Our new paper about developmental dysfunctions in the PFC-HP network is out!
We compare the development of the prefrontal-hippocampal network across 6 different mouse models of mental illness.
Our new paper on the neural correlates of anesthesia in newborn mice and humans is out
In it, we identify ephys features that in both mice and humans closely track proxies of anesthesia depth:
Check out our newest preprint!
Chronic boosting of early oscillatory activity in neonatal prefrontal cortex leads to premature dendritic growth, as well as impaired gamma activity.
Revealing The Role Of Olfaction In Developing Brain Networks
New article in Science Trends about our recent publication about the developing olfactory bulb
Prof. Dr. Ileana Hanganu-Opatz is part of the board of directors of the international brain bee
We are happy to announce that Prof. Dr. Ileana Hanganu-Opatz was elected as member of the board of directors of the international brain bee. Brain Bee
Joachim Ahlbeck won the @SFB_936 PhD paper of the year award!
Congrats to our former PhD student Joachim Ahlbeck, that won the @SFB_936 PhD paper of the year 2018 award
New paper out in PLOS Biology: Intrinsic & odor-induced olfactory bulb activity controls entorhinal cortex activity during development.
In contrast to other sensory systems, the olfactory system is already fully mature at birth, controlling mother-offspring interactions and neonatal survival.
Transient knock-down of prefrontal DISC1 in immune-challenged mice causes abnormal long-range coupling and cognitive dysfunction throughout development
Perturbation of developmental processes of prefrontal layer II/III pyramidal neurons is sufficient to diminish prefrontal-hippocampal coupling and impairs cognitive performance throughout development.
PhD price for Dr. Sebastian Bitzenhofer
We a very proud of our college Sebastian Bitzenhofer who got awarded with the PhD price from the Freundes- und Förderkreis des UKE e.V.. Congratulations Sebastian! [link]
Tapered fibers combined with a multi-electrode array for optogenetics
Optogenetic approaches offer huge advantages in spatial, temporal and cell-type specific control of neuronal activity