定量相位图像中细胞和细胞核的无监督高通量分割

Julia Sistermanns, Ellen Emken, Gregor Weirich, Oliver Hayden, Wolfgang Utschick
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引用次数: 0

摘要

为了帮助细胞学诊断,在临床研究中使用高通量数字全息显微镜建立自动单细胞筛选,捕获了数千张图像和数百万个细胞。瓶颈在于不限制可能出现的细胞类型的自动、快速和无监督的分割技术。我们提出了一种无监督的多阶段方法,该方法可以正确分割,而不会将噪声或反射与细胞混淆,也不会丢失细胞,其中还包括检测相关的内部结构,特别是未染色细胞中的细胞核。为了使信息对细胞病理学家合理和可解释,我们还引入了新的细胞质和核特征,这些特征利用了测量方案固有的定量相位信息,可能有助于细胞学诊断。我们表明,在合理的每个细胞分析时间内,在患者样品的许多实验中,分割提供了一致的良好结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Unsupervised high-throughput segmentation of cells and cell nuclei in quantitative phase images
In the effort to aid cytologic diagnostics by establishing automatic single cell screening using high throughput digital holographic microscopy for clinical studies thousands of images and millions of cells are captured. The bottleneck lies in an automatic, fast, and unsupervised segmentation technique that does not limit the types of cells which might occur. We propose an unsupervised multistage method that segments correctly without confusing noise or reflections with cells and without missing cells that also includes the detection of relevant inner structures, especially the cell nucleus in the unstained cell. In an effort to make the information reasonable and interpretable for cytopathologists, we also introduce new cytoplasmic and nuclear features of potential help for cytologic diagnoses which exploit the quantitative phase information inherent to the measurement scheme. We show that the segmentation provides consistently good results over many experiments on patient samples in a reasonable per cell analysis time.
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