Automatic deviance detection has been widely explored in terms of mismatch responses (mismatch negativity or mismatch response) and P3a components of event-related potentials (ERPs) under a predictive coding framework; however, the somatosensory mismatch response has been investigated less often regarding the different types of changes than its auditory counterpart. It is not known whether the deviance detection responses from different modalities correlate, reflecting a general prediction error mechanism of the central nervous system. Furthermore, interoceptive functions have been associated with predictive coding theory, but whether interoceptive accuracy correlates with deviance detection brain responses has rarely been investigated. Her...
The capacity of the human brain to detect deviance in the acoustic environment pre-attentively is re...
Humans can detect various anomalies in a sound sequence without attending to each dimension explicit...
In this study we compared the amplitude, latency, and spatial distribution of the mismatch negativit...
Predictive coding theories posit that neural networks learn statistical regularities in the environm...
The human brain is highly responsive to (deviant) sounds violating an auditory regularity. Respectiv...
© 2014, Springer-Verlag Berlin Heidelberg. Research on brain mechanisms of deviance detection and se...
[EN] A remarkable ability of animals that is critical for survival is to detect and respond to to un...
Effects of attention to, and probability of sudden changes in, repetitive stimuli on somatosensory e...
Previous electrophysiological and neuroimaging studies suggest that the mismatch negativity (MMN) is...
In humans, automatic change detection is reflected by an electrical brain response called mismatch n...
The detection of deviant sounds is a crucial function of the auditory system and is reflected by the...
The detection of deviant sounds is a crucial function of the auditory system and is reflected by the...
Background: The auditory mismatch negativity (aMMN) is an event-related potential (ERP) elicited by ...
The neural mechanisms of deviancy and target detection were investigated by combining high density e...
Prompt detection of unexpected changes in the sensory environment is critical for survival. In the a...
The capacity of the human brain to detect deviance in the acoustic environment pre-attentively is re...
Humans can detect various anomalies in a sound sequence without attending to each dimension explicit...
In this study we compared the amplitude, latency, and spatial distribution of the mismatch negativit...
Predictive coding theories posit that neural networks learn statistical regularities in the environm...
The human brain is highly responsive to (deviant) sounds violating an auditory regularity. Respectiv...
© 2014, Springer-Verlag Berlin Heidelberg. Research on brain mechanisms of deviance detection and se...
[EN] A remarkable ability of animals that is critical for survival is to detect and respond to to un...
Effects of attention to, and probability of sudden changes in, repetitive stimuli on somatosensory e...
Previous electrophysiological and neuroimaging studies suggest that the mismatch negativity (MMN) is...
In humans, automatic change detection is reflected by an electrical brain response called mismatch n...
The detection of deviant sounds is a crucial function of the auditory system and is reflected by the...
The detection of deviant sounds is a crucial function of the auditory system and is reflected by the...
Background: The auditory mismatch negativity (aMMN) is an event-related potential (ERP) elicited by ...
The neural mechanisms of deviancy and target detection were investigated by combining high density e...
Prompt detection of unexpected changes in the sensory environment is critical for survival. In the a...
The capacity of the human brain to detect deviance in the acoustic environment pre-attentively is re...
Humans can detect various anomalies in a sound sequence without attending to each dimension explicit...
In this study we compared the amplitude, latency, and spatial distribution of the mismatch negativit...