Shuwen Wei, Yihao Liu, Zhangxing Bian, Yuli Wang, Lianrui Zuo, Peter A Calabresi, Shiv Saidha, Jerry L Prince, Aaron Carass
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引用次数: 0
Abstract
Optical coherence tomography (OCT) is a valuable imaging technique in ophthalmology, providing high-resolution, cross-sectional images of the retina for early detection and monitoring of various retinal and neurological diseases. However, discrepancies in retinal layer thickness measurements among different OCT devices pose challenges for data comparison and interpretation, particularly in longitudinal analyses. This work introduces the idea of a recurrent self fusion (RSF) algorithm to address this issue. Our RSF algorithm, built upon the self fusion methodology, iteratively denoises retinal OCT images. A deep learning-based retinal OCT segmentation algorithm is employed for downstream analyses. A large dataset of paired OCT scans acquired on both a Spectralis and Cirrus OCT device are used for validation. The results demonstrate that the RSF algorithm effectively reduces speckle contrast and enhances the consistency of retinal OCT segmentation.
光学相干断层扫描(OCT)是眼科领域一项重要的成像技术,可提供高分辨率的视网膜横截面图像,用于早期检测和监测各种视网膜和神经系统疾病。然而,不同 OCT 设备在视网膜层厚度测量方面的差异给数据比较和解释带来了挑战,尤其是在纵向分析中。这项工作引入了循环自融合(RSF)算法的理念来解决这一问题。我们的 RSF 算法建立在自我融合方法的基础上,对视网膜 OCT 图像进行迭代去噪。基于深度学习的视网膜 OCT 分割算法被用于下游分析。在 Spectralis 和 Cirrus OCT 设备上获取的成对 OCT 扫描的大型数据集用于验证。结果表明,RSF 算法能有效降低斑点对比度,提高视网膜 OCT 分段的一致性。
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