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光声成像技术在生物医学中的研究进展

何军锋 谭毅

引用本文:
Citation:

光声成像技术在生物医学中的研究进展

    作者简介: 何军锋(1972- ),男,讲师,主要从事光声成像技术在生物医学中的应用研究.E-mail:hejunfeng@snut.edu.cn.
  • 基金项目:

    陕西省教育厅自然科学中青年科技人才培养计划资助项目(06JK330)

  • 中图分类号: Q433

Development of photoacoustic imaging technology in biomedicine

  • CLC number: Q433

  • 摘要: 简要介绍了生物医学中的光声成像技术机理,总结报道了国内外几种典型的光声成像方法和光声图像重建算法的发展历程及其最新进展,指出该技术是一种很有应用前景的医学检测方法。
  • [1]

    ORAEVSKY A A,KARABUTOV A A,SOLOMATIN S V et al.Laser optoacoustic imaging of breast cancer in vivo[J].Proc SPIE,2001,4256:6~14.
    [2]

    ORAEVSKY A A,SAVATEEVA E V,SOLOMATIN S V et al.Optoacoustic imaging of blood for visualization and diagnostics of breast cancer[J].Proc SPIE,2002,4618:81~94.
    [3]

    GUAN J F,SHEN Z H,XU B Q et al.Spectral analysis of the scattering waveform of the laser-generated ultrasonic waves for detecting the crack in the material[J].Laser Technology,2005,29(3):287~290(in Chinese).
    [4]

    SUZUKI K,YAMASHIITA Y,OHTA K et al.Quantitative messure-ment of optical parameters in normal breasts using time-resolved spectroscopy in vivoresults of 30 Japanese women[J].Journal Biomedical Optics,1996,1(3):330~334.
    [5]

    WANG X D,PANG Y J,WANG L H et al.Noninvasive laser-induced photoacoustic tomography for structural an functional in vivo imaging of the brain[J].Nature Biotechnology,2003,21(7):803~806.
    [6]

    WANG X D,PANG Y J,WANG L H et al.Three-dimensional laser-induced photoacoustic tomography of mouse brain with the skin and skull intact[J].Opt Lett,2003,28(19):1739~1741.
    [7]

    KU G,WANG L H.Deep penetrating photoacoustic tomography in biological tissues enhanced with an optical contrast agent[J].Opt Lett,2005,30(5):507~509.
    [8]

    WANG Y W,XIE X Y,WANG L H et al.Photoacoustic tomography ofa nanoshell contrast agent in the in vivo rat brain[J].Nano Letters,2004,4(9):1689~1692.
    [9]

    HOELEN C G A,de MUL F F M,PONGERS R et al.There-dimensional photoacoustic imaging of blood vessels in tissue[J].Opt Lett,1998,23(8):648~650.
    [10]

    HOELEN C G A,de MUL F F M.Image reconstruction for photoacoustic scanning of tissue structures[J].Appl Opt,2000,39(31):5872~5883.
    [11]

    KOLKMAN R G M,HONDEBRINK E,STEENBERGEN W et al.In vivo photoacoustic imaging of blood vessels using an extreme-narrow aperture sensor[J].IEEE Journal of Selected Topics in Quantum Electronics,2003,9(2):343~346.
    [12]

    KOLKMAN R G M,KLAESSENS J H G M,HONDEBRINK E et al.Photoacoustic determination of blood vessel diameter[J].Physics in Medicine and Biology,2004,49(20):4745~4756.
    [13]

    KOLKMAN R G,HONDEBRINK E,STEENBERGEN W et al.Photoacoustic imaging of blood vessels with a double-ring sensor featuring a narrow angular aperture[J].Journal Biomedical Optics,2004,9(6):1327~1335.
    [14]

    SIPHANTO R I,THUMMA K K,KOLKMAN R G M et al.Serialnoninvasive photoacoustic imaging of neovascularization in tumor angiogenesis[J].Optics Express,2005,13(1):89~95.
    [15]

    BEARD P C,MILLS T N.Extrinsic optical-fiber ultrasound sensor using a thin polymer film as a low-finesse Fabry-Perot interferometer[J].Appl Opt,1996,35(4):663~675.
    [16]

    BEARD P C.Photoacoustic imaging of blood vessel equivalent phantoms[J].Proc SPIE,2002,4618:54~62.
    [17]

    KRUGER R A,KISER W L,REINECKE D R et al.Thermoacoustic computed tomography using a conventional lineartransducer array[J],Medical Physics,2003,30(5):856~860.
    [18]

    KORNEL P S,FRENZ M,WEBER H P et al.Optoacoustic tomography:time-gated measurement of pressure distributions and image reconstruction[J].Appl Opt,2001,40(22):3800~3809.
    [19]

    YIN B Zh,XING D,WANG Y et al.Fast photoacoustic imaging system based on 320-element linear transducer array[J].Physics in Medicine and Biology,2004,49(7):1339~1346.
    [20]

    ZENG Y G,XING D,WANG Y et al.Photoacoustic and ultrasonic coimage with a linear transducer array[J].Opt Lett,2004,29(15):1760~1762.
    [21]

    YANG D W,XING D,GU H M et al.Fast multielement phase-controlled photoacoustic imaging based on limited-field-filtered back-projection algorithm[J].A P L,2005,87(19):194101~194103.
    [22]

    YANG D W,XING D,TAN Y et al.Integrative prototype B-scan photoacoustic tomography system based on a novel hybridized scanning head[J].A P L,2006,88(17):174101~174103.
    [23]

    XU X F,TANG Zh L,WANG J et al.Study on acoustic lens imaging of photoacoustic signal[J].Acta Optica Sinica,2003,23(9):1105~1109(in Chinese).
    [24]

    LI L Y,ZHENG Ch J,TANG Zh L et al.Binary acoustics study on optoacoustic imaging lens[J].Acta Optica Sinica,2005,25(10):1313~1318 (in Chinese).
    [25]

    KRUGER R A,REINECKE D R,KRUGER G A et al.Thermoacoustic computed tomography-technical considerations[J].Medical Physica,1999,26(9):1832~1837.
    [26]

    WANG Y,XING D,ZENG Y G et al.Photoacoustic imaging with deconvolution algorithm[J].Physics in Medicine and Biology,2004,49(4):3117~3124.
    [27]

    KöSTLI K P,MARTIN F,BEBIE H et al.Temporal backward projection of optoacoustic pressure transients using Fourier transform methods[J].Physica Medica,2001,46(7):1863~1872.
    [28]

    YANG D W,XING D,WANG Y et al.Limited-view scanning photoacoustic imaging based on algebraic reconstruction techniques[J].Acta Optica Sinica,2005,25(6):772~776(in Chinese).
    [29]

    YUAN Z,ZHAO H Zh,WU Ch F et al.Finite-element-based photoacoustic tomography:phantom and chicken bone experiments[J].Appl Opt,2006,45(13):3177~3183.
    [30]

    BENJAMIN T C,SIMON R A,KORNEL P K et al.Two-dimensional quantitative photoacoustic image reconstruction of absorption distributions in scattering media by use of a simple iterative method[J].Appl Opt,2006,45(8):1866~1875.
    [31]

    TAN Y,XING D,WANG Y et al.Photoacoustic imaging with attenuation rectification of different frequent components of photoacoustic signal[J].Acta Photonica Sinica,2005,34(7):1019~1022(in Chinese).
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出版历程
  • 收稿日期:  2006-06-28
  • 录用日期:  2006-09-01
  • 刊出日期:  2007-10-25

光声成像技术在生物医学中的研究进展

    作者简介: 何军锋(1972- ),男,讲师,主要从事光声成像技术在生物医学中的应用研究.E-mail:hejunfeng@snut.edu.cn
  • 1. 陕西理工学院 物理系 汉中 723003
基金项目:  陕西省教育厅自然科学中青年科技人才培养计划资助项目(06JK330)

摘要: 简要介绍了生物医学中的光声成像技术机理,总结报道了国内外几种典型的光声成像方法和光声图像重建算法的发展历程及其最新进展,指出该技术是一种很有应用前景的医学检测方法。

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