VLFATRollout: Fully transformer-based classifier for retinal OCT volumes

IF 5.4 2区 医学 Q1 ENGINEERING, BIOMEDICAL Computerized Medical Imaging and Graphics Pub Date : 2024-10-29 DOI:10.1016/j.compmedimag.2024.102452
Marzieh Oghbaie , Teresa Araújo , Ursula Schmidt-Erfurth , Hrvoje Bogunović
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Abstract

Background and Objective:

Despite the promising capabilities of 3D transformer architectures in video analysis, their application to high-resolution 3D medical volumes encounters several challenges. One major limitation is the high number of 3D patches, which reduces the efficiency of the global self-attention mechanisms of transformers. Additionally, background information can distract vision transformers from focusing on crucial areas of the input image, thereby introducing noise into the final representation. Moreover, the variability in the number of slices per volume complicates the development of models capable of processing input volumes of any resolution while simple solutions like subsampling may risk losing essential diagnostic details.

Methods:

To address these challenges, we introduce an end-to-end transformer-based framework, variable length feature aggregator transformer rollout (VLFATRollout), to classify volumetric data. The proposed VLFATRollout enjoys several merits. First, the proposed VLFATRollout can effectively mine slice-level fore-background information with the help of transformer’s attention matrices. Second, randomization of volume-wise resolution (i.e. the number of slices) during training enhances the learning capacity of the learnable positional embedding (PE) assigned to each volume slice. This technique allows the PEs to generalize across neighboring slices, facilitating the handling of high-resolution volumes at the test time.

Results:

VLFATRollout was thoroughly tested on the retinal optical coherence tomography (OCT) volume classification task, demonstrating a notable average improvement of 5.47% in balanced accuracy over the leading convolutional models for a 5-class diagnostic task. These results emphasize the effectiveness of our framework in enhancing slice-level representation and its adaptability across different volume resolutions, paving the way for advanced transformer applications in medical image analysis. The code is available at https://github.com/marziehoghbaie/VLFATRollout/.
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VLFATRollout:完全基于变换器的视网膜 OCT 容量分类器。
背景和目的:尽管三维变压器架构在视频分析中的应用前景广阔,但将其应用于高分辨率三维医疗卷却面临着一些挑战。其中一个主要限制是三维斑块数量较多,这降低了变换器全局自我关注机制的效率。此外,背景信息会分散视觉转换器的注意力,使其无法聚焦于输入图像的关键区域,从而在最终表示中引入噪声。此外,每个体的切片数的变化使得开发能够处理任何分辨率的输入体的模型变得更加复杂,而简单的解决方案(如子采样)可能会丢失重要的诊断细节:为了应对这些挑战,我们引入了一种基于变压器的端到端框架--可变长度特征聚合变压器推出(VLFATRollout),用于对体积数据进行分类。所提出的 VLFATRollout 有几个优点。首先,拟议的 VLFATRollout 可借助变换器的注意力矩阵有效挖掘切片级前景信息。其次,在训练过程中对体积分辨率(即切片数)进行随机化,可增强分配给每个体积切片的可学习位置嵌入(PE)的学习能力。这种技术可以让位置嵌入在相邻切片之间进行泛化,从而在测试时更容易处理高分辨率的容积:VLFATRollout 在视网膜光学相干断层扫描(OCT)容积分类任务中进行了全面测试,在 5 类诊断任务中,与领先的卷积模型相比,平均平衡准确率显著提高了 5.47%。这些结果凸显了我们的框架在增强切片级表示方面的有效性及其对不同体分辨率的适应性,为医学图像分析中的高级变换器应用铺平了道路。代码见 https://github.com/marziehoghbaie/VLFATRollout/。
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来源期刊
CiteScore
10.70
自引率
3.50%
发文量
71
审稿时长
26 days
期刊介绍: The purpose of the journal Computerized Medical Imaging and Graphics is to act as a source for the exchange of research results concerning algorithmic advances, development, and application of digital imaging in disease detection, diagnosis, intervention, prevention, precision medicine, and population health. Included in the journal will be articles on novel computerized imaging or visualization techniques, including artificial intelligence and machine learning, augmented reality for surgical planning and guidance, big biomedical data visualization, computer-aided diagnosis, computerized-robotic surgery, image-guided therapy, imaging scanning and reconstruction, mobile and tele-imaging, radiomics, and imaging integration and modeling with other information relevant to digital health. The types of biomedical imaging include: magnetic resonance, computed tomography, ultrasound, nuclear medicine, X-ray, microwave, optical and multi-photon microscopy, video and sensory imaging, and the convergence of biomedical images with other non-imaging datasets.
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