Repetitive stimulation of human peripheral nerves in situ produces an amplitude oscillation of the evoked action potentials. The purpose of this experiment was to describe the dynamics of the response as a function of the characteristics of the electrical stimuli. Two attempts to define precisely the origin of the response have proved ineffective.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/47431/1/422_2004_Article_BF00291087.pd
Rhythmic brain activity plays an important role in neural processing and behavior. Features of these...
The ubiquitous brain oscillations occur in bursts of oscillatory activity. The present report tries ...
Measurements of the peripheral sensory adaptation response were compared to a simple mathematical re...
Responses to repetitive stimulation are found to decrease in frequency and amplitude over time. Simi...
The relationship between stimulus intensity and the probability of detecting the presence of the sti...
The dynamics of an ensemble of particles driven out of a potential well, with replacement, by the Po...
The pattern of nerve action potentials produced by unit permeability changes (quantal inputs) occurr...
Egelhaaf M, Benjamin PR. Inhibition by recurrent excitation: a mechanism for spike synchronization i...
The ability to process and respond to external input is critical for adaptive behavior. Why, then, d...
<p>The graphs (A-D) show the <i>β</i>-Power, root mean square value of the activity and power spectr...
Relations describing threshold fluctuation phenomena in nerves are derived by calculating the approx...
Neural communication generates oscillations of electric potential in the extracellular medium. In fe...
Contains reports on one research project.Bell Telephone Laboratories IncorporatedNational Institutes...
Contains fulltext : 204206.pdf (publisher's version ) (Open Access)Spontaneous flu...
While correlated activity is observed ubiquitously in the brain, its role in neural coding has remai...
Rhythmic brain activity plays an important role in neural processing and behavior. Features of these...
The ubiquitous brain oscillations occur in bursts of oscillatory activity. The present report tries ...
Measurements of the peripheral sensory adaptation response were compared to a simple mathematical re...
Responses to repetitive stimulation are found to decrease in frequency and amplitude over time. Simi...
The relationship between stimulus intensity and the probability of detecting the presence of the sti...
The dynamics of an ensemble of particles driven out of a potential well, with replacement, by the Po...
The pattern of nerve action potentials produced by unit permeability changes (quantal inputs) occurr...
Egelhaaf M, Benjamin PR. Inhibition by recurrent excitation: a mechanism for spike synchronization i...
The ability to process and respond to external input is critical for adaptive behavior. Why, then, d...
<p>The graphs (A-D) show the <i>β</i>-Power, root mean square value of the activity and power spectr...
Relations describing threshold fluctuation phenomena in nerves are derived by calculating the approx...
Neural communication generates oscillations of electric potential in the extracellular medium. In fe...
Contains reports on one research project.Bell Telephone Laboratories IncorporatedNational Institutes...
Contains fulltext : 204206.pdf (publisher's version ) (Open Access)Spontaneous flu...
While correlated activity is observed ubiquitously in the brain, its role in neural coding has remai...
Rhythmic brain activity plays an important role in neural processing and behavior. Features of these...
The ubiquitous brain oscillations occur in bursts of oscillatory activity. The present report tries ...
Measurements of the peripheral sensory adaptation response were compared to a simple mathematical re...