Recent reports have shown that responses of midbrain neurons in the guinea pig rapidly shift the dynamic range of their responses to track changes in the statistics of ongoing sound-level distributions. This results in an increased coding accuracy for the most commonly occurring stimulus intensities. To investigate whether this type of adaptation might also be found in other sensory modalities, we characterized the intensity-response functions of neurons in rat primary somatosensory cortex (S1) to continuous sinusoidal vibration of the whiskers with amplitudes that were changed every 40 ms. Vibration amplitudes were selected randomly such that there was an 80% chance for the amplitude to be drawn from a relatively narrow 'high-probability r...
It is well established that, following adaptation, cells adjust their sensitivity to reflect the glo...
Neocortical responses typically adapt to repeated sensory stimulation, improving sensitivity to stim...
In order to structure the sensory environment our brain needs to detect changes in the surrounding t...
Neuronal responses to ongoing stimulation in many systems change over time, or "adapt." Despite the ...
Neuronal responses to ongoing stimulation in many systems change over time, or "adapt." Despite the ...
Neuronal adaptation is a common feature observed at various stages of sensory processing. Here, we q...
Adaptation is computational strategy that underlies sensory nervous systems’ ability to accurately e...
Stimulus-specific adaptation refers to a neural response reduction to a repeated stimulus that does ...
In the natural environment, organisms are constantly exposed to a continuous stream of sensory input...
Adaptation is computational strategy that underlies sensory nervous systems’ ability to accurately e...
Neurons in primary auditory cortex (A1) are known to exhibit a phenomenon known as stimulus-specific...
Neurons in all sensory systems have a remarkable ability to adapt their sensitivity to the statistic...
It is widely accepted that through a process of adaptation cells adjust their sensitivity in accorda...
Neural adaptation is central to sensation. Neurons in auditory midbrain, for example, rapidly adapt ...
Exposure of cortical cells to sustained sensory stimuli results in changes in the neuronal response ...
It is well established that, following adaptation, cells adjust their sensitivity to reflect the glo...
Neocortical responses typically adapt to repeated sensory stimulation, improving sensitivity to stim...
In order to structure the sensory environment our brain needs to detect changes in the surrounding t...
Neuronal responses to ongoing stimulation in many systems change over time, or "adapt." Despite the ...
Neuronal responses to ongoing stimulation in many systems change over time, or "adapt." Despite the ...
Neuronal adaptation is a common feature observed at various stages of sensory processing. Here, we q...
Adaptation is computational strategy that underlies sensory nervous systems’ ability to accurately e...
Stimulus-specific adaptation refers to a neural response reduction to a repeated stimulus that does ...
In the natural environment, organisms are constantly exposed to a continuous stream of sensory input...
Adaptation is computational strategy that underlies sensory nervous systems’ ability to accurately e...
Neurons in primary auditory cortex (A1) are known to exhibit a phenomenon known as stimulus-specific...
Neurons in all sensory systems have a remarkable ability to adapt their sensitivity to the statistic...
It is widely accepted that through a process of adaptation cells adjust their sensitivity in accorda...
Neural adaptation is central to sensation. Neurons in auditory midbrain, for example, rapidly adapt ...
Exposure of cortical cells to sustained sensory stimuli results in changes in the neuronal response ...
It is well established that, following adaptation, cells adjust their sensitivity to reflect the glo...
Neocortical responses typically adapt to repeated sensory stimulation, improving sensitivity to stim...
In order to structure the sensory environment our brain needs to detect changes in the surrounding t...