一种用于软骨性咽鼓管管腔的新型成像方法：强制反应测试期间的计算机断层扫描

A Novel Imaging Method for the Cartilaginous Eustachian Tube Lumen: Computerized Tomography During the Forced Response Test.

作者信息

Alper Cuneyt M, Rath Tanya J, Teixeira Miriam S, Swarts J Douglas

机构信息

1 Department of Otolaryngology, University of Pittsburgh, School of Medicine, Pittsburgh, Pennsylvania, USA.

2 Department of Pediatric Otolaryngology, Children's Hospital of Pittsburgh of UPMC, Pittsburgh, Pennsylvania, USA.

出版信息

Ann Otol Rhinol Laryngol. 2018 Jan;127(1):13-20. doi: 10.1177/0003489417740363. Epub 2017 Nov 3.

DOI:10.1177/0003489417740363

PMID:29099232

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6190804/

Abstract

OBJECTIVES

In vivo imaging of the open cartilaginous Eustachian tube (ET) lumen by computed tomography (CT) scan during ET function (ETF) testing to establish new methodology.

METHODS

Five adults underwent unilateral ETF testing of an ear with a nonintact tympanic membrane using the forced response test (FRT) to measure the opening pressure (PO), steady state pressure (PS), and flow conductance (CS). Then at baseline and during the PS phase of the FRT, a temporal-bone CT scan with continuous 0.625 mm thickness was obtained. Multiplanar oblique reformats along the axis of the ET were created, and point value and region of interest (ROI) Hounsfield unit measurements were recorded from the location of the ET lumen.

RESULTS

At the FRT flow rate of 11 ml/min, the average PO, PS, and CS were 370.5 daPa, 119.6 daPa, and 0.16 ml/min/daPa, respectively. For flow rates of 23 and 46 ml/min, these values were 236.2, 204.2, 0.12 and 385.5, 321.1, 0.18, respectively. Although areas with lower attenuation were suggestive of air density, a distinct air-filled cartilaginous ET lumen could not be confirmed.

CONCLUSIONS

While the current imaging parameters failed to resolve the air-soft tissue interface throughout the open cartilaginous ET, further advances in imaging may obviate this limitation.

摘要

目的

在咽鼓管功能（ETF）测试期间，通过计算机断层扫描（CT）对开放的软骨性咽鼓管（ET）管腔进行体内成像，以建立新的方法。

方法

五名成年人使用强制反应测试（FRT）对鼓膜不完整的耳朵进行单侧ETF测试，以测量开放压力（PO）、稳态压力（PS）和流量传导率（CS）。然后在基线和FRT的PS阶段，获得厚度为0.625mm的颞骨CT扫描。沿ET轴创建多平面斜位重建图像，并从ET管腔位置记录点值和感兴趣区域（ROI）的亨氏单位测量值。

结果

在FRT流速为11ml/min时，平均PO、PS和CS分别为370.5daPa、119.6daPa和0.16ml/min/daPa。对于23和46ml/min的流速，这些值分别为236.2、204.2、0.12和385.5、321.1、0.18。尽管衰减较低的区域提示空气密度，但无法确认明显的充满空气的软骨性ET管腔。

结论

虽然目前的成像参数未能分辨整个开放的软骨性ET中的空气-软组织界面，但成像技术的进一步发展可能会消除这一限制。

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