Quantitative assessment of chlorine gas inhalation injury based on endoscopic OCT and spectral encoded interferometric microscope imaging with deep learning

IF 5.4 1区 物理与天体物理 Q1 OPTICS APL Photonics Pub Date : 2024-09-06 DOI:10.1063/5.0222153
Zhikai Zhu, Hyunmo Yang, Hongqiu Lei, Yusi Miao, George Philipopoulos, Melody Doosty, David Mukai, Yuchen Song, Jangwoen Lee, Sari Mahon, Matthew Brenner, Livia Veress, Carl White, Woonggyu Jung, Zhongping Chen
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Abstract

Chlorine exposure can cause severe airway injuries. While the acute effects of chlorine inhalation are well-documented, the structural changes resulting from the post-acute, high-level chlorine exposure remain less understood. Airway sloughing is one of the standards for doctors to evaluate the lung function. Here, we report the application of a high-resolution swept-source optical coherence tomography system to investigate the progression of injury based on airway sloughing evaluation in a chlorine inhalation rabbit model. This system employs a 1.2 mm diameter flexible fiberoptic endoscopic probe via an endotracheal tube to capture in vivo large airway anatomical changes before and as early as 30 min after acute chlorine exposure. We conducted an animal study using New Zealand white rabbits exposed to acute chlorine gas (800 ppm, 6 min) during ventilation and monitored them using optical coherence tomography (OCT) for 6 h. To measure the volume of airway sloughing induced by chlorine gas, we utilized deep learning for the segmentation task on OCT images. The results showed that the volume of chlorine induced epithelial sloughing on rabbit tracheal walls initially increased, peaked around 30 min, and then decreased. Furthermore, we utilized a spectral encoded interferometric microscopy system to study ex vivo airway cilia beating dynamics based on Doppler shift, aiding in elucidating how chlorine gas affects cilia beating function. Cilia movability and beating frequency were decreased because of the epithelium damage. This quantitative approach has the potential to enhance the diagnosis and monitoring of injuries from toxic gas inhalation and to evaluate the efficacy of antidote treatments for these injuries.
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基于深度学习的内窥镜 OCT 和光谱编码干涉显微镜成像对氯气吸入损伤的定量评估
接触氯会造成严重的气道损伤。虽然吸入氯气的急性影响已得到充分证实,但人们对急性、高浓度氯气暴露后导致的结构变化仍然知之甚少。气道脱落是医生评估肺功能的标准之一。在此,我们报告了高分辨率扫源光学相干断层成像系统的应用情况,该系统可根据氯吸入兔模型的气道蜕皮评估结果来研究损伤的进展情况。该系统采用直径 1.2 毫米的柔性纤维内窥镜探头,通过气管插管捕捉急性氯暴露前和暴露后 30 分钟内大气道解剖结构的变化。我们利用新西兰白兔在通气过程中暴露于急性氯气(800 ppm,6 分钟)进行了一项动物研究,并使用光学相干断层扫描(OCT)对其进行了 6 小时的监测。结果表明,氯气诱导的兔气管壁上皮细胞脱落量最初增加,在 30 分钟左右达到峰值,然后减少。此外,我们还利用光谱编码干涉显微系统研究了基于多普勒频移的体外气道纤毛跳动动态,有助于阐明氯气如何影响纤毛跳动功能。由于上皮受损,纤毛的可动性和跳动频率都有所下降。这种定量方法有望加强对吸入有毒气体造成的伤害的诊断和监测,并评估这些伤害的解毒治疗效果。
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来源期刊
APL Photonics
APL Photonics Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
10.30
自引率
3.60%
发文量
107
审稿时长
19 weeks
期刊介绍: APL Photonics is the new dedicated home for open access multidisciplinary research from and for the photonics community. The journal publishes fundamental and applied results that significantly advance the knowledge in photonics across physics, chemistry, biology and materials science.
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