Objective evaluation method for enhanced effects of FICE images

doi:10.3785/j.issn.1008 973X.2015.10.026

JOURNAL OF ZHEJIANG UNIVERSITY (ENGINEERING SCIENCE)

CHEN Jing1, XU Min fen1, WANG Li qiang1, YUAN Bo1, DUAN Hui long2, TANG Jia1

1.State Key Laboratory of Modern Optical Instrumentation, Zhejiang University, Hangzhou 310027, China;2. Biomedical Engineering Institute, Zhejiang University, Hangzhou 310027, China

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Abstract

An objective evaluation method based on the statistics of brightness contrast was proposed according to the different enhanced effects of vessel contrast by the ten groups of wavelength of FICE. The blood vessel was marked out using Otsu method to count the brightness contrast of the pixels. Then the brightness contrast of the pixels in the area of blood vessels was accumulated. The greater accumulated value means the higher contrast of blood vessels of images. Results showed that the combination 2, 6, 1 were the three optimal wavelength combinations of FICE on the aspects of enhancing contrast of blood vessels. The method accorded with pathology diagnosis proven by statistical results, which provided an objective reference for clinical doctors to select FICE wavelength combination.

Published: 29 October 2015

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CHEN Jing, XU Min fen, WANG Li qiang, YUAN Bo, DUAN Hui long, TANG Jia. Objective evaluation method for enhanced effects of FICE images. JOURNAL OF ZHEJIANG UNIVERSITY (ENGINEERING SCIENCE), 2015, 49(10): 2013-2017.

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http://www.zjujournals.com/eng/10.3785/j.issn.1008 973X.2015.10.026 OR http://www.zjujournals.com/eng/Y2015/V49/I10/2013

用于FICE图像增强效果的客观评价方法

根据FICE 10组波长在增强黏膜微细血管对比度方面的不同增强效果,提出基于亮度对比度统计的客观评价方法.采用Otsu法对图像各像素亮度对比度进行统计来准确地标记出图像的血管区域,对血管区域各像素的亮度对比度进行累加,累加值越大,对应图像的血管对比度越高.统计数据表明：增强血管对比度效果最优的3个FICE波长组合依次是波段组合2、波段组合6以及波段组合1.该方法的统计结果符合病理学诊断结果,为临床医生在FICE波长组合选择方面提供了一种客观评价方法.

［1］ MIYAKE Y, KOUZU T, TAKEUCHI S, et al. Development of new electronic endoscopes using the spectral images of an internal organ ［J］. Color Imaging Conference, 2005, 13(3): 261-263.
［2］ NAKAGUCHI T, TSUMURA N, MIYAKE Y.Dynamic band imaging: image enhancement for endoscopic diagnosis ［J］. Journal of Imaging Science and Technology, 2008, 52(5): 1-7.
［3］ SAMBONGI M, IGARASHI M, OBI T, et al. Analysis of spectral reflectance using normalization method from endoscopic spectroscopy system ［J］. Optical Review, 2002, 9(6): 238-243.
［4］钱丽佳,李玉明.放大内镜下人工智能电子染色及窄带成像技术在消化道早癌诊断中的应用［J］.中国微循环,2009, 13(6): 621-623.
QIAN Li jia, LI Yu ming. Zoom in endoscopic artificial intelligence electronic dyeing and narrow band imaging in the diagnosis of digestive tract cancer early ［J］. Journal of Chinese Microcirculation, 2009, 13(6): 621-623.
［5］黄留业,刘运祥,吴承荣,等.FICE技术在大肠病变腺管开口分型及毛细血管形态观察中的价值［J］.世界华人消化杂志,2008, 16(26): 2952-2958.
HUANG Liu ye, LIU Yun xiang, WU Cheng rong, et al. Role of Fuji intelligent chromo endoscopy in observation of pit pattern and blood capillary form of coloniclesions ［J］. World Chinese Journal of Digestology, 2008, 16(26): 2952-2958.
［6］ OSAWA H, YAMAMOTO H. Present and future status of flexible spectral imaging color enhancement and blue laser imaging technology ［J］. Digestive Endoscopy, 2014, 26(Suppl.1): 105-115.
［7］ MIYAKI R, YOSHIDA S, TANAKA S, et al. Quantitative identification of mucosal gastric cancer undermagnifying endoscopy with flexible spectral imaging color enhancement ［J］. Journal of Gastroenterology and Hepatology, 2013, 28(5): 841-847.
［8］ KIKUSTE I, STIMA D, LIEPNIECE KARELE I, et al. The accuracy of flexible spectral imaging colour enhancement for the diagnosis of gastric intestinal metaplasia: do we still need histology to select individuals at risk for adenocarcinoma？［J］. European Journal of Gastroenterology and Hepatology, 2014, 26(7): 704-709.
［9］ CORIAT R, CHRYSSOSTALIS A, ZEITOUN J D, et al. Computed virtual chromoendoscopy system (FICE): a new tool for upper endoscopy？［J］. Gastroenterologie Clinique et Biologique, 2008, 32(4): 363-369.
［10］ POHL J, MAY A, RABENSTEIN T, et al. Computed virtual chromoendoscopy: a new tool for enhancing tissue surface structures ［J］. Endoscopy, 2007,39(1): 80-83.
［11］何辉,沈磊,罗和生,等.FICE技术10组波长对大肠息肉的诊断价值［J］.世界华人消化杂志, 2011, 19(16): 1735-1738.
HE Hui, SHEN Lei, LUO He sheng, et al. Value of Fuji intelligent chromo endoscopy under different channel settings in the diagnosis of colorectal polyps ［J］. World Chinese Journal of Digestology, 2011, 19(16): 1735-1738.
［12］ OTSU N. A threshold selection method from gray level histogram ［J］. IEEE Transactions on Systems, Man, Cybernetics, 1979, 9(1): 62-66.
［13］沈奕,钟捷,范荣.FICE技术应用于胃肠道病变的诊断［J］.国际消化病杂志, 2009, 29(5): 305-307.
SHEN Yi, ZHONG Jie, FAN Rong. Fuji intelligent chromo endoscopy is applied to the diagnosis of gastrointestinal tract ［J］. International Journal of Digestive Diseases, 2009, 29(5): 305-307.

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