[1] D. Huang, E. A. Swanson, C. P. Lin et al., "Optical coherence tomography," Science 254(5035), 1178–1181 (1991).
[2] M. E. Brezinski, G. J. Tearney, B. E. Bouma et al., "Imaging of coronary artery microstructure (in vitro) with optical coherence tomography," Am. J. Cardiol. 77(1), 92–93 (1996).
[3] A. P. Burke, A. Farb, G. T. Malcom et al., "Coronary risk factors and plaque morphology in men with coronary disease who died suddenly," New Engl. J. Med. 336(18), 1276–1282 (1997).
[4] H. Yabushita, B. E. Bouma, S. L. Houser et al., "Characterization of human atherosclerosis by optical coherence tomography," Circulation 106(13), 1640–1645 (2002).
[5] C. Xu, J. M. Schmitt, S. G. Carlier et al., "Characterization of atherosclerosis plaques by measuring both backscattering and attenuation coefficients in optical coherence tomography," J. Biomed. Opt. 13(3), 034003 (2008).
[6] G. J. Ughi, T. Adriaenssens, P. Sinnaeve et al., "Automated tissue characterization of in vivo atherosclerotic plaques by intravascular optical coherence tomography images," Biomed. Opt. Exp. 4(7), 1014–1030 (2013).
[7] L. S. Athanasiou, C. V. Bourantas, G. Rigas et al., "Methodology for fully automated segmentation and plaque characterization in intracoronary optical coherence tomography images," J. Biomed. Opt. 19(2), 026009 (2014).
[8] M. Xu, J. Cheng, D. W. K. Wong et al., "Automatic image classification in intravascular optical coherence tomography images," Proc. TENCON 2016 - 2016 IEEE Region 10 Conf. (Singapore, 2016), pp. 1544–1547.
[9] N. Gessert, M. Heyder, S. Latus et al., "Adversarial training for patient-independent feature learning with IVOCT data for plaque classification" (2018), arXiv:1805.06223.
[10] E. Mehanna, H. G. Bezerra, D. Prabhu et al., "Volumetric characterization of human coronary calcification by frequency-domain optical coherence tomography," Circ. J. 77(9), 2334–2340 (2013).
[11] A. Fujino, G. Mintz, M. Matsumura et al., "A new optical coherence tomography-based calcium scoring system to predict stent under-expansion," J. Am. College Cardiol. 70(18), B12-B3 (2018).
[12] S. G. Van, T. Goderie, E. Regar et al., "Atherosclerotic tissue characterization in vivo by optical coherence tomography attenuation imaging," J. Biomed. Opt. 15(1), 011105 (2010).
[13] W. C. Kuo, M. W. Hsiung, J. J. Shyu et al., "Assessment of arterial characteristics in human atherosclerosis by extracting optical properties from polarization-sensitive optical coherence tomography," Opt. Exp. 16(11), 8117–8125 (2008).
[14] J. M. Schmitt, A. Knuttel, M. Yadlowsky et al., "Optical-coherence tomography of a dense tissue: Statistics of attenuation and backscattering," Phys. Med. Biol. 39(10), 1705–1720 (1994).
[15] G. T. Smith, N. Dwork, D. O'connor et al., "Depthresolved estimation of the attenuation coefficient from optical coherence tomography data," IEEE Trans. Med. Imaging 34(12), 2592–2602 (2015).
[16] L. Thrane, H. T. Yura, P. E. Andersen, "Analysis of optical coherence tomography systems based on the extended Huygens-Fresnel principle," J. Opt. Soc. Am. A 17(3), 484–490 (2000).
[17] C. C. Cheng, M. G. Raymer, "Propagation of transverse optical coherence in random multiple-scattering media," Phys. Rev. A 62, 1–12 (2000).
[18] H. T. Yura, S. G. Hanson, "Optical beam wave propagation through complex optical systems," J. Opt. Soc. Am. A 4(10), 1931–1948 (1987).
[19] K. A. Vermeer, J. Mo, J. J. A. Weda et al., "Depthresolved model-based reconstruction of attenuation coefficients in optical coherence tomography," Biomed. Opt. Exp. 5(1), 322–337 (2013).
[20] S. Liu, Y. Sotomi, J. Eggermont et al., "Tissue characterization with depth-resolved attenuation coefficient and backscatter term in intravascular optical coherence tomography images," J. Biomed. Opt. 22(9), 1–16 (2017).
[21] C.-E. Bisaillon, M. L. Dufour et al., "Artery phantoms for intravascular optical coherence tomography: Healthy arteries," Biomed. Opt. Exp. 2(9), 2599–2613 (2011).
[22] C.-E. Bisaillon, G. Lamouche, "Artery phantoms for intravascular optical coherence tomography: Diseased arteries," J. Biomed. Opt. 18(9), 6010 (2013).
[23] G. Lamouche, B. F. Kennedy, K. M. Kennedy et al., "Review of tissue simulating phantoms with controllable optical, mechanical and structural properties for use in optical coherence tomography," Biomed. Opt. Exp. 3(6), 1381–1398 (2012).