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锥形束计算机断层扫描,一种用于人工耳蜗植入术后评估的低剂量成像技术。

Cone beam computed tomography, a low-dose imaging technique in the postoperative assessment of cochlear implantation.

作者信息

Ruivo Joana, Mermuys Koen, Bacher Klaus, Kuhweide Rudolf, Offeciers Erwin, Casselman Jan W

机构信息

Hospital de Santa Maria, Lisbon, Portugal.

出版信息

Otol Neurotol. 2009 Apr;30(3):299-303. doi: 10.1097/MAO.0b013e31819679f9.

DOI:10.1097/MAO.0b013e31819679f9
PMID:19174709
Abstract

BACKGROUND

Cone beam computed tomography (CBCT) has become an extremely useful technique for dentomaxillofacial imaging because it provides clear images of highly contrasted structures. Previous studies evaluating the applicability of this technique in otologic imaging were very encouraging but were only performed in vitro on temporal bone specimens. The intracochlear positioning of the individual electrodes after cochlear implantation by means of CBCT has not yet been shown in vivo.

OBJECTIVE

We describe a protocol for in vivo postoperative imaging of cochlear implants by CBCT. Moreover, the effective dose was measured and compared with the effective dose used on 4- and 16-slice multislice computed tomography (MSCT) by using a RANDO-phantom.

MAIN OUTCOME MEASURE

Developing a protocol for in vivo postoperative imaging of cochlear implants by CBCT.

RESULTS

CBCT provides high-resolution and almost artifact-free multiplanar reconstruction images allowing assessment of the precise intracochlear position of the electrode and visualization of each of the individual contacts. The calculated effective dose of the used CBCT and MSCT acquisitions is 80 musv for the CBCT, 3,600 musv for the 16-slice computed tomography, and 4,800 musv for the 4-slice computed tomography.

CONCLUSION

These preliminary results suggests that, for in vivo postoperative evaluation of cochlear implants, CBCT can provide at least the same information as conventional radiography, digital radiograph, and MSCT but in a more comfortable and a much more safer way.

摘要

背景

锥形束计算机断层扫描(CBCT)已成为牙颌面成像的一项极其有用的技术,因为它能提供高对比度结构的清晰图像。以往评估该技术在耳科成像中适用性的研究非常令人鼓舞,但仅在颞骨标本上进行了体外研究。通过CBCT在体内观察人工耳蜗植入后各电极在耳蜗内的位置尚未得到证实。

目的

我们描述了一种通过CBCT对人工耳蜗进行术后体内成像的方案。此外,使用RANDO体模测量有效剂量,并与4层和16层多层螺旋计算机断层扫描(MSCT)所使用的有效剂量进行比较。

主要观察指标

制定一种通过CBCT对人工耳蜗进行术后体内成像的方案。

结果

CBCT提供了高分辨率且几乎无伪影的多平面重建图像,能够评估电极在耳蜗内的精确位置,并显示每个单独触点。计算得出,所使用的CBCT和MSCT采集的有效剂量分别为:CBCT为80微希沃特,16层计算机断层扫描为3600微希沃特,4层计算机断层扫描为4800微希沃特。

结论

这些初步结果表明,对于人工耳蜗的术后体内评估,CBCT至少能提供与传统放射摄影、数字X线摄影和MSCT相同的信息,但方式更舒适、更安全。

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