视网膜血管造影中病变后新血管形成的量化框架

2008 5th IEEE International Symposium on Biomedical Imaging: From Nano to Macro Pub Date : 2008-05-14 DOI:10.1109/ISBI.2008.4541282

S. Takerkart, Romain Fenouil, Jérome Piovano, A. Reynaud, L. Hoffart, F. Chavane, T. Papadopoulo, J. Conrath, G. Masson

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引用次数: 9

摘要

我们描述了一个图像处理框架，旨在检测和量化微观脉络膜血管的起源。我们使用荧光素血管造影监测视网膜新血管形成的动态后，诱发病变与校准激光脉冲。血管新生可以通过病变的总体荧光水平和/或扩散大小的增加来显示。所提出的框架允许测量从不同增益和对比度获得的不对齐血管造影的两个特征。它包括对齐所有图像，均匀化其强度特征和分割病变。特别地，我们实现了一种水平集分割算法来描绘扩散区域。我们表明，当这些特征中的一个变化小于10%时，我们的框架允许检测新血管化。

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A quantification framework for post-lesion neo-vascularization in retinal angiography

We describe an image processing framework designed to detect and quantify the genesis of microscopic choroidal blood vessels. We used fluorescein angiography to monitor the dynamic of neo-vascularization of the retina after inducing lesions with a calibrated laser pulse. The angiogenesis can be revealed by an increase in the overall fluorescence level and/or diffusion size of the lesion. The proposed framework allows measuring both features from mis-aligned angiograms acquired with different gains and contrasts. It consists in aligning all the images, homogenizing their intensity characteristics and segmenting the lesions. In particular, we implemented a level set segmentation algorithm to delineate the diffusion area. We show that our framework allows detecting neo-vascularization when one of these features changes by less than 10%.

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2008 5th IEEE International Symposium on Biomedical Imaging: From Nano to Macro

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