使用激光多普勒振动测量法对III型镫骨柱鼓膜成形术的力学原理进行研究。

Investigation of the mechanics of Type III stapes columella tympanoplasty using laser-Doppler vibrometry.

作者信息

Chien Wade, Rosowski John J, Merchant Saumil N

机构信息

Department of Otolaryngology, Massachusetts Eye and Ear Infirmary, Harvard Medical School, Boston, MA 02114, USA.

出版信息

Otol Neurotol. 2007 Sep;28(6):782-7. doi: 10.1097/mao.0b013e31811f40fb.

DOI:10.1097/mao.0b013e31811f40fb

PMID:17948356

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2586981/

Abstract

OBJECTIVES

To investigate the middle ear mechanics of Type III stapes columella tympanoplasty using laser-Doppler vibrometry (LDV) and to determine whether LDV was useful in the identification of structural factors responsible for poor hearing outcomes.

BACKGROUND

The Type III stapes columella tympanoplasty procedure involves placing a tympanic membrane (TM) graft directly onto the stapes head. Postoperative hearing results vary widely, with air-bone gaps (ABGs) ranging from 10 to 60 dB.

METHODS

Laser-Doppler vibrometry measurements were performed in 22 patients (23 ears) who underwent Type III stapes columella tympanoplasty. The measurements were made at three locations on the TM graft: over the stapes head, over the round window, and on the anterior TM. The LDV results were correlated with the clinical and audiologic findings.

RESULTS

The 23 ears were divided into three groups: Nonaerated ears (n = 2). The ABGs were 30 to 60 dB. The TM velocities over all three locations were 20 to 40 dB lower than normal umbo velocity (in normally hearing subjects). Fixed stapes with aerated middle ear (n = 2). The ABGs were 40 to 60 dB, and TM velocities were equivalent to normal umbo velocity in one case and lower by 15 to 20 dB in another case. Mobile stapes and aerated middle ear (n = 19). There were two subgroups in this category: 1) small ABGs less than 25 dB (n = 7) and large gaps greater than or equal to 25 dB (n = 12). There were small differences in TM graft velocity at all three measurement locations between these two subgroups. However, these small differences did not explain the large difference in ABG between the two subgroups.

CONCLUSION

Nonaeration of the middle ear and stapes fixation lead to large residual conductive hearing losses after Type III tympanoplasty. Laser-Doppler vibrometry can aid in the diagnosis of nonaeration of the middle ear but does not readily diagnose stapes fixation. Postoperative results can vary even in cases of a mobile stapes and an aerated middle ear. We hypothesize that these variations may be the result of differences in the coupling between the TM graft and the stapes head. Measurements of TM velocities by means of LDV did not show clear differences between cases with good hearing and cases with poor hearing in ears with a mobile stapes and an aerated ear. Except for diagnosis of nonaeration of the middle ear, LDV seems to have limited clinical usefulness to identify causes of failure after Type III tympanoplasty.

摘要

目的

使用激光多普勒振动测量法（LDV）研究III型镫骨柱型鼓室成形术的中耳力学，并确定LDV是否有助于识别导致听力结果不佳的结构因素。

背景

III型镫骨柱型鼓室成形术包括将鼓膜（TM）移植物直接放置在镫骨头。术后听力结果差异很大，气骨导差（ABG）范围为10至60分贝。

方法

对22例（23耳）接受III型镫骨柱型鼓室成形术的患者进行激光多普勒振动测量。测量在TM移植物的三个位置进行：镫骨头上方、圆窗上方和TM前部。LDV结果与临床和听力学结果相关。

结果

23耳分为三组：中耳未充气耳（n = 2）。ABG为30至60分贝。所有三个位置的TM速度比正常鼓膜脐速度（在听力正常的受试者中）低20至40分贝。中耳充气的固定镫骨（n = 2）。ABG为40至60分贝，一例TM速度与正常鼓膜脐速度相当，另一例低15至20分贝。活动镫骨和中耳充气（n = 19）。此类别中有两个亚组：1）ABG小于25分贝的小间隙（n = 7）和大于或等于25分贝的大间隙（n = 12）。这两个亚组在所有三个测量位置的TM移植物速度存在微小差异。然而，这些微小差异无法解释两个亚组之间ABG的巨大差异。

结论

中耳未充气和镫骨固定导致III型鼓室成形术后出现大量残余传导性听力损失。激光多普勒振动测量法有助于诊断中耳未充气，但不易诊断镫骨固定。即使在活动镫骨和中耳充气的情况下，术后结果也可能不同。我们假设这些差异可能是TM移植物与镫骨头之间耦合差异的结果。在活动镫骨和中耳充气的耳朵中，通过LDV测量TM速度在听力良好和听力不佳的病例之间未显示出明显差异。除了诊断中耳未充气外，LDV在识别III型鼓室成形术后失败原因方面似乎临床实用性有限。