Style Consistent Image Generation for Nuclei Instance Segmentation

2021 IEEE Winter Conference on Applications of Computer Vision (WACV) Pub Date : 2021-01-01 DOI:10.1109/WACV48630.2021.00404

Xuan Gong, Shuyan Chen, Baochang Zhang, D. Doermann

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引用次数: 18

Abstract

In medical image analysis, one limitation of the application of machine learning is the insufficient amount of data with detailed annotation, due primarily to high cost. Another impediment is the domain gap observed between images from different organs and different collections. The differences are even more challenging for the nuclei instance segmentation, where images have significant nuclei stain distribution variations and complex pleomorphisms (sizes and shapes). In this work, we generate style consistent histopathology images for nuclei instance segmentation. We set up a novel instance segmentation framework that integrates a generator and discriminator into the segmentation pipeline with adversarial training to generalize nuclei instances and texture patterns. A segmentation net detects and segments both real nuclei and synthetic nuclei and provides feedback so that the generator can synthesize images that can boost the segmentation performance. Experimental results on three public nuclei datasets indicate that our proposed method outperforms previous nuclei segmentation methods.

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核实例分割的样式一致图像生成

在医学图像分析中，机器学习应用的一个限制是具有详细注释的数据量不足，主要是由于成本高。另一个障碍是在不同器官和不同集合的图像之间观察到的域间隙。对于核实例分割来说，差异甚至更具挑战性，因为图像具有显著的核染色分布变化和复杂的多形性(大小和形状)。在这项工作中，我们为细胞核实例分割生成风格一致的组织病理学图像。我们建立了一个新的实例分割框架，该框架将生成器和鉴别器集成到分割管道中，并通过对抗性训练来泛化核实例和纹理模式。分割网络检测和分割真实核和合成核，并提供反馈，使生成器可以合成图像，提高分割性能。在三个公共核数据集上的实验结果表明，该方法优于以往的核分割方法。

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2021 IEEE Winter Conference on Applications of Computer Vision (WACV)

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