正常、受损、修复及重建条件下的中耳声音传导

Middle-Ear Sound Transmission Under Normal, Damaged, Repaired, and Reconstructed Conditions.

作者信息

Dong Wei, Tian Ying, Gao Xin, Jung Timothy T K

机构信息

*Research Service, VA Loma Linda Healthcare System †Department of Otolaryngology-Head and Neck Surgery, Loma Linda University Health, Loma Linda, California ‡Department of Otolaryngology, The First Affiliated Hospital, China Medical University, Shenyang, P. R. China.

出版信息

Otol Neurotol. 2017 Apr;38(4):577-584. doi: 10.1097/MAO.0000000000001330.

DOI:10.1097/MAO.0000000000001330

PMID:28079680

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5348255/

Abstract

HYPOTHESIS

We hypothesize that current clinical treatment strategies for the disarticulated or eroded incus have the effect of combining the incus and stapes of the human middle ear (ME) into one rigid structure, which, while capable of adequately transmitting lower-frequency sounds, fails for higher frequencies.

BACKGROUND

ME damage causes conductive hearing loss (CHL) and while great progress has been made in repairing or reconstructing damaged MEs, the outcomes are often far from ideal.

METHODS

Temporal bones (TBs) from human cadavers, a laser Doppler vibrometer (LDV), and a fiber-optic based micro-pressure sensor were used to characterize ME transmission under various ME conditions: normal; with a disarticulated incus; repaired using medical glue; or reconstructed using a partial ossicular replacement prosthesis (PORP).

RESULTS

Repairing the disarticulated incus using medical glue, or replacing the incus using a commercial PORP, provided similar restoration of ME function including almost perfect function at frequencies below 4 kHz, but with more than a 20-dB loss at higher frequencies. Associated phase responses under these conditions sometimes varied and seemed dependent on the degree of coupling of the PORP to the remaining ME structure. A new ME-prosthesis design may be required to allow the stapes to move in three-dimensional (3-D) space to correct this deficiency at higher frequencies.

CONCLUSIONS

Fixation of the incus to the stapes or ossicular reconstruction using a PORP limited the efficiency of sound transmission at high frequencies.

摘要

假设

我们推测，目前针对离断或侵蚀的砧骨的临床治疗策略会使人类中耳（ME）的砧骨和镫骨结合成一个刚性结构，该结构虽然能够充分传递低频声音，但在高频时却无法做到。

背景

中耳损伤会导致传导性听力损失（CHL），尽管在修复或重建受损中耳方面已取得了很大进展，但结果往往远不理想。

方法

使用来自人类尸体的颞骨（TBs）、激光多普勒振动计（LDV）和基于光纤的微压力传感器来表征在各种中耳条件下的中耳传输情况：正常；砧骨离断；用医用胶水修复；或使用部分听骨链置换假体（PORP）进行重建。

结果

用医用胶水修复离断的砧骨，或使用商用PORP替换砧骨，能提供类似的中耳功能恢复，包括在4kHz以下频率几乎完美的功能，但在高频时损失超过20dB。在这些条件下的相关相位响应有时会有所不同，似乎取决于PORP与剩余中耳结构的耦合程度。可能需要一种新的中耳假体设计，以使镫骨能够在三维（3-D）空间中移动，以纠正高频时的这种缺陷。

结论

将砧骨固定到镫骨上或使用PORP进行听骨链重建会限制高频时的声音传输效率。

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