Lens structure segmentation from AS-OCT images via shape-based learning

Fang，Huihui1; Yin，Pengshuai2; Chen，Huanxin2; Fang，Yupeng2; Chen，Wan3; Yuan，Jin3; Risa，Higashita4; Liu，Jiang5; Xu，Yanwu1

2023-03-01

10.1016/j.cmpb.2022.107322

COMPUTER METHODS AND PROGRAMS IN BIOMEDICINE   Impact Factor & Quartile

0169-2607

1872-7565

Background and objectives: The lens is one of the important refractive media in the eyeball. Abnormality of the nucleus or cortex in the lens can lead to ocular disorders such as cataracts and presbyopia. To achieve an accurate diagnosis, segmentation of these ocular structures from anterior segment optical coherence tomography (AS-OCT) is essential. However, weak-contrast boundaries of the object in the images present a challenge for accurate segmentation. The state-of-the-art (SOTA) methods, such as U-Net, treat segmentation as a binary classification of pixels, which cannot handle pixels on weak-contrast boundaries well. Methods: In this paper, we propose to incorporate shape prior into a deep learning framework for accurate nucleus and cortex segmentation. Specifically, we propose to learn a level set function, whose zero-level set represents the object boundary, through a convolutional neural network. Moreover, we design a novel shape-based loss function, where the shape prior knowledge can be naturally embedded into the learning procedure, leading to improvement in performance. We collect a high-quality AS-OCT image dataset with precise annotations to train our model. Results: Abundant experiments are conducted to verify the effectiveness of the proposed framework and the novel shape-based loss. The mean Intersection over Unions (MIoUs) of the proposed method for lens nucleus and cortex segmentation are 0.946 and 0.957, and the mean Euclidean Distance (MED) measure, which can reflect the accuracy of the segmentation boundary, are 6.746 and 2.045 pixels. In addition, the proposed shape-based loss improves the SOTA models on the nucleus and cortex segmentation tasks by an average of 0.0156 and 0.0078 in the MIoU metric and 1.394 and 0.134 pixels in the MED metric. Conclusion: We transform the segmentation from a classification task to a regression task by making the model learn the level set function, and embed shape information in deep learning by designing loss functions. This allows the proposed method to be more efficient in the segmentation of the object with weak-contrast boundaries. Concise abstract: We propose to incorporate shape priors into a deep learning framework for accurate nucleus and cortex segmentation from AS-OCT images. Specifically, we propose to learn a level set function, where the zero-level set represents the boundary of the target. Meanwhile, we design a novel shape-based loss function in which additional convex shape prior can be embedded in the learning process, leading to an improvement in performance. The IOUs for nucleus and cortex segmentation are 0.946 and 0.957, while the MED that reflects the accuracy of the boundary are 6.746 and 2.045 pixels. The proposed shape-based loss improves the SOTA model for nucleus and cortex segmentation by an average of 0.0156 and 0.0078 in IOU, and 1.394 and 0.134 pixels in MED. We transform segmentation from classification to regression by making the model learn a level set function, resulting in improved performance at the boundary with weak contrast.

AS-OCT segmentation Level set function learning Shape prior

English

Others

COMPUTER SCIENCE

2-s2.0-85145976709

Scopus

1.Cixi Institute of Biomedical Engineering,Chinese Academy of Sciences,China
2.Department of Software,South China University of Technology,Guangzhou,China
3.Zhongshan Ophthalmic Centre,State Key Laboratory of Ophthalmology,Sun Yat-Sen University,Guangzhou,China
4.Tomey Corporation,Nagoya,Japan
5.Department of Computer Science and Engineering,Southern University of Science and Technology,Shenzhen,China

Fang，Huihui,Yin，Pengshuai,Chen，Huanxin,et al. Lens structure segmentation from AS-OCT images via shape-based learning[J]. COMPUTER METHODS AND PROGRAMS IN BIOMEDICINE,2023,230.

Fang，Huihui.,Yin，Pengshuai.,Chen，Huanxin.,Fang，Yupeng.,Chen，Wan.,...&Xu，Yanwu.(2023).Lens structure segmentation from AS-OCT images via shape-based learning.COMPUTER METHODS AND PROGRAMS IN BIOMEDICINE,230.

Fang，Huihui,et al."Lens structure segmentation from AS-OCT images via shape-based learning".COMPUTER METHODS AND PROGRAMS IN BIOMEDICINE 230(2023).