing 400 episodes), which has featured guests like Matthew Johnson, James Fadiman, and David Nutt.
Related People
Manesh Girn
Manesh Girn is a Neuroscience Ph.D. Candidate at McGill University and the Chief Research Officer at EntheoTech. His research involves applying multivariate and network-based analyses to functional neuroimaging data in order to examine relationships between the brain and cognition. My doctoral research is aimed at (i) characterizing the default mode network's role in cognition, and (ii) characterizing the brain mechanisms underlying serotonergic psychedelic drugs. He also creates videos on the latest topics in psychedelic science and under the alias 'The Psychedelic Scientist'.