Paper Info
Title
Piano tones evoke stronger magnetic fields than pure tones or noise, both in musicians and non-musicians.
Abstract
Regarding the net firing rate of the auditory nerve, the strongest response is to be expected when the input energy is spread as evenly as possible over the cochlea rather than being concentrated at a particular location. In some respects, this effect seems to be preserved up to the auditory cortex, but conflicting results have been reported as well. Here, we compared the auditory evoked fields (AEF) elicited by a pure tone and two sounds causing a more wide-spread cochlear activation: a piano tone as a representative of a complex tone, and bandpass noise. The stimuli had the same intensity (60 dB above threshold), and the center frequency of the noise corresponded to the fundamental frequency of the tones (1047 Hz, two octaves above middle C). Among the 26 subjects were 11 musicians and 11 persons who never played an instrument. At a latency of about 50 ms (wave P50m), the piano tone and the noise yielded stronger responses than the pure tone, in accordance with the concepts about the auditory periphery. By contrast, around 100 ms (wave N100m), the noise clearly elicited the smallest response, whereas the strongest response was elicited again by the piano tone. Musicians and non-musicians did not significantly differ concerning the responses to pure tones and piano tones. Thus, previous claims that an enhanced response to piano tones indicates use-dependent reorganization in musicians are not supported by the present data.
Year
DOI
Venue
2006
10.1016/j.neuroimage.2005.10.034
NeuroImage
Keywords
Field
DocType
magnetic field,fundamental frequency
Auditory cortex,Octave,Fundamental frequency,Pure tone,Psychology,Speech recognition,Piano,Stimulus (physiology),Audiology
Journal
Volume
Issue
ISSN
30
3
1053-8119
Citations 
PageRank 
References 
5
0.71
1
Authors
3
Name
Order
Citations
PageRank
B Lütkenhöner1123.02
Annemarie Seither-Preisler2102.23
Stefan Seither350.71