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Laser & Optoelectronics Progress, Volume. 56, Issue 16, 161701(2019)

Application of Photoacoustic Elastography Technique in Arterial Blood-Pressure Monitoring

Xiaoman Zhang, Cuncheng Weng, Lili Zhu, Jianyong Cai, Shulian Wu, Zhifang Li, Huaqin Wu, and Hui Li*
Author Affiliations
  • College of Photonic and Electronic Engineering, Fujian Normal University, Fujian Provincial Engineering Technology Research Center for OptoElectric Sensing Applicaiton, Key Laboratory of OptoElectronic Science and Technology for Medicine of Ministry of Education, Fujian Provincial Key Laboratory of Photonics Technology, Ministry of Education, Fuzhou, Fujian 350007, China
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    [3] Sigrist R M S, Liau J, KaffasA E et al. . Ultrasound elastography: review of techniques and clinical applications[J]. Theranostics, 7, 1303-1329(2017).

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    [6] Li C H, Guan G Y, Cheng X et al. Quantitative elastography provided by surface acoustic waves measured by phase-sensitive optical coherence tomography[J]. Optics Letters, 37, 722-724(2012).

    [7] Zvietcovich F, Rolland J P, Yao J N et al. Comparative study of shear wave-based elastography techniques in optical coherence tomography[J]. Journal of Biomedical Optics, 22, 035010(2017).

    [8] Hai P F, Yao J J. LiG, et al. Photoacoustic elastography[J]. Optics Letters, 41, 725-728(2016).

    [9] Hai P F, Zhou Y, Gong L et al. Quantitative photoacoustic elastography in humans[J]. Journal of Biomedical Optics, 21, 066011(2016).

    [10] Ding Y, Yao Q K, Deng L J et al. Blood glucose noninvasive measurement based on photoacoustic technique[J]. Laser & Optoelectronics Progress, 55, 030009(2018).

    [11] Chen Z J, Yang S H, Xing D. Progress and application of photoacoustic microscopy technique[J]. Chinese Journal of Lasers, 45, 0307008(2018).

    [12] Wang C, Dong X N, Cai G et al. Photoacoustic elastography for biological tissue[J]. Chinese Journal of Lasers, 45, 0307010(2018).

    [13] Rosencwaig A, Griffiths P R. Photoacoustics and photoacoustic spectroscopy[J]. Physics Today, 34, 64-66(1981).

    [14] Xu X H, Li H. Scanning photoacoustic mammography with a focused transducer featuring extended focal zone[J]. Acta Physica Sinica, 57, 4623-4628(2008).

    [15] Neerken S, Lucassen G W, Bisschop M A et al. Characterization of age-related effects in human skin: acomparative study that applies confocal laser scanning microscopy and optical coherence tomography[J]. Journal of Biomedical Optics, 9, 274-281(2004).

    [16] Walecki W J, Lai K, Souchkov V et al. Novel noncontact thickness metrology for backend manufacturing of wide bandgap light emitting devices[J]. Physica Status Solidi (c), 2, 984-989(2005).

    [17] Xiao Z Y, Wu S L, Li H. Noninvasive measurement of epithelium thickness based on optical coherence tomography[J]. Acta Laser Biology Sinica, 18, 810-814(2009).

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    Xiaoman Zhang, Cuncheng Weng, Lili Zhu, Jianyong Cai, Shulian Wu, Zhifang Li, Huaqin Wu, Hui Li. Application of Photoacoustic Elastography Technique in Arterial Blood-Pressure Monitoring[J]. Laser & Optoelectronics Progress, 2019, 56(16): 161701

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    Paper Information

    Category: Medical Optics and Biotechnology

    Received: Jan. 14, 2019

    Accepted: Mar. 22, 2019

    Published Online: Aug. 5, 2019

    The Author Email: Hui Li (hli@fjnu.edu.cn)

    DOI:10.3788/LOP56.161701

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology