仓鸮的诱发耳蜗电位

Evoked cochlear potentials in the barn owl.

作者信息

Köppl Christine, Gleich Otto

机构信息

Lehrstuhl für Zoologie, Technische Universität München, Lichtenbergstr. 4, 85747 Garching, Germany.

出版信息

J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 2007 Jun;193(6):601-12. doi: 10.1007/s00359-007-0215-0. Epub 2007 Feb 23.

DOI:10.1007/s00359-007-0215-0

PMID:17318655

Abstract

Gross electrical responses to tone bursts were measured in adult barn owls, using a single-ended wire electrode placed onto the round window. Cochlear microphonic (CM) and compound action potential (CAP) responses were evaluated separately. Both potentials were physiologically vulnerable. Selective abolishment of neural responses at high frequencies confirmed that the CAP was of neural origin, while the CM remained unaffected. CAP latencies decreased with increasing stimulus frequency and CAP amplitudes were correlated with known variations in afferent fibre numbers from the different papillar regions. This suggests a local origin of the CAP along the tonotopic gradient within the basilar papilla. The audiograms derived from CAP and CM threshold responses both showed a broad frequency region of optimal sensitivity, very similar to behavioural and single-unit data, but shifted upward in absolute sensitivity. CAP thresholds rose above 8 kHz, while CM responses showed unchanged sensitivity up to 10 kHz.

摘要

使用置于圆窗上的单端线状电极，测量成年仓鸮对短纯音的总体电反应。分别评估了耳蜗微音电位（CM）和复合动作电位（CAP）反应。这两种电位在生理上都很脆弱。高频下神经反应的选择性消除证实CAP起源于神经，而CM不受影响。CAP潜伏期随刺激频率增加而缩短，且CAP振幅与来自不同乳头区域的传入纤维数量的已知变化相关。这表明CAP在基底乳头内沿音频梯度有局部起源。从CAP和CM阈值反应得出的听力图均显示出一个宽广的最佳敏感频率区域，与行为学和单单元数据非常相似，但绝对敏感性有所上移。CAP阈值在8kHz以上升高，而CM反应在高达10kHz时敏感性不变。

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仓鸮的诱发耳蜗电位

Evoked cochlear potentials in the barn owl.

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