OBJECTIVE: The precision of sound frequency discrimination in newborn infants in the 250-4000-Hz frequency range was determined using the neonatal electrophysiological mismatch response (MMR), the infant equivalent of adult mismatch negativity (MMN). METHODS: The electroencephalogram (EEG) was recorded in 11 full-term sleeping newborn infants mostly in active sleep (67% of the time). Pure tones were presented through loudspeakers in an oddball paradigm with a 800-ms stimulus onset asynchrony (SOA). Each stimulus block contained a standard (p=0.76) of 250, 1000, or 4000Hz in frequency (in separate blocks) and deviants with a frequency change of either 5% or 20% of the standard (p=0.12 of each). RESULTS: A positive ERP deflection was found at 200-300ms from stimulus onset in response to the 20% deviation from the 250, 1000, and 4000Hz standard frequencies. The amplitude of the response in the 200-300ms time window was significantly larger for the 20% than 5% deviation. CONCLUSIONS: We observed in newborn infants automatic frequency discrimination as reflected by a positive MMR. The newborns were able to discriminate frequency change of 20% in the 250-4000-Hz frequency range, whereas the discrimination of the 5% frequency change was not statistically confirmed. SIGNIFICANCE: The present data hence suggest that the neonatal frequency discrimination has lower resolution than that in adult and older children data.
OBJECTIVE: The precision of sound frequency discrimination in newborn infants in the 250-4000-Hz frequency range was determined using the neonatal electrophysiological mismatch response (MMR), the infant equivalent of adult mismatch negativity (MMN). METHODS: The electroencephalogram (EEG) was recorded in 11 full-term sleeping newborn infants mostly in active sleep (67% of the time). Pure tones were presented through loudspeakers in an oddball paradigm with a 800-ms stimulus onset asynchrony (SOA). Each stimulus block contained a standard (p=0.76) of 250, 1000, or 4000Hz in frequency (in separate blocks) and deviants with a frequency change of either 5% or 20% of the standard (p=0.12 of each). RESULTS: A positive ERP deflection was found at 200-300ms from stimulus onset in response to the 20% deviation from the 250, 1000, and 4000Hz standard frequencies. The amplitude of the response in the 200-300ms time window was significantly larger for the 20% than 5% deviation. CONCLUSIONS: We observed in newborn infants automatic frequency discrimination as reflected by a positive MMR. The newborns were able to discriminate frequency change of 20% in the 250-4000-Hz frequency range, whereas the discrimination of the 5% frequency change was not statistically confirmed. SIGNIFICANCE: The present data hence suggest that the neonatal frequency discrimination has lower resolution than that in adult and older children data.
Authors: István Winkler; Gábor P Háden; Olivia Ladinig; István Sziller; Henkjan Honing Journal: Proc Natl Acad Sci U S A Date: 2009-01-26 Impact factor: 11.205
Authors: Gábor P Háden; Gábor Stefanics; Martin D Vestergaard; Susan L Denham; István Sziller; István Winkler Journal: Psychophysiology Date: 2008-11-15 Impact factor: 4.016
Authors: Manuela Filippa; Lara Lordier; Joana Sa De Almeida; Maria Grazia Monaci; Alexandra Adam-Darque; Didier Grandjean; Pierre Kuhn; Petra S Hüppi Journal: Pediatr Res Date: 2019-07-02 Impact factor: 3.756