使用N3和视网膜平面空间对黄斑光学相干断层扫描进行强度不均匀性校正

INTENSITY INHOMOGENEITY CORRECTION OF MACULAR OCT USING N3 AND RETINAL FLATSPACE.

作者信息

Lang Andrew, Carass Aaron, Jedynak Bruno M, Solomon Sharon D, Calabresi Peter A, Prince Jerry L

机构信息

Dept. of Electrical and Computer Engineering, The Johns Hopkins University, Baltimore, MD.

Dept. of Mathematics and Statistics, Portland State University, Portland, OR.

出版信息

Proc IEEE Int Symp Biomed Imaging. 2016 Apr;2016:197-200. doi: 10.1109/ISBI.2016.7493243. Epub 2016 Jun 16.

DOI:10.1109/ISBI.2016.7493243

PMID:27695603

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5042207/

Abstract

As optical coherence tomography (OCT) has increasingly become a standard modality for imaging the retina, automated algorithms for processing OCT data have become necessary to do large scale studies looking for changes in specific layers. To provide accurate results, many of these algorithms rely on the consistency of layer intensities within a scan. Unfortunately, OCT data often exhibits inhomogeneity in a given layer's intensities, both within and between images. This problem negatively affects the performance of segmentation algorithms and little prior work has been done to correct this data. In this work, we adapt the N3 framework for intensity inhomogeneity correction, which was originally developed to correct MRI data, to work for macular OCT data. We first transform the data to a flattened macular space to create a template intensity profile for each layer giving us an accurate initial estimate of the gain field. N3 will then produce a smoothly varying field to correct the data. We show that our method is able to both accurately recover synthetically generated gain fields and improves the stability of the layer intensities.

摘要

随着光学相干断层扫描（OCT）日益成为视网膜成像的标准方式，用于处理OCT数据的自动化算法对于开展寻找特定层变化的大规模研究变得至关重要。为了提供准确的结果，许多此类算法依赖于扫描内各层强度的一致性。不幸的是，OCT数据在给定层的强度方面常常表现出不均匀性，无论是在图像内部还是图像之间。这个问题对分割算法的性能产生负面影响，并且此前几乎没有开展过纠正此类数据的工作。在这项研究中，我们采用最初为校正MRI数据而开发的N3强度不均匀性校正框架，使其适用于黄斑OCT数据。我们首先将数据转换为扁平的黄斑空间，为每层创建一个模板强度剖面，从而为增益场提供准确的初始估计。然后，N3将生成一个平滑变化的场来校正数据。我们表明，我们的方法既能准确恢复合成生成的增益场，又能提高层强度的稳定性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7dbe/5042207/f6d8185785a4/nihms786252f1.jpg

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Proc SPIE Int Soc Opt Eng. 2014;9034. doi: 10.1117/12.2043040.

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