Optical Coherence Tomography Enables the Depth-Resolved Measurement of Cilia Beat Frequency in Ex Vivo Human Fallopian Tubes.

IF 2.2 3区医学 Q2 DERMATOLOGY

Lasers in Surgery and Medicine Pub Date : 2025-07-18 DOI:10.1002/lsm.70049

Dilara J Long, Tian Xia, Photini F Rice, Deirdre M Scully, Makayla Johnson, Ryan Mistifer, Andrea Aguirre, John M Heusinkveld, Irina V Larina, Jennifer K Barton

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引用次数: 0

Abstract

Objectives: The movement of cilia in the fallopian tubes (FTs) facilitates important processes involved in fertility, and abnormalities in cilia function are linked with diseases including endometriosis and pelvic inflammatory disease. For the first time, we demonstrate the use of optical coherence tomography (OCT) to create depth-resolved mapping of motile cilia locations and quantify cilia beat frequency (CBF) in human FT samples ex vivo.

Methods: Segments of the FT ampulla were acquired from five patients following salpingectomy under an IRB approved protocol. The samples were longitudinally opened to expose the luminal surface for imaging. A sequence of at least 500 OCT images were acquired at 5-10 locations on each sample. To define the location of the motile cilia in the images, pixel-wise Fast Fourier Transform (FFT) analysis of intensity fluctuations with a sliding temporal window was performed on each image sequence. The frequencies corresponding to the physiological range of CBF (2-10 Hz) were selected for mapping, while the part of the FFT spectrum at higher frequencies (> 23 Hz) was used to define the noise threshold. The frequency with the highest FFT amplitude for each supra-threshold pixel was considered the CBF for this pixel and used to create a color-coded CBF map. The CBF map was overlaid with the OCT intensity image sequences to reveal cilia locations. Frequency histograms from the sliding window were examined to assess temporal consistency of the mapping and evaluate movement artifacts.

Results: OCT image sequences clearly showed the structure of FT plicae. The ciliated epithelium was obvious as a "shimmering" (rapidly changing intensity) layer atop plicae. Colored pixels on CBF maps visually aligned to these shimmering regions. Frequency histograms revealed that the image sequence peak CBF could be robustly determined, even in the presence of outliers attributable to table vibrations or bulk sample movement.

Conclusions: OCT can provide depth-resolved maps of CBF in human ex vivo FT tissue. Potentially, this technique can aid in understanding cilia dynamics in the normal human FT over the menstrual cycle and across age, as well as in diseases that affect the FTs. Future work will be directed toward in vivo implementation including miniaturization and robust motion compensation.

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光学相干断层扫描使深度分辨测量纤毛跳动频率在离体人输卵管。

目的：纤毛在输卵管（FTs）中的运动促进了与生育有关的重要过程，纤毛功能异常与子宫内膜异位症和盆腔炎等疾病有关。我们首次展示了使用光学相干断层扫描（OCT）来创建运动纤毛位置的深度分辨率映射，并量化了人类FT样本的纤毛搏动频率（CBF）。方法：在IRB批准的方案下，从5例输卵管切除术后的患者获得FT壶腹段。纵向打开样品，暴露腔面进行成像。在每个样品的5-10个位置获得至少500张OCT图像的序列。为了确定图像中运动纤毛的位置，对每个图像序列进行逐像素的快速傅里叶变换（FFT）分析，并使用滑动时间窗口对强度波动进行分析。选择CBF生理范围（2-10 Hz）对应的频率进行映射，而FFT频谱中较高频率（> - 23 Hz）的部分用于定义噪声阈值。每个超阈值像素的FFT幅度最高的频率被认为是该像素的CBF，并用于创建彩色编码的CBF图。CBF图与OCT强度图像序列叠加以显示纤毛位置。检查滑动窗口的频率直方图，以评估映射的时间一致性和评估运动伪影。结果：OCT图像序列清晰显示FT皱襞的结构。纤毛上皮在皱襞上呈“闪烁”（快速变化的强度）层。CBF地图上的彩色像素在视觉上与这些闪烁的区域对齐。频率直方图显示，图像序列峰值CBF可以稳健地确定，即使在存在可归因于表振动或大块样品移动的异常值。结论：OCT可以提供人离体FT组织CBF的深度分辨图。潜在地，这项技术可以帮助理解纤毛在正常人类月经周期和年龄之间的动态，以及在影响纤毛的疾病中。未来的工作将指向体内实施，包括小型化和鲁棒运动补偿。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Lasers in Surgery and Medicine 医学-外科

CiteScore

5.40

自引率

12.50%

发文量

119

审稿时长

1 months

期刊介绍： Lasers in Surgery and Medicine publishes the highest quality research and clinical manuscripts in areas relating to the use of lasers in medicine and biology. The journal publishes basic and clinical studies on the therapeutic and diagnostic use of lasers in all the surgical and medical specialties. Contributions regarding clinical trials, new therapeutic techniques or instrumentation, laser biophysics and bioengineering, photobiology and photochemistry, outcomes research, cost-effectiveness, and other aspects of biomedicine are welcome. Using a process of rigorous yet rapid review of submitted manuscripts, findings of high scientific and medical interest are published with a minimum delay.