Any occasional changes in the acoustic environment are of potential importance for survival. In humans, the preattentive detection of such changes generates the mismatch negativity (MMN) component of event-related brain potentials. MMN is elicited to rare changes ('deviants') in a series of otherwise regularly repeating stimuli ('standards'). Deviant stimuli are detected on the basis of a neural comparison process between the input from the current stimulus and the sensory memory trace of the standard stimuli. It is, however, unclear to what extent animals show a similar comparison process in response to auditory changes. To resolve this issue, epidural potentials were recorded above the primary auditory cortex of urethane-anesthetized rats...
Understanding speech is based on neural representations of individual speech sounds. In humans, suc...
In humans, automatic change detection is reflected by an electrical brain response called mismatch n...
The human brain can automatically detect auditory changes, as indexed by the mismatch negativity of ...
Any occasional changes in the acoustic environment are of potential importance for survival. In huma...
Detecting sudden environmental changes is crucial for the survival of humans and animals. In the hum...
Detecting sudden environmental changes is crucial for the survival of humans and animals. In the hum...
Detecting sudden environmental changes is crucial for the survival of humans and animals. In the hum...
Detecting sudden environmental changes is crucial for the survival of humans and animals. In the hum...
The capacity of the human brain to detect deviance in the acoustic environment pre-attentively is re...
Any change in the invariant aspects of the auditory environment is of potential importance. The huma...
Any change in the invariant aspects of the auditory environment is of potential importance. The huma...
Any change in the invariant aspects of the auditory environment is of potential importance. The huma...
International audienceEvoked potentials were recorded from the auditory cortex of both freely moving...
<div><p>Mismatch negativity (MMN) is a scalp-recorded electrical potential that occurs in humans in ...
Evoked potentials were recorded from the auditory cortex of both freely moving and anesthetized rats...
Understanding speech is based on neural representations of individual speech sounds. In humans, suc...
In humans, automatic change detection is reflected by an electrical brain response called mismatch n...
The human brain can automatically detect auditory changes, as indexed by the mismatch negativity of ...
Any occasional changes in the acoustic environment are of potential importance for survival. In huma...
Detecting sudden environmental changes is crucial for the survival of humans and animals. In the hum...
Detecting sudden environmental changes is crucial for the survival of humans and animals. In the hum...
Detecting sudden environmental changes is crucial for the survival of humans and animals. In the hum...
Detecting sudden environmental changes is crucial for the survival of humans and animals. In the hum...
The capacity of the human brain to detect deviance in the acoustic environment pre-attentively is re...
Any change in the invariant aspects of the auditory environment is of potential importance. The huma...
Any change in the invariant aspects of the auditory environment is of potential importance. The huma...
Any change in the invariant aspects of the auditory environment is of potential importance. The huma...
International audienceEvoked potentials were recorded from the auditory cortex of both freely moving...
<div><p>Mismatch negativity (MMN) is a scalp-recorded electrical potential that occurs in humans in ...
Evoked potentials were recorded from the auditory cortex of both freely moving and anesthetized rats...
Understanding speech is based on neural representations of individual speech sounds. In humans, suc...
In humans, automatic change detection is reflected by an electrical brain response called mismatch n...
The human brain can automatically detect auditory changes, as indexed by the mismatch negativity of ...