2017-11-13 9:00
2017-11-13 10:00
America/Toronto
From Epigenetics to Neurogenesis: How the Brain Reacts to Stress
Join us for "From Epigenetics to Neurogenesis: How the Brain Reacts to Stress" webcast
http://www.softconference.com/WebcastSystem/webcast.aspx?WebcastID=67&sessionID=408078
Session Description:
Stress is pervasive in our lives — from the little day-to-day stressors we all face to the traumatic events that some children, soldiers, and others experience. New results will show the epigenetic changes caused by paternal stress and childhood trauma, as well as potential paths for mitigating the damage that stress causes to our brains, including through our immune system and neurogenesis.
Live Stream Webcast
Moderator:
Bruce McEwen, Rockefeller University, New York
Presenters:
Jennifer Chan, University of Pennsylvania, Philadelphia
Brianna S. Mulligan, University of New Mexico Health Sciences Center, Albuquerque, N.M.
Meghan E. Jones, University of North Carolina at Chapel Hill, Chapel Hill, N.C.
Christoph Anacker, Columbia University, New York
Samuel Bowers, Northwestern University, Evanston, Ill.
multiviewMediaSupport@multiview.com
From Epigenetics to Neurogenesis: How the Brain Reacts to Stress
November 13, 2017
9:00AM - 10:00AM EST
Moderator:
Bruce McEwen, Rockefeller University, New York
Presenters:
Jennifer Chan, University of Pennsylvania, Philadelphia
Brianna S. Mulligan, University of New Mexico Health Sciences Center, Albuquerque, N.M.
Meghan E. Jones, University of North Carolina at Chapel Hill, Chapel Hill, N.C.
Christoph Anacker, Columbia University, New York
Samuel Bowers, Northwestern University, Evanston, Ill.
Session Description
Stress is pervasive in our lives — from the little day-to-day stressors we all face to the traumatic events that some children, soldiers, and others experience. New results will show the epigenetic changes caused by paternal stress and childhood trauma, as well as potential paths for mitigating the damage that stress causes to our brains, including through our immune system and neurogenesis.