Maria Varaka, Conrad W Merkle, Lucas May, Sybren Worm, Marco Augustin, Félix Fanjul-Vélez, Hsiang-Chieh Lee, Adelheid Wöhrer, Martin Glösmann, Bernhard Baumann
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引用次数: 0
摘要
意义重大:当使用偏振光源成像时,由于样本或光学系统的双折射,光学相干断层扫描(OCT)图像容易出现图像伪影。目的:我们旨在通过在干涉仪的参考臂中添加去极化器模块来减轻 OCT 图像中与双折射有关的伪影:方法:我们研究了在 OCT 设置的参考臂中作为伪去极化器的液晶图案延缓器的不同配置。我们为基于迈克尔逊和马赫-泽恩德(Mach-Zehnder)干涉仪的光谱域 OCT 系统确定了抑制偏振伪影的最有效去偏振模块布局:结果:我们的方法在消色差四分之一波板中得到了验证,可以选择各种样本偏振状态。采用最佳去偏振器配置后,OCT 信号幅度有了显著改善,在基于光纤的迈克尔逊和马赫-泽恩德装置中,交叉偏振伪像分别从低于共偏振信号的 5.7 分贝降至 1.8 分贝和 8.0 分贝降至 1.0 分贝。在高山旱獭死后眼睛和小鼠尾部标本的双折射巩膜组织中进行的成像实验进一步显示,检测到的信号强度有了显著改善,OCT 图像质量得到提高,与双折射相关的伪影也大大消除:我们的研究提出了一种简单而又经济有效的技术,用于减轻 OCT 成像中与双折射相关的伪影。这种方法可以在现有的 OCT 技术中轻松实现,并提高生物医学中各种 OCT 成像应用的有效性。
Polarization-insensitive optical coherence tomography using pseudo-depolarized reference light for mitigating birefringence-related image artifacts.
Significance: Optical coherence tomography (OCT) images are prone to image artifacts due to the birefringence of the sample or the optical system when a polarized light source is used for imaging. These artifacts can lead to degraded image quality and diagnostic information.
Aim: We aim to mitigate these birefringence-related artifacts in OCT images by adding a depolarizer module in the reference arm of the interferometer.
Approach: We investigated different configurations of liquid crystal patterned retarders as pseudo-depolarizers in the reference arm of OCT setups. We identified the most effective depolarization module layout for polarization artifact suppression for a spectral-domain OCT system based on a Michelson and a Mach-Zehnder interferometer.
Results: The performance of our approach was demonstrated in an achromatic quarter-wave plate allowing the selection of a variety of sample polarization states. A substantial improvement of the OCT signal magnitude was observed after placing the optimal depolarizer configuration, reducing the cross-polarization artifact from 5.7 to 1.8 dB and from 8.0 to 1.0 dB below the co-polarized signal for the fiber-based Michelson and Mach-Zehnder setup, respectively. An imaging experiment in the birefringent scleral tissue of a post-mortem alpine marmot eye and a mouse tail specimen further showcased a significant improvement in the detected signal intensity and an enhanced OCT image quality followed by a drastic elimination of the birefringence-related artifacts.
Conclusions: Our study presents a simple yet cost-effective technique to mitigate birefringence-related artifacts in OCT imaging. This method can be readily implemented in existing OCT technology and improve the effectiveness of various OCT imaging applications in biomedicine.
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.