使用机器人安装的光学相干层析振动测量系统对锤骨-incus复合体进行3d运动测绘。

IF 2.9 3区医学 Q2 BIOCHEMICAL RESEARCH METHODS

Journal of Biomedical Optics Pub Date : 2026-12-01 Epub Date: 2026-02-20 DOI:10.1117/1.JBO.31.12.123303

Nathan Goedseels, Pieter Livens, Yang Li, Guy Fierens, Nicolas Verhaert, Tristan Putzeys

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引用次数: 0

摘要

意义：光学相干层析振动仪（OCTv）可以测量哺乳动物听骨链的表面和表面下纳米振动。然而，现有的多维OCTv设置仍然昂贵、复杂或精度有限。目的：我们开发了一个带有旋转组件的3D OCTv设置，并提供了一个理论框架，澄清了3D振动测量精度的主要决定因素。方法：将商用OCTv系统安装在机械臂上，以实现多维测量。通过自定义体配准算法定义被测结构的相对位置和光轴方向。结果：我们提出了将测量运动分量分解到笛卡尔空间的数学框架，并确定了影响分解精度的关键因素。光轴估计的角度精度为0.4度。实验验证在振荡模体和新鲜人类颞骨标本的踝-incus复合体（MIC）上进行，复制了先前关于MIC频率依赖振动行为的证据。结论：安装在机器人上的3D OCTv装置为绘制中耳3D振动提供了一种经济、可靠和完整的解决方案，可以在测量中精确定位光轴。未来的工作应该完整地绘制听骨链，以测试通常假设的听骨运动的刚体行为。

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3D-motion mapping of the malleus-incus complex using a robot-mounted optical coherence tomography vibrometry system.

Significance: Optical coherence tomography vibrometry (OCTv) allows measuring the surface and subsurface nanometer vibrations of the mammalian ossicular chain. However, existing multidimensional OCTv setups remain expensive, complex, or limited in accuracy.

Aim: We developed a 3D OCTv setup with a rotational component and provided a theoretical framework that clarifies the main determinants of measurement accuracy in 3D vibrometry.

Approach: A commercially available OCTv system is mounted on a robotic arm to allow multidimensional measurements. The relative positions of measured structures and the optical axes orientation are defined with a custom volume registration algorithm.

Results: We present a mathematical framework for decomposing the measured motion components into a Cartesian space and identify key factors that influence the decomposition accuracy. The angular accuracy of optical axis estimation was 0.4 deg. Experimental validation was performed on an oscillating phantom and on the malleus-incus complex (MIC) of a fresh human temporal bone specimen, replicating previous evidence on the MIC's frequency-dependent vibratory behavior.

Conclusions: The robot-mounted 3D OCTv setup provides a cost-effective, robust, and integral solution for mapping middle ear 3D vibrations, accurately orienting optical axes across measurements. Future work should integrally map the ossicular chain to test the commonly assumed rigid-body behavior of ossicular motion.

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来源期刊

Journal of Biomedical Optics 医学-光学

CiteScore

6.40

自引率

5.70%

发文量

263

审稿时长

2 months

期刊介绍： The Journal of Biomedical Optics publishes peer-reviewed papers on the use of modern optical technology for improved health care and biomedical research.