no code implementations • 22 Apr 2024 • M. S. Zobaer, N. Lotfi, C. M. Domenico, C. Hoffman, L. Perotti, D. Ji, Y. Dabaghian
Recently discovered constituents of the brain waves -- the oscillons -- provide high-resolution representation of the extracellular field dynamics.
no code implementations • 23 Mar 2024 • C. Hoffman, J. Cheng, R. Morales, D. Ji, Y. Dabaghian
Alzheimer's disease (AD) is a complex neurodegenerative condition that manifests at multiple levels and involves a spectrum of abnormalities ranging from the cellular to cognitive.
no code implementations • 7 May 2023 • Y. Dabaghian
We propose a mechanism enabling the appearance of border cells -- neurons firing at the boundaries of the navigated enclosures.
no code implementations • 6 May 2022 • Clarissa Hoffman, Jingheng Cheng, Daoyun Ji, Y. Dabaghian
Our current understanding of brain rhythms is based on quantifying their instantaneous or time-averaged characteristics.
no code implementations • 7 Aug 2021 • Y. Dabaghian
In the mammalian brain, many neuronal ensembles are involved in representing spatial structure of the environment.
no code implementations • 7 Aug 2021 • D. Akhtiamov, A. G. Cohn, Y. Dabaghian
A common approach to interpreting spiking activity is based on identifying the firing fields---regions in physical or configuration spaces that elicit responses of neurons.