Study on microscope hyperspectral medical imaging method for biomedical quantitative analysis 被引量：6

Study on microscope hyperspectral medical imaging method for biomedical quantitative analysis

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摘要 A microscopic pushbroom hyperspectral imaging system was developed based on the microscopic technology and spectral imaging technology according to the principle of spectral imager in remote sensing. The basic principle and key technologies of this system were presented and the system per- formance was also analyzed. Some methods and algorithms were proposed to preprocess and nor- malize the microscopic hyperspectral data and retrieve the transmittance spectrum of samples. As a case study, the microscopic hyperspectral imaging system was used to image the retina sections of different rats and get some significant results. Experiment results show that the system can be used for the quantitative assessment and evaluating the effect of medication in biomedical research. A microscopic pushbroom hyperspectral imaging system was developed based on the microscopic technology and spectral imaging technology according to the principle of spectral imager in remote sensing. The basic principle and key technologies of this system were presented and the system per- formance was also analyzed. Some methods and algorithms were proposed to preprocess and nor- malize the microscopic hyperspectral data and retrieve the transmittance spectrum of samples. As a case study, the microscopic hyperspectral imaging system was used to image the retina sections of different rats and get some significant results. Experiment results show that the system can be used for the quantitative assessment and evaluating the effect of medication in biomedical research.

作者 LI QingLi XUE YongQi XIAO GongHai ZHANG JingFa

机构地区 Key Laboratory of Polor Materials and Devices Shanghai Institute of Technical Physics aboratory of Development and Diseases School of Medicine

出处《Chinese Science Bulletin》 SCIE EI CAS 2008年第9期1431-1434,共4页

关键词显微镜数量分析糖尿病性视网膜病变医学成像技术 hyperspectral, microscope, quantitative analysis, diabetic retinopathy

分类号 R587.1 [医药卫生—内分泌] R445 [医药卫生—影像医学与核医学]

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参考文献10

1肖功海,舒嵘,薛永祺.显微高光谱成像系统的设计[J].光学精密工程,2004,12(4):367-372. 被引量：35
2李红波,舒嵘,薛永祺.PHI超光谱成像系统及其海洋遥感应用前景分析[J].红外与毫米波学报,2002,21(6):429-433. 被引量：20
3Tuan V D,,David L S,Nusundi B W, et al.A hyperspectral imaging system for in vivo optical diagnostics[].IEEE Engineering in Medicine and Biology Magazine.2004
4Martin A A,James B C,David M H.Multispectral imaging of burn wounds: A new clinical instrument for evaluating burn depth[].IEEE T Bio-Med Eng.1988
5Costas B.A novel optical imaging method for the early detection,quantitative grading, and mapping of cancerous and precancerous le- sions of cervix[].IEEE T Bio-Med Eng.2001
6Martinez L.A non-invasive spectral reflectance method for mapping blood oxygen saturation in wounds[].Proceedings of the st Ap- plied Imagery Pattern Recognition Workshop.2002
7Seong G K,Zheng D,Matthew M, et al.Hyperspectral fluorescence image analysis for use in medical diagnostics, advanced biomedical and clinical diagnostic systems III[].Proceedings of SPIE the International Society for Optical Engineering.2005
8Matt E M,Wabuyelea M B,Panjehpourb M, et al.Dual modality fluorescence and reflectance hyperspectral imaging: Principle and applications[].Proceedings of SPIE the International Society for Optical Engineering.2005
9LI Hong Bo SHU Rong XUE Yong Qi (Shanghai Institute of Technical Physics,Chinese Academy of Sciences,Shanghai 200083,China).PUSHBROOM HYPERSPECTRAL IMAGER AND ITS POTENTIAL APPLICATION TO OCEANOGRAPHIC REMOTE SENSING[].Journal of Infrared and Millimeter Waves.2002
10XIAO Gong-hai,SHU Rong,XUE Yong-qi (Shanghai Institute of Technical Physics,The Chinese Academy of Sciences,Shanghai 200083,China).Design of microscopic hyperspectral imaging system[].Optics and Precision Engineering.2004

二级参考文献17

1SCHROCK E, MANOIR S, VELDMAN T, et al.Multicolor spectral karyotyping of human chromosomes[J].Science, 1996,273(26):494-497.
2ROGER A S, THOMAS N, JEFF R Z, et al. Hyperspectral imaging: A novel approach for microscopic analysis[J]. Cytometry, 2001,43(4):239-247.
3MICHAEL L H, ROGER A S, HAROLD R G. Characteristics and capabilities of the hyperspectral imaging microscope[J]. IEEE Engineering in Medicine and Biology, 2002,21(4):104-117.
4ANTONIS P, DFSTATHIOS S, GEORGE D, et al. A Novel spectral microscope system: application in quantitative pathology[J]. IEEE Transactions on Biomedical Engineering, 2003, 50(2):207-217.
5RICHARD M L, PAUL J C, NEAL R H. Spectral imaging and biomedicine: new devices, new approaches[C]. Proceedings of the 31st Applied Imagery Pattern Recognition Workshop (AIPR'02), 2002.
6TOKUKO H, TAKESHI S, NORIYO H, et al. Spectral imaging fluorescence microscopy[J]. Genes to Cells, 2002, 7:881-887.
7BARBER P R, VOJNOVIC B, ATKIN G, et al. Applications of cost-effective spectral imaging microscopy in cancer research[J]. J. Phys. D: Appl. Phys., 2003, 36:1729-1738.
8RICHARD L O, MARK B W, DOROTHY A E. Analysis of stained objects in histological sections by spectral imaging and differential absorption[J]. The Journal of Histochemistry & Cytochemistry, 1999, 47(10):1307-1313.
9AIKIO M. An optical component[P]. Finnish Patent No: 90289,1994.
10朱华伟.[D].中国科学院上海技术物理研究所,2001.

共引文献50

1刘东奇,鄢小卿,惠王伟,王槿,孔勇发.荧光显微光谱成像系统及教学设计[J].物理与工程,2022,32(6):5-10.
2王迪峰,潘德炉,龚芳,白雁.高光谱成像仪AISA+应用试验[J].仪器仪表学报,2006,27(z2):1167-1169. 被引量：3
3钱乐祥,泮学芹,赵芊.中国高光谱成像遥感应用研究进展[J].国土资源遥感,2004,16(2):1-6. 被引量：33
4王跃明,刘银年.高帧频面阵CCD探测器应用技术研究[J].红外与毫米波学报,2006,25(1):50-55. 被引量：6
5彭志红,张淳民.显微偏振干涉成像光谱仪中景深对系统分辨力的影响[J].光学学报,2006,26(2):239-243. 被引量：5
6张雷,黄廉卿,赵唯佳.一种超光谱图像分层压缩方法[J].光学精密工程,2006,14(3):478-484. 被引量：7
7束炯,王强,孙娟.高光谱遥感的应用研究[J].华东师范大学学报（自然科学版）,2006(4):1-10. 被引量：14
8李庆利,薛永祺,王建宇,白智全.PHI高光谱图像的大气校正算法[J].红外与毫米波学报,2006,25(4):316-320. 被引量：8
9苏星,田维坚,张淳民.新型显微成像光谱仪系统中线阵针孔离焦研究[J].光学技术,2006,32(5):729-731.
10苏星,田维坚,张淳民.显微成像光谱仪技术的研究及应用[J].光学技术,2006,32(6):820-823. 被引量：9

同被引文献44

1郭宁宁,曾立波,吴琼水,张燕,刘茜,常静.一种细胞分割新方法[J].计算机应用研究,2006,23(3):141-143. 被引量：2
2文戈,张雪林.分子影像学研究现状及展望[J].放射学实践,2006,21(8):863-865. 被引量：5
3[1]Vo-Dinh T,Stokes D L,Wabuyele M B,et al.A hyperspectral imaging system for in vivo optical diagnotics[J].IEEE Engineering in Medicine and Biology Magazine,2004,40-49.
4[3]Hunt G R,Electromagnetic radiation:The Communication Link in Remote Sensing[M].In:Siegal B,Gillespie A,eds.Remote Sensing in Geology,New York:Wiley,1980,702.
5[4]Goetz A F H,Rowan L C.Geological remote seining[J].Science,1981,211:781-791.
6[6]Neelam G.A No-moving-Parts UV/Visible Hyperspectral Imager[C].In:James O J,Theriault J M,eds.Proceedings of SPIE,Chemical and Biological Standoff Detection.Bellingham:International Society for Optical Engineering,2004.5268:89-95.
7[7]Neelam G.Acousto-optic-tonable-filter-based spectropolarmetric imagers for medical diagnostic applications-instrument design point of view.Journal of Biomedical Optics,2005,10(5):051802.
8[8]Martin M E,Wabuyele M,Panjehpour M,et al.An AOTF-besed dual-modality hyperspectral imaging system (DMHSI) capable of simultaneous fluorescence and reflectance imaging[J].Medical Engineering & Physics,2006,28(2):149-155.
9[9]Ornherg R L,Woemer B M,Edwards D A.Analysis of stained objects in histological sections by spectral imaging and differential absorption[J].Journal of Histochemistry & Cytochemistry,1999,47(10):1307-1313.
10[10]Balas C.A novel optical imaging method for the early detection,quantitative grading,and mapping of cancerous and precancerons lesions of cervix[J].IEEE Transactions on Biomedical Engineering,2001,48(1):96-106.

引证文献6

1李庆利.医学成像光谱技术研究进展[J].影像科学与光化学,2008,26(6):507-515. 被引量：8
2戴春妮,李庆利,刘锦高.一种基于超光谱的血细胞分类方法[J].计算机应用研究,2011,28(11):4370-4372. 被引量：1
3YANG HongLei,PENG JunHuan,XIA BaiRu,ZHANG DingXuan.An improved EM algorithm for remote sensing classification[J].Chinese Science Bulletin,2013,58(9):1060-1071. 被引量：5
4谌春仙,常岚,李伟,唐博.基于医学高光谱显微图像光谱空间信息的血细胞分类[J].中国医学物理学杂志,2017,34(9):912-919. 被引量：2
5张慧娥,叶萍,李光,杜连云,张哲,沈彦龙,谭鑫,王恩鹏.高光谱成像技术在医药领域中的应用进展研究[J].药物分析杂志,2021,41(8):1360-1367. 被引量：3
6张亦哲,陈丽群,闫并乡,吕智超,郑国锋,李嘉康,马晃伟,张春光,王号.舌象分析便携式声光高光谱成像技术[J].福光技术,2023,45(2):46-49.

二级引证文献19

1李金城,刘真.CIECAM02色貌模型研究进展[J].影像科学与光化学,2009,27(5):391-398. 被引量：3
2李家星,林凌,宋俊生,商铁成,李刚.中医证候定量诊断的研究现状与思路概述[J].中医杂志,2010,51(10):950-952. 被引量：11
3刘洪英,李庆利,顾彬,王依婷,薛永祺.新型分子高光谱成像系统性能分析及数据预处理[J].光谱学与光谱分析,2012,32(11):3161-3166. 被引量：8
4梁曼,黄富荣,何学佳,陈星旦.荧光光谱成像技术结合聚类分析及主成分分析的藻类鉴别研究[J].光谱学与光谱分析,2014,34(8):2132-2136. 被引量：17
5于翠荣,王天然,李胜,张德贤,张建波,王新全,齐敏珺.高光谱成像技术用于肝切片癌变信息的提取[J].科学技术与工程,2015,35(27):106-109. 被引量：3
6于翠荣,王新全,齐敏珺,夏玮玮.光谱及光谱成像技术在生物医学领域的应用[J].量子电子学报,2015,32(6):641-647. 被引量：5
7孙华艳,李业丽,字云飞,韩旭.基于分类的加速EM缺失数据填充算法[J].北京印刷学院学报,2019,27(2):61-65. 被引量：2
8魏巍,崔继承,唐玉国,孙慈,潘明忠.医用显微成像光谱仪的光谱定标技术[J].光学精密工程,2016,24(5):1015-1020. 被引量：5
9司访,曹娜,吕登飞.人与四种实验动物血液图像分析方法综述[J].赤峰学院学报（自然科学版）,2018,34(7):104-105. 被引量：2
10孙华艳,李业丽,字云飞,韩旭,管欣鑫,周楚风.基于分类的加速EM缺失数据填充算法[J].北京印刷学院学报,2018,26(9):98-102. 被引量：1

1CRTER杂志稿件修改重点——结果部分[J].中国组织工程研究与临床康复,2009,13(31):6128-6128.
2CRTER杂志稿件修改重点——结果部分[J].中国组织工程研究与临床康复,2009,13(17):3386-3386.
3CRTER杂志稿件修改重点——结果部分[J].中国组织工程研究与临床康复,2009,13(9):1738-1738.
4张阳,沈丽娟,王长谦,刘金保,杨光筠,李晓红,叶兴丽,史纯莲,李国辉.盐酸戊乙奎醚治疗乌头碱中毒所致心律失常的体会[J].新医学,2011,42(9):601-602. 被引量：3
5吴春泉.大剂量心得安治疗28例甲状腺功能亢进性心脏病临床疗效观察[J].现代诊断与治疗,2014,25(19):4447-4448.
6吕景燕,张永珍.医院联合用药品种数量分析[J].海峡药学,1994,6(2):54-54. 被引量：2
7王淑琴.静脉留置针应用技巧[J].医学信息,2012,25(7):419-420.
8董永欣,时秋英.维持性血液透析患者体力活动水平研究现状[J].护士进修杂志,2014,29(19):1799-1801. 被引量：3
9杨荣,唐红英.历年护理学论文数量分析[J].中华护理杂志,2004,39(5):381-381. 被引量：3
10卿思.除了喝酒还有什么能让你亢奋[J].西南航空,2013(12):74-75.

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2008年第9期

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