Pyramidal cells in the hippocampus are part of a small neuronal network that performs computations on external input. The network consists of principal cells and various forms of feedback inhibition. Experimental evidence indicates at least two functionally distinct inhibitory feedback loops in the CA3 area of the hippocampus: (1) a loop in which O-LM interneurons project to the distal dendrites of pyramidal cells with synapses that have slow kinetics, and (2) a loop in which basket interneurons project to the somata of pyramidal cells with synapses that have fast kinetics. There is an interconnection between the two loops in the form of O-LM to basket interneuron inhibition and the configuration is further complicated by the presence of di...
SummarySpatial and temporal features of synaptic inputs engage integration mechanisms on multiple sc...
Abstract The connections between excitatory and inhibitory synapses are significant for generation o...
SummaryThe dynamic interactions between synaptic excitation and inhibition (E/I) shape membrane pote...
Pyramidal cells perform computations on their inputs within the context of the local network. The pr...
Feedforward and feedback inhibition are two fundamental modes of operation widespread in the nervous...
AbstractNew work suggests that feedback inhibition of neurons in the hippocampus is mediated by two ...
Inhibitory interneurons of the hippocampus are a diverse population that play vital roles in regulat...
Different hippocampal activity patterns are determined primarily by the interaction of excitatory ce...
We are surrounded by a world, which makes sense, only because we make sense of it. At every instant ...
The hippocampus, an area of the brain responsible for memory formation, has a large diversity of dif...
The central nervous system is a crystalline-like structure which is constructed through the repeated...
Networks of synchronized fast-spiking interneurons are thought to be key elements in the generation ...
In a minimal network model consisting of two pyramidal cells and one interneuron, we show how excita...
Coordinated spiking of neuronal populations underlies the perception of sensory stimuli, the plannin...
Microcircuits of inhibitory and excitatory neurons in the hippocampus have been studied over the pas...
SummarySpatial and temporal features of synaptic inputs engage integration mechanisms on multiple sc...
Abstract The connections between excitatory and inhibitory synapses are significant for generation o...
SummaryThe dynamic interactions between synaptic excitation and inhibition (E/I) shape membrane pote...
Pyramidal cells perform computations on their inputs within the context of the local network. The pr...
Feedforward and feedback inhibition are two fundamental modes of operation widespread in the nervous...
AbstractNew work suggests that feedback inhibition of neurons in the hippocampus is mediated by two ...
Inhibitory interneurons of the hippocampus are a diverse population that play vital roles in regulat...
Different hippocampal activity patterns are determined primarily by the interaction of excitatory ce...
We are surrounded by a world, which makes sense, only because we make sense of it. At every instant ...
The hippocampus, an area of the brain responsible for memory formation, has a large diversity of dif...
The central nervous system is a crystalline-like structure which is constructed through the repeated...
Networks of synchronized fast-spiking interneurons are thought to be key elements in the generation ...
In a minimal network model consisting of two pyramidal cells and one interneuron, we show how excita...
Coordinated spiking of neuronal populations underlies the perception of sensory stimuli, the plannin...
Microcircuits of inhibitory and excitatory neurons in the hippocampus have been studied over the pas...
SummarySpatial and temporal features of synaptic inputs engage integration mechanisms on multiple sc...
Abstract The connections between excitatory and inhibitory synapses are significant for generation o...
SummaryThe dynamic interactions between synaptic excitation and inhibition (E/I) shape membrane pote...