Electrophysiological evidence for change detection in speech sound patterns by anesthetized rats
Astikainen, P., Mällo, T., Ruusuvirta, T., & Näätänen, R. (2014). Electrophysiological evidence for change detection in speech sound patterns by anesthetized rats. Frontiers in Neuroscience, 8(November), Article 374. https://doi.org/10.3389/fnins.2014.00374
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Frontiers in NeuroscienceDate
2014Copyright
© 2014 Author.
Human infants are able to detect changes in grammatical rules in a speech sound stream.
Here, we tested whether rats have a comparable ability by using an electrophysiological
measure that has been shown to reflect higher order auditory cognition even before
it becomes manifested in behavioral level. Urethane-anesthetized rats were presented
with a stream of sequences consisting of three pseudowords carried out at a fast pace.
Frequently presented “standard” sequences had 16 variants which all had the same
structure. They were occasionally replaced by acoustically novel “deviant” sequences
of two different types: structurally consistent and inconsistent sequences. Two stimulus
conditions were presented for separate animal groups. In one stimulus condition, the
standard and the pattern-obeying deviant sequences had an AAB structure, while the
pattern-violating deviant sequences had an ABB structure. In the other stimulus condition,
these assignments were reversed. During the stimulus presentation, local-field potentials
were recorded from the dura, above the auditory cortex. Two temporally separate
differential brain responses to the deviant sequences reflected the detection of the
deviant speech sound sequences. The first response was elicited by both types of deviant
sequences and reflected most probably their acoustical novelty. The second response was
elicited specifically by the structurally inconsistent deviant sequences (pattern-violating
deviant sequences), suggesting that rats were able to detect changes in the pattern of
three-syllabic speech sound sequence (i.e., location of the reduplication of an element in
the sequence). Since all the deviant sound sequences were constructed of novel items,
our findings indicate that, similarly to the human brain, the rat brain has the ability to
automatically generalize extracted structural information to new items.
...
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