3d打印定制听骨假体-尸体研究中的设计和LDV测量方法。

IF 1 Q3 OTORHINOLARYNGOLOGY
Jacek Sokołowski, Adam Orłowski, Magdalena Lachowska, Alicja Gosiewska, Przemyslaw Biecek, Robert Bartoszewicz, Kazimierz Niemczyk
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引用次数: 1

摘要

目的:在鼓室成形术中,鼓膜和听骨链的手术重建是行之有效的;然而,其听力效果仍有待改进。定制3D打印个性化听骨假体似乎是最佳假体调整和更好的听力效果的一个有吸引力的解决方案。目的:采用基于锥形束计算机断层扫描(CBCT)的3D打印方法设计定制听骨假体,并评估该假体的声传导特性。材料与方法:采用尸体新鲜冷冻颞骨。基于CBCT图像,设计并3D打印了一种新型的砧骨假体。然后行管壁鼓室成形术。采用激光多普勒振动仪(LDV)测量完整听骨链和重建3d打印假体链的运动/振动,并对其进行详细分析。结果:CBCT扫描提供了足够的解剖结构信息。在频率为500和1000 Hz、声强为80 dB SPL的情况下,完整听骨链的采集速度高于3d打印听骨假体。完整听骨链的500和1000 Hz运动强度阈值低于3d打印听骨假体。在2000赫兹时,在两种测量情况下有相同的强度阈值。结论:基于CBCT扫描的3D打印方法可以设计定制的个性化听骨假体。该3d打印假体的声传导特性显示完整听骨链和重建听骨链在运动模式上的差异。需要更多的数据来详细分析这种设计的假体的声学特性。我们的实验结果表明,3d打印假体有可能成为治疗由慢性中耳炎和听骨链缺陷引起的传导性听力损失的一种有趣选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
3D-printed custom ossicular prosthesis - methodology of design and LDV measurements in a cadaver study.

Objective: In tympanoplasty, surgical reconstruction of the tympanic membrane and ossicular chain is well-established; however, its hearing results still require improvement. Custom 3D printing of individualized ossicular prostheses seems to be an attractive solution for optimal prosthesis adjustment and better hearing results.

Aim: The aim was to design a custom ossicular prosthesis using a 3D printing method based on Cone-beam Computed Tomography (CBCT) scans and assess the acoustic conduction properties of such prosthesis.

Material and methods: A cadaver fresh frozen temporal bone was used. Based on CBCT images, a new incus prosthesis was designed and 3D printed. Next, canal wall-up tympanoplasty was performed. The intact ossicular chain and reconstructed 3D-printed prosthesis chain movements/vibrations were measured with Laser Doppler Vibrometer (LDV) system and analyzed in detail.

Results: The CBCT scans provided enough information about the anatomical structures. For frequencies 500 and 1000 Hz and 80 dB SPL sound intensity, collected velocities were higher for the intact ossicular chain than the 3D-printed ossicular prosthesis. The intensity thresholds for movement at 500 and 1000 Hz were lower in the intact ossicular chain than in the 3D-printed ossicular prosthesis. At 2000 Hz, there was the same intensity threshold value in the two measured circumstances.

Conclusion: It is possible to design a custom individually fitted ossicular prosthesis using a 3D printing method based on CBCT scans. The acoustic conduction properties of such 3D-printed prosthesis showed differences in movability pattern between the intact and reconstructed ossicular chain. More data are needed to analyze the acoustic properties of such designed prostheses in detail. The results of our experiment showed the 3D-printed prosthesis presents the potential to be an interesting option for conductive hearing loss treatment caused by chronic otitis media and the ossicular chain defects.

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来源期刊
Polish Journal of Otolaryngology
Polish Journal of Otolaryngology OTORHINOLARYNGOLOGY-
CiteScore
1.30
自引率
16.70%
发文量
15
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