Scanning photoacoustic imaging of submucosal gastric tumor based on a long focused transducer in phantom and in vitro experiments
Hua-Qin Wu, Hao-Yu Wang, Wen-Ming Xie, Shu-Lian Wu, Zhi-Fang Li, Xiao-Man Zhang, Hui Li*. Scanning photoacoustic imaging of submucosal gastric tumor based on a long focused transducer in phantom and in vitro experiments[J]. Journal of Innovative Optical Health Sciences, 2019, 12(3): 1950011.
[1] R. L. Siegel, K. D. Miller, A. Jemal et al., “Cancer statistics, 2017," Ca A Cancer J. Clin. 67, 7–30 (2017).
[2] W. Q. Chen, R. T. Zheng, S. W. Zhang et al., “Report of cancer incidence and mortality in China," China Cancer 25, 1–10 (2012).
[3] A. Digklia and A. D. Wagner, “Advanced gastric cancer: Current treatment landscape and future perspectives," World J. Gastroenterol. 22, 2403–2414 (2016).
[4] E. C. Smyth, M. Verheij, W. Allum et al., “Gastric cancer: ESMO clinical practice guidelines for diagnosis, treatment and follow-up," Ann. Oncol. 27(5), 38–49 (2016).
[5] D. Yamaguchi, S. Kodashima, M. Fujishiro et al., “Evaluation of image-enhanced endoscopic technology using advanced diagnostic endoscopy for the detection of early gastric cancer: A pilot study," Endoscopy Int. Open 5(9), E825 (2017).
[6] K. Mandai and K. Yasuda, “Accuracy of endoscopic ultrasonography for determining the treatment method for early gastric cancer," Gastroenterol Res. Pract. 2012(2), 245390 (2012).
[7] J. M. Yang, C. Favazza, R. Chen et al., “Simultaneous functional photoacoustic and ultrasonic endoscopy of internal organs in vivo," Nat. Med. 18(8), 1297 (2012).
[8] L. H. Wang and H. Song, “Photoacoustic tomography: In vivo imaging from organelles to organs," Science 335(6075), 1458–1462 (2012).
[9] A. P. Jathoul, J. Laufer, O. Ogunlade et al., “Deep in vivo photoacoustic imaging of mammalian tissues using a tyrosinase-based genetic reporter," Nat. Photon. 9(4), 239 (2015).
[10] K. Jansen, A. F. Van, H. M. Beusekom et al., “Intravascular photoacoustic imaging of human coronary atherosclerosis," Opt. Lett. 36(5), 597–599 (2011).
[11] M. Xu and L. V. Wang, “Photoacoustic imaging in biomedicine," Rev. Sci. Instrum. 77, 041101 (2006).
[12] R. Li, P. Wang, L. Lan et al., “Assessing breast tumor margin by multispectral photoacoustic tomography," Biomed. Opt. Exp. 6, 1273–1281 (2015).
[13] X. H. Xu and H. Li, “Scanning photoacoustic mammography with a focused transducer featuring extended focal zone," Acta Phys. Sin. 57, 4623–4628 (2008).
[14] M. Ishihara, M. Shinchib, A. Horiguchi et al., “Possibility of transrectal photoacoustic imagingguided biopsy for detection of prostate cancer," Proc. SPIE, Vol. 2017, 10064, 100642U-1 (2017).
[15] K. Peng, L. He, B. Wang et al., “Detection of cervical cancer based on photoacoustic imaging — the in-vitro results," Biomed. Opt. Exp. 6, 135–143 (2015).
[16] L. Li, J. Xia, G. Li et al., “Label-free structural photoacoustic tomography of intact mouse brain," SPIE BiOS. Int. Soc. Opt. Photon. 9323, 93230M-11 (2015).
[17] S. Shang, Z. Chen, Y. Zhao et al., “Simultaneous imaging of atherosclerotic plaque composition and structure with dual-mode photoacoustic and optical coherence tomography," Opt. Exp. 25, 530 (2017).
[18] M. Jeon, J. Kim and C. Kim, “Multiplane spectroscopic whole-body photoacoustic imaging of small animals in vivo," Med. Biol. Eng. Comput. 54, 283 (2016).
[19] H. Wang, D. Xing and L. Xiang, “Photoacoustic imaging using an ultrasonic Fresnel zone plate transducer," J. Phys. D, Appl. Phys. 41, 095111 (2008).
[20] H. Li, P. Kumavor, A. U. Salman et al., “Utilizing spatial and spectral features of photoacoustic imaging for ovarian cancer detection and diagnosis," J. Biomed. Opt. 20, 16002 (2015).
[21] M. Lakshman and A. Needles, “Screening and quantification of the tumor microenvironment with micro-ultrasound and photoacoustic imaging," Nat. Meth. 12(4), iii–v (2015).
[22] A. Taruttis, A. C. Timmermans, P. C. Wouters et al., “Optoacoustic imaging of human vasculature: Feasibility by using a handheld probe," Radiology 281, 256 (2016).
[23] B. Z. Chen, J. G. Yang, D. Wu et al., “Photoacoustic imaging of cerebral hypoperfusion during acupuncture," Biomed. Opt. Exp. 6, 3225 (2015).
[24] J. M. Yang, K. Maslov, H. C. Yang et al., “Photoacoustic endoscopy," Opt. Lett. 34, 1591–1593 (2009).
[25] J. M. Yang, K. Maslov, H. C. Yang et al., “The human colorectal cancer tissue in vitro experimental study based on photoacoutic endoscopic system, Acta Phys. Sin. 63, 183–189 (2014).
[26] Y. Yuan, S. Yang and D. Xing, “Preclinical photoacoustic imaging endoscope based on acousto-optic coaxial system using ring transducer array," Opt. Lett. 35, 2266–2268 (2010).
[27] Y. P. Lin, Z. F. Li, Z. R. Li et al., “Real-time photoacoustic and ultrasonic dual-modality imaging system for early gastric cancer: Phantom and ex vivo studies," Opt. Commun. 426, 519–525 (2018).
[28] A. G. Bell, “On the production and reproduction of sound by light," Am. J. Sci. 118, 305–324 (1880).
[29] A. A. Oraevsky and A. A. Karabutov, “Optoacoustic tomography," Biomed. Photon. Handbook 34, 1–34 (2003).
[30] S. L. Hahn, Hilbert Transforms in Signal Processing, Artech House, Boston (1996).
[31] American National Standards Institute, American National Standard for the Safe Use of Lasers. ANSI Standard Z136.1 (American National Standards Institute, New York (2000).
[32] W. E. Vargas and G. A. Niklasson, “Applicability conditions of the Kubelka–Munk theory," Appl. Opt. 36, 5580–5586 (1997).
[33] S. Bao, Q. Wu, S. Sathornsumetee et al., “Stem cell–like glioma cells promote tumor angiogenesis through vascular endothelial growth factor," Cancer Res. 66(16), 7843–7848 (2006).
[34] B. D. Minsky, C. Mies, T. A. Rich et al., “Potentially curative surgery of colon cancer: The influence of blood vessel invasion," J. Clin. Oncol. 6(1), 119–127 (1988).
[35] X. Wang, W. W. Roberts, P. L. Carson et al., “Photoacoustic tomography: A potential new tool for prostate cancer," Biomed. Opt. Exp. 1(4), 1117 (2010).
Hua-Qin Wu, Hao-Yu Wang, Wen-Ming Xie, Shu-Lian Wu, Zhi-Fang Li, Xiao-Man Zhang, Hui Li*. Scanning photoacoustic imaging of submucosal gastric tumor based on a long focused transducer in phantom and in vitro experiments[J]. Journal of Innovative Optical Health Sciences, 2019, 12(3): 1950011.