IEEE Trans Biomed Eng. 2023 Jun;70(6):1931-1942. doi: 10.1109/TBME.2022.3232102. Epub 2023 May 19.
While the microvasculature annotation within Optical Coherence Tomography Angiography (OCTA) can be leveraged using deep-learning techniques, expensive annotation processes are required to create sufficient training data. One way to avoid the expensive annotation is to use a type of weak annotation in which only the center of the vessel is annotated. However, retaining the final segmentation quality with roughly annotated data remains a challenge.
Our proposed methods, called OCTAve, provide a new way of using weak-annotation for microvasculature segmentation. Since the centerline labels are similar to scribble annotations, we attempted to solve this problem by using the scribble-based weakly-supervised learning method. Even though the initial results look promising, we found that the method could be significantly improved by adding our novel self-supervised deep supervision method based on Kullback-Liebler divergence.
The study on large public datasets with different annotation styles (i.e., ROSE, OCTA-500) demonstrates that our proposed method gives better quantitative and qualitative results than the baseline methods and a naive approach, with a p-value less than 0.001 on dice's coefficient and a lot fewer artifacts.
The segmentation results are both qualitatively and quantitatively superior to baseline weakly-supervised methods when using scribble-based weakly-supervised learning augmented with self-supervised deep supervision, with an average drop in segmentation performance of less than 10%.
This work gives a new perspective on how weakly-supervised learning can be used to reduce the cost of annotating microvasculature, which can make the annotating process easier and reduce the amount of work for domain experts.
虽然可以利用深度学习技术利用光学相干断层扫描血管造影(OCTA)中的微血管注释,但创建足够的训练数据需要昂贵的注释过程。避免昂贵注释的一种方法是使用弱注释类型,其中仅注释血管的中心。然而,用大致注释的数据保留最终分割质量仍然是一个挑战。
我们提出的方法称为 OCTAve,为微血管分割提供了一种使用弱注释的新方法。由于中心线标签类似于草图注释,因此我们尝试通过使用基于草图的弱监督学习方法来解决此问题。尽管初始结果看起来很有希望,但我们发现通过添加我们基于 Kullback-Leibler 散度的新型自监督深度监督方法,可以大大提高该方法。
在具有不同注释样式(即 ROSE、OCTA-500)的大型公共数据集上的研究表明,与基线方法和简单方法相比,我们提出的方法在骰子系数上的定量和定性结果都更好,p 值小于 0.001,并且产生的伪影更少。
当使用基于草图的弱监督学习增强自我监督的深度监督时,分割结果在质量和数量上都优于基线弱监督方法,分割性能平均下降不到 10%。
这项工作为如何利用弱监督学习来降低微血管注释的成本提供了新的视角,这可以使注释过程更容易,并减少专家的工作量。
