Role of interneuronal type in toggling between gamma rhythms and suppression of pyramidal cells.

Walker, Bryan L.
2013

Gamma (30-80 Hz) rhythms in hippocampus and neocortex resulting from the interaction of excitatory and inhibitory cells (E- and I-cells), called Pyramidal-Interneuronal Network Gamma (PING), require that the I-cells respond to the E-cells, but do not fire on their own. In idealized models, there is a sharp boundary between a parameter regime where the I-cells have weak enough drive for PING, and o... read more

This object is in collection:
Undergraduate Honors Theses
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Tufts University. Department of Mathematics.
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http://hdl.handle.net/10427/78107
ID: tufts:UA005.032.012.00001
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