Reply to 'on cochlear impedances and the miscomputation of power gain' by Shera et Al. J. Assoc. Re. Otolaryngol.

Ren T; He W; Gillespie PG

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Reply to 'on cochlear impedances and the miscomputation of power gain' by Shera et Al. J. Assoc. Re. Otolaryngol.

机译：Shera等人回答“关于耳蜗阻抗和功率增益的误算”。 J.阿索克回覆。耳鼻咽喉科。

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Using a scanning laser interferometer, we recently measured the volume velocity of the basilar membrane vibration in the sensitive gerbil cochlea and estimated that the cochlear power gain is ~100 at low sound pressure levels (Ren et al., Nat Commun 2:216-223, 2011a). We thank Shera et al. for recognizing the technical challenges of our experiments and appreciating the beauty of our data in their comment (Shera et al., J Assoc Res Otolaryngol (in press), 2011). These authors argue that our analysis is inappropriate, invalidating our conclusion; moreover, they suggest that our finding of a power gain of >1 could arise from a passive structure or cochlea. While our analysis and interpretation remain to be verified, they are justified according to commonly accepted assumptions and theories in cochlear mechanics. Here, we also show that the mathematical demonstration of a power gain of >1 in a passive cochlea by Shera et al. is inconsistent with our data, which show that the volume velocity and power gain decrease and become <1 as the sound level increases.

机译：最近，我们使用扫描激光干涉仪测量了敏感沙鼠耳蜗基底膜振动的体积速度，并估计在低声压水平下，耳蜗功率增益约为100（Ren等人，Nat Commun 2：216-223 ，2011a）。我们感谢谢拉等。在他们的评论中承认了我们实验的技术挑战并赞赏了我们的数据之美（Shera等人，《 J Assoc Res Otolaryngol》（印刷中），2011年）。这些作者认为，我们的分析是不合适的，从而使我们的结论无效。此外，他们认为，我们发现功率增益> 1可能是由被动结构或耳蜗引起的。尽管我们的分析和解释尚待验证，但它们是根据耳蜗力学中公认的假设和理论证明的。在这里，我们还显示了Shera等人在被动耳蜗中功率增益> 1的数学证明。与我们的数据不一致，该数据表明，音量和功率增益会降低，并随着声级的增加而变为<1。

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《Journal of the Association for Research in Otolaryngology: JARO》 |2011年第6期|共4页
作者
Ren T; He W; Gillespie PG;
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1. Reply to "on cochlear impedances and the miscomputation of power gain" by Shera et Al. J. Assoc. Re. Otolaryngol. [J] . Ren T, He W, Gillespie PG Journal of the Association for Research in Otolaryngology: JARO . 2011,第6期

机译：Shera等人回答“关于耳蜗阻抗和功率增益的误算”。 J.阿索克回覆。耳鼻咽喉科。
2. On cochlear impedances and the miscomputation of power gain. [J] . Shera CA, Olson ES, Guinan JJ Jr Journal of the Association for Research in Otolaryngology: JARO . 2011,第6期

机译：关于耳蜗阻抗和功率增益的误算。
3. Reply to I. Todt, D. Basta, A. Ernst, "Does the surgical approach in cochlear implantation influence the occurrence of postoperative vertigo?" (Otolaryngol. Head Neck Surg. 138(January (1)) (2008) 8-12 and 138(June (6)) (2008) 812-3). [J] . Wiener Vacher S International journal of pediatric otorhinolaryngology . 2010,第1期

机译：对I. Todt，D。Basta，A。Ernst的回答：“人工耳蜗植入的手术方法会影响术后眩晕的发生吗？” （耳鼻喉。头颈外科手术138（1月（1））（2008）8-12和138（6月（6））（2008）812-3）。
4. Cochlear Implant Wireless Power Transfer System Design for High Efficiency and Link Gain Stability using A Proposed Stagger Tuning Method [C] . Seokwoo Hong, Seungtaek Jeong, Seongsoo Lee, IEEE Wireless Power Transfer Conference . 2019

机译：耳蜗植入无线电力传输系统设计高效率和链路稳定性使用提出的错位调整方法
5. Reply to On Cochlear Impedances and the Miscomputation of Power Gain by Shera et al. J. Assoc. Re. Otolaryngol. [O] . Tianying Ren, Wenxuan He, Peter G. Gillespie 2011

机译：对Shera等人的关于耳蜗阻抗和功率增益的错误计算的答复。 J.阿索克回覆。耳鼻咽喉科。
6. Reply to “On Cochlear Impedances and the Miscomputation of Power Gain” by Shera et al. J. Assoc. Re. Otolaryngol. [O] . Tianying Ren, Wenxuan He, Peter G. Gillespie 2011

机译：Shera等人回复“关于教学阻碍与权力收益的误传措施”。 J. Advance。关于。耳鼻醇。

Reply to 'on cochlear impedances and the miscomputation of power gain' by Shera et Al. J. Assoc. Re. Otolaryngol.

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