Research paperTemporal patterns of the responses of auditory-nerve fibers to low-frequency tones
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Cited by (27)
Non-tip auditory-nerve responses that are suppressed by low-frequency bias tones originate from reticular lamina motion
2018, Hearing ResearchCitation Excerpt :Making the cycle-histogram bins nearly equal to the tone period effectively filtered out almost all of the synchronization of the fiber to the test tone. Consequently, the BT cycle histograms were little different than they would have been with an exact-integer relationship between the BT and test tones as was used by Sachs and Hubbard (1981), Cai and Geisler (1996a) and others. From each BT-alone or BT-on-tone cycle histogram we determined spike synchronization at the first and second harmonics of the BT frequency as quantified by the synchronization index, “SI”.
Low-frequency bias tone suppression of auditory-nerve responses to low-level clicks and tones
2016, Hearing ResearchCitation Excerpt :At higher bias-tone levels, the stereocilia deflections reach the low-slope regions on both ends of the MET function and there are two gain reductions per cycle. Many experiments have produced evidence consistent with this scenario (Sachs and Hubbard, 1981; Sellick et al., 1982; Javel et al., 1983; Patuzzi et al., 1984a,b; Rhode and Cooper, 1993; Cooper, 1996; Cai and Geisler, 1996a, 1996b; Rhode, 2007). The cochlea is a nonlinear system and the effect of the bias tone is one manifestation of this nonlinearity.
Temporal aspects of the effects of cooling on responses of single auditory nerve fibers
1998, Hearing ResearchBasilar membrane motion in relation to two-tone suppression
1998, Hearing Research
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Current address: Boys Town National Research Hospital, 555 North 30th Street, Omaha, NE 68131, USA.