苏木精-伊红染色对偏振显微镜下纤维组织结构线性双折射测量的影响。
Influence of hematoxylin and eosin staining on linear birefringence measurement of fibrous tissue structures in polarization microscopy.
机构信息
Tsinghua University, Institute of Biopharmaceutical and Health Engineering, Tsinghua Shenzhen International Graduate School, Guangdong Research Center of Polarization Imaging and Measurement Engineering Technology, Shenzhen Key Laboratory for Minimal Invasive Medical Technologies, Shenzhen, China.
Shanghai Jiao Tong University School of Medicine, Shanghai Sixth People's Hospital, Department of Pathology, Shanghai, China.
出版信息
J Biomed Opt. 2023 Oct;28(10):102909. doi: 10.1117/1.JBO.28.10.102909. Epub 2023 Sep 30.
SIGNIFICANCE
For microscopic polarization imaging of tissue slices, two types of samples are often prepared: one unstained tissue section for polarization imaging to avoid possible influence from staining dyes quantitatively and one hematoxylin-eosin (H&E) stained adjacent tissue section for histological diagnosis and structural feature identification. However, this sample preparation strategy requires high-quality adjacent tissue sections, and labeling the structural features on unstained tissue sections is impossible. With the fast development of data driven-based polarimetric analysis, which requires a large amount of pixel labeled images, a possible method is to directly use H&E stained slices, which are standard samples archived in clinical hospitals for polarization measurement.
AIM
We aim to study the influence of hematoxylin and eosin staining on the linear birefringence measurement of fibrous tissue structures.
APPROACH
We examine the linear birefringence properties of four pieces of adjacent bone tissue slices with abundant collagen fibers that are unstained, H&E stained, hematoxylin (H) stained, and eosin (E) stained. After obtaining the spatial maps of linear retardance values for the four tissue samples, we carry out a comparative study using a frequency distribution histogram and similarity analysis based on the Bhattacharyya coefficient to investigate how H&E staining affects the linear birefringence measurement of bone tissues.
RESULTS
Linear retardance increased after H&E, H, or E staining (41.7%, 40.8%, and 72.5% increase, respectively). However, there is no significant change in the imaging contrast of linear retardance in bone tissues.
CONCLUSIONS
The linear retardance values induced by birefringent collagen fibers can be enhanced after H&E, H, or E staining. However, the structural imaging contrasts based on linear retardance did not change significantly or the staining did not generate linear birefringence on the sample area without collagen. Therefore, it can be acceptable to prepare H&E stained slices for clinical applications of polarimetry based on such a mapping relationship.
意义
对于组织切片的微观偏振成像,通常需要准备两种类型的样品:一种是未经染色的组织切片,用于进行偏振成像,以避免染色染料可能产生的定量影响;另一种是苏木精-伊红(H&E)染色的相邻组织切片,用于组织学诊断和结构特征识别。然而,这种样品制备策略需要高质量的相邻组织切片,并且不可能对未经染色的组织切片进行结构特征标记。随着基于数据驱动的偏振分析的快速发展,这种分析方法需要大量像素标记图像,一种可能的方法是直接使用 H&E 染色切片,这些切片是临床医院存档的标准样本,可用于偏振测量。
目的
我们旨在研究苏木精和伊红染色对纤维组织结构线性双折射测量的影响。
方法
我们检查了四块相邻的富含胶原纤维的骨组织切片的线性双折射特性,这些切片未经染色、H&E 染色、苏木精(H)染色和伊红(E)染色。在获得四个组织样本的线性延迟值空间图后,我们使用频率分布直方图和基于 Bhattacharyya 系数的相似性分析进行了比较研究,以研究 H&E 染色如何影响骨组织的线性双折射测量。
结果
H&E、H 或 E 染色后线性延迟增加(分别增加 41.7%、40.8%和 72.5%)。然而,骨组织中线性延迟的成像对比度没有明显变化。
结论
经双折射胶原纤维诱导的线性延迟值可以在 H&E、H 或 E 染色后增强。然而,基于线性延迟的结构成像对比度没有明显变化,或者在没有胶原的样品区域染色没有产生线性双折射。因此,对于基于这种映射关系的偏振测量的临床应用,可以接受制备 H&E 染色切片。
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