从光学相干层析成像中提取色散信息

2016 IEEE International Symposium on Signal Processing and Information Technology (ISSPIT) Pub Date : 2016-12-01 DOI:10.1109/ISSPIT.2016.7886015

Christos Photiou, Evgenia Bousi, C. Pitris, I. Zouvani

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引用次数: 0

摘要

色散是由波长相关的折射率变化引起的，可以用来检测与癌症相关的变化，从而进行早期和准确的诊断。研究了光学相干断层扫描(OCT)图像色散估计的不同技术，以评估其对肌肉和脂肪组织等样品的准确性和适用性。色散是通过(i)点扩散函数(PSF)退化，(ii)在不同中心波长拍摄的图像之间的移位(漂移)和(iii)光谱相位的二阶导数来估计的。本文还提出了一种利用wiener型反卷积算法从图像散斑中计算PSF退化的新技术，该技术既适用于体内，也适用于原位。该方法应用于一组正常和肿瘤胃肠道OCT图像，灵敏度为93%，特异性为73%。这些初步结果的成功表明了利用离散度测量进行疾病诊断的潜力。

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Extracting dispersion information from Optical Coherence Tomography images

Dispersion, resulting from wavelength-dependent index of refraction variations, could be used to detect changes associated with cancer for early and accurate diagnosis. Different techniques for estimating the dispersion from Optical Coherence Tomography (OCT) images were investigated to evaluate their accuracy and applicability to samples such as muscle and adipose tissue. The dispersion was estimated from (i) the point spread function (PSF) degradation, (ii) the shift (walk-off) between images taken at different center wavelengths and (iii) the second derivative of the spectral phase. A novel technique, which uses a Wiener-type deconvolution algorithm to calculate the PSF degradation from the image speckle and is, therefore, applicable in vivo and in situ is also presented. This method was applied to a set of normal and cancer gastrointestinal OCT images resulting in 93% sensitivity and 73% specificity. The success of these preliminary results indicates the potential of using dispersion measurements for disease diagnosis.

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2016 IEEE International Symposium on Signal Processing and Information Technology (ISSPIT)

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