Stimulus-specific adaptation refers to a neural response reduction to a repeated stimulus that does not generalize to other stimuli. However, stimulus-specific adaptation appears to be influenced by additional factors. For example, the statistical distribution of tone frequencies has recently been shown to dynamically alter stimulus-specific adaptation in human auditory cortex. The present study investigated whether statistical stimulus distributions also affect stimulus-specific adaptation at an earlier stage of the auditory hierarchy. Neural spiking activity and local field potentials were recorded from inferior colliculus neurons of rats while tones were presented in oddball sequences that formed two different statistical contexts. Each ...
It is well established that, following adaptation, cells adjust their sensitivity to reflect the glo...
Stimulus-specific adaptation (SSA) is the ability of some neurons to respond better to rare than to ...
Recent reports have shown that responses of midbrain neurons in the guinea pig rapidly shift the dyn...
Stimulus-specific adaptation refers to a neural response reduction to a repeated stimulus that does ...
Stimulus-specific adaptation is the phenomenon whereby neural response magnitude decreases with repe...
In order to structure the sensory environment our brain needs to detect changes in the surrounding t...
In order to structure the sensory environment our brain needs to detect changes in the surrounding t...
Neurons in primary auditory cortex (A1) are known to exhibit a phenomenon known as stimulus-specific...
Repeated stimulus causes a specific suppression of neuronal responses, which is so-called as Stimulu...
Classically, neural adaptation refers to a reduction in response magnitude by sustained stimulation....
In auditory cortex, activation and subsequent adaptation is strongest for regions responding best to...
Evoked local field potentials in response to contralaterally presented tone bursts were recorded fro...
Adaptation is computational strategy that underlies sensory nervous systems’ ability to accurately e...
Adaptation is computational strategy that underlies sensory nervous systems’ ability to accurately e...
SummaryNeurons in auditory cortex are sensitive to the probability of stimuli: responses to rare sti...
It is well established that, following adaptation, cells adjust their sensitivity to reflect the glo...
Stimulus-specific adaptation (SSA) is the ability of some neurons to respond better to rare than to ...
Recent reports have shown that responses of midbrain neurons in the guinea pig rapidly shift the dyn...
Stimulus-specific adaptation refers to a neural response reduction to a repeated stimulus that does ...
Stimulus-specific adaptation is the phenomenon whereby neural response magnitude decreases with repe...
In order to structure the sensory environment our brain needs to detect changes in the surrounding t...
In order to structure the sensory environment our brain needs to detect changes in the surrounding t...
Neurons in primary auditory cortex (A1) are known to exhibit a phenomenon known as stimulus-specific...
Repeated stimulus causes a specific suppression of neuronal responses, which is so-called as Stimulu...
Classically, neural adaptation refers to a reduction in response magnitude by sustained stimulation....
In auditory cortex, activation and subsequent adaptation is strongest for regions responding best to...
Evoked local field potentials in response to contralaterally presented tone bursts were recorded fro...
Adaptation is computational strategy that underlies sensory nervous systems’ ability to accurately e...
Adaptation is computational strategy that underlies sensory nervous systems’ ability to accurately e...
SummaryNeurons in auditory cortex are sensitive to the probability of stimuli: responses to rare sti...
It is well established that, following adaptation, cells adjust their sensitivity to reflect the glo...
Stimulus-specific adaptation (SSA) is the ability of some neurons to respond better to rare than to ...
Recent reports have shown that responses of midbrain neurons in the guinea pig rapidly shift the dyn...