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Abstract

Although scalp-recorded frequency-following response (FFR) to voice pitch has shown great potential to examine pitch processing mechanisms in human participants and animals, few reports have addressed the test-retest reliability of such a response in an animal model. The purpose of this study was to investigate the feasibility and reliability of recording such a response in an animal model and to evaluate the extent to which the response could be separated from background noise. A Chinese monosyllable with a rising pitch was used to elicit the FFR to voice pitch in four guinea pigs. Four objective measures (Root-Mean-Square, Amplitude, Tracking Accuracy, Frequency Error, and Slope Error) were computed from recorded brain waves and were used to examine the phase-locking magnitude and test-retest reliability of the response. Results demonstrated that the animal model produced FFR trends that were repeatable, reliable, and significantly different from responses to the background noise.

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References

Greenberg

Marsh

J. T.

Brown

W. S.

Smith

J. C.

(1987) Neural temporal coding of low pitch: I. Human frequency following responses to complex tone. Hearing Research, 25, 91–114.

Jeng

F-C.

Dickman

Lin

C-Y.

Lin

C-D.

Wang

C-Y.

Chung

H-K.

(2011) Evaluation of two algorithms for detecting human frequency-following responses to voice pitch. International Journal of Audiology, 50, 14–26.

Jeng

F-C.

Dickman

Montgomery-Reagan

Tong

Lin

C-D.

(2011) Cross-linguistic comparison of frequency-following responses to voice pitch in American and Chinese neonates and adults. Ear and Hearing, 32, 699–707.

Jeng

F-C.

Schnabel

E. A.

Dickman

B. M.

(2010) Early maturation of frequency-following responses to voice pitch in infants with normal hearing. Perceptual & Motor Skills, 111, 765–784.

Kawamoto

Ishimoto

Minoda

Brough

D. E.

Raphael

(2003) Math1 gene transfer generates new cochlear hair cells in mature guinea pigs in vivo. Journal of Neuroscience, 23, 4395–4400.

Krishnan

Gandour

J. T.

Cariani

(2004) Human frequency-following response: representation of pitch contours in Chinese tones. Hearing Research, 189, 1–12.

Krishnan

Gandour

J. T.

Cariani

(2005) Encoding of pitch in the human brainstem is sensitive to language experience. Cognitive Brain Research, 25, 161–168.

Marsh

J. T.

Worden

F. G.

(1968) Sound evoked frequency following responses in the central auditory pathway. The Laryngoscope, 78, 1149–1163.

Moushegian

Rupert

A. L.

Stillman

R. D.

(1973) Scalp-recorded early responses in man to frequencies in the speech range. Electroencephalography and Clinical Neurophysiology, 35, 665–667.

10.

Musacchia

Sams

Skoe

Kraus

(2007) Musicians have enhanced subcortical auditory and audiovisual processing of speech and music. Proceedings of the National Academy of Sciences of the United States of America, 104, 15894–15898.

11.

Russo

N. M.

Nicol

Musacchia

Kraus

(2004) Brainstem responses to speech syllables. Clinical Neurophysiology, 115, 2021–2030.

12.

Russo

N. M.

Skoe

Trommer

Nicol

Zecker

Bradlow

Kraus

(2008) Deficient brainstem encoding of pitch in children with autism spectrum disorders. Clinical Neurophysiology, 119, 1720–1731.

13.

Skoe

Kraus

(2010) Auditory brain stem response to complex sounds: a tutorial. Ear and Hearing, 31, 302–324.

14.

Smith

J. C.

Marsh

J. T.

Brown

W. S.

(1975) Far-field recorded frequency-following responses: evidence for the locus of brainstem sources. Electroencephalography and Clinical Neurophysiology, 39, 465–472.

15.

Song

J. H.

Skoe

Wong

P. C. M.

Kraus

(2008) Plasticity in the adult human auditory brainstem following short-term linguistic training. Journal of Cognitive Neuroscience, 20, 1892–1902.

16.

Warrier

C. M.

Abrams

D. A.

Nicol

T. G.

Kraus

(2011) Inferior colliculus contributions to phase encoding of stop consonants in an animal model. Hearing Research, 282, 108–118.

17.

Wen

Xiao

Bai

Y-X.

(2013) Protective effect of dexmedetomidine on noise-induced hearing loss. The Laryngoscope, 124(5), E188–E193. DOI: 10.1002/lary.24425

18.

Wong

P. C. M.

Skoe

Russo

N. M.

Dees

Kraus

(2007) Musical experience shapes human brainstem encoding of linguistic pitch patterns. Nature Neuroscience, 10, 420–422.

19.

Worden

F. G.

Marsh

J. T.

(1968) Frequency following (microphonic-like) neural responses evoked by sound. Electroencephalography and Clinical Neurophysiology, 25, 45–52.

Recording Frequency-following Responses to Voice Pitch in Guinea Pigs: Preliminary Results

Abstract

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References