<p>A and B, Characteristic neuronal spikes in response to extracellular stimulation at varying frequencies for a typical (A) and extreme (B) neuron in the oddball paradigm. Note that the sequence of stimulation was reversed in the right panel. Insets show responses expanded in time scale. C, Scatter plot showing SI(S1) against SI(S2) for varying stimulation frequencies (n = 17, 13, 16, and 15 for 10, 20, 50 and 100 Hz, respectively). The diagonal line represents the non-specific bounds, with data points above the line considered as evidence of SSA. D, Individual and average NIs.</p
Stimulus-Specific Adaptation (SSA) to repetitive stimulation is a phenomenon that has been observed ...
Stimulus-specific adaptation (SSA) is the ability of some neurons to respond better to rare than to ...
<p>Bottom panel: input spike frequency that slowly increases ten-fold. Top three panels: output spik...
<p>A and B, Characteristic neuronal EPSCs (A) and IPSCs (B) in response to extracellular electrical ...
<div><p>(A) The top trace illustrates a natural spike train, with each vertical line indicating an a...
<p>A, Characteristic neuronal response to intracellular current injection at varying frequencies. Te...
Stimulus-specific adaptation (SSA) is observed in many brain regions in humans and animals. SSA of c...
<p>A, Synapse-driven spikes were elicited with a similar latency as EPSPs. B, Representative traces ...
<p>A and B, Characteristic neuronal EPSCs in response to extracellular electrical stimulation at var...
Stimulus-specific adaptation (SSA) occurs when the spike rate of a neuron decreases with repetitions...
<p>Firing pattern of the CN neuron in response to same synaptic input sequence with low (A), medium ...
<p>Response of two neurons to pure-tone stimuli of two frequencies (f1 and f2), selected from within...
(A) Frequency response analysis of the interneuron network with recurrent connections among both SOM...
<p>A. The population isointensity curve of 167 neurons that their firing rates were normalized and t...
Stimulus-specific adaptation (SSA) is observed in many brain regions in humans and animals. SSA of c...
Stimulus-Specific Adaptation (SSA) to repetitive stimulation is a phenomenon that has been observed ...
Stimulus-specific adaptation (SSA) is the ability of some neurons to respond better to rare than to ...
<p>Bottom panel: input spike frequency that slowly increases ten-fold. Top three panels: output spik...
<p>A and B, Characteristic neuronal EPSCs (A) and IPSCs (B) in response to extracellular electrical ...
<div><p>(A) The top trace illustrates a natural spike train, with each vertical line indicating an a...
<p>A, Characteristic neuronal response to intracellular current injection at varying frequencies. Te...
Stimulus-specific adaptation (SSA) is observed in many brain regions in humans and animals. SSA of c...
<p>A, Synapse-driven spikes were elicited with a similar latency as EPSPs. B, Representative traces ...
<p>A and B, Characteristic neuronal EPSCs in response to extracellular electrical stimulation at var...
Stimulus-specific adaptation (SSA) occurs when the spike rate of a neuron decreases with repetitions...
<p>Firing pattern of the CN neuron in response to same synaptic input sequence with low (A), medium ...
<p>Response of two neurons to pure-tone stimuli of two frequencies (f1 and f2), selected from within...
(A) Frequency response analysis of the interneuron network with recurrent connections among both SOM...
<p>A. The population isointensity curve of 167 neurons that their firing rates were normalized and t...
Stimulus-specific adaptation (SSA) is observed in many brain regions in humans and animals. SSA of c...
Stimulus-Specific Adaptation (SSA) to repetitive stimulation is a phenomenon that has been observed ...
Stimulus-specific adaptation (SSA) is the ability of some neurons to respond better to rare than to ...
<p>Bottom panel: input spike frequency that slowly increases ten-fold. Top three panels: output spik...