二次谐波生成虚拟活检图像中基于增强弗兰吉滤波的胶原纤维密度分析

2014 IEEE China Summit & International Conference on Signal and Information Processing (ChinaSIP) Pub Date : 2014-07-09 DOI:10.1109/ChinaSIP.2014.6889286

Cheng-Syun Cai, Chun-Fu Chen, G. Lee, Guan-Liang Lin, Sin-Yo Chou, Ming-Rung Tsai, Y. Liao, Chi‐Kuang Sun

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引用次数: 1

摘要

该算法基于增强的弗朗吉滤波，实现了对胶原纤维密度的自动评估。在光学虚拟活检中，二次谐波生成(SHG)显微镜已被开发并应用于观察人体皮肤真皮层的胶原纤维。胶原纤维密度是描述胶原纤维状况的特征，可为SHG图像的早期病理诊断和衰老特征提供指标。该算法能够客观有效地反映实验结果显示的虚拟活检图像中胶原纤维的紧密或松散分布。此外，所提出的方法为识别疾病早期症状与胶原纤维密度之间的相关性提供了见解。

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Density analysis of collagen fibers based on enhanced frangi filter in Second Harmonic Generation virtual biopsy images

The density of collagen fibers are automatically evaluated by the proposed algorithm based on enhanced Frangi filter. In optical virtual biopsy, Second Harmonic Generation (SHG) microscopy has been developed and applied to observe collagen fibers in the dermal layer of the human skin. The density of collagen fibers is a feature to describe the condition of collagen fibers which can provide indicator for the early pathological diagnosis and aging characteristic in SHG images. The proposed algorithm is capable of objectively and effectively reflecting that the distributions of collagen fibers are close or loose in virtual biopsy images as revealed by the experimental results. Moreover, the proposed method provides insight into identifying the correlation between the early symptoms of diseases and the density of collagen fibers.

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2014 IEEE China Summit & International Conference on Signal and Information Processing (ChinaSIP)

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