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shmak : Curriculum Vitae

Peer-reviewed publications

Kurokawa, K., Makita, S. & Yasuno, Y. Investigation of Thermal Effects of Photocoagulation on Retinal Tissue Using Fine-Motion-Sensitive Dynamic Optical Coherence Tomography. PLOS ONE 11, e0156761 (2016).

Makita, S., Kurokawa, K., Hong, Y.-J., Miura, M. & Yasuno, Y. Noise-immune complex correlation for optical coherence angiography based on standard and Jones matrix optical coherence tomography. Biomed. Opt. Express 7, 1525–1548 (2016).

Chan, A. C., Kurokawa, K., Makita, S., Miura, M. & Yasuno, Y. Maximum a posteriori estimator for high-contrast image composition of optical coherence tomography. Opt. Lett. 41, 321–324 (2016).

Sugiyama, S. et al. Birefringence imaging of posterior eye by multi-functional Jones matrix optical coherence tomography. Biomed. Opt. Express 6, 4951–4974 (2015).

Kurokawa, K., Makita, S., Hong, Y.-J. & Yasuno, Y. In-plane and out-of-plane tissue micro-displacement measurement by correlation coefficients of optical coherence tomography. Opt. Lett. 40, 2153–2156 (2015).

Makita, S. & Yasuno, Y. In vivo photothermal optical coherence tomography for non-invasive imaging of endogenous absorption agents. Biomed. Opt. Express 6, 1707–1725 (2015).

Hong, Y.-J., Makita, S., Sugiyama, S. & Yasuno, Y. Optically buffered Jones-matrix-based multifunctional optical coherence tomography with polarization mode dispersion correction. Biomed. Opt. Express 6, 225–243 (2015).

Kurokawa, K., Makita, S., Hong, Y.-J. & Yasuno, Y. Two-dimensional micro-displacement measurement for laser coagulation using optical coherence tomography. Biomed. Opt. Express 6, 170–190 (2015).

Makita, S., Hong, Y.-J., Miura, M. & Yasuno, Y. Degree of polarization uniformity with high noise immunity using polarization-sensitive optical coherence tomography. Opt. Lett. 39, 6783–6786 (2014).

10.

Hong, Y.-J. et al. Simultaneous Investigation of Vascular and Retinal Pigment Epithelial Pathologies of Exudative Macular Diseases by Multifunctional Optical Coherence Tomography. Invest. Ophthalmol. Vis. Sci. 55, 5016–5031 (2014).

11.

Kasaragod, D. et al. Bayesian maximum likelihood estimator of phase retardation for quantitative polarization-sensitive optical coherence tomography. Opt. Express 22, 16472–16492 (2014).

12.

巻田修一. 光コヒーレンストモグラフィによる血管造影. 視覚の科学 34, 75–79 (2013).

13.

Makita, S., Jaillon, F., Jahan, I. & Yasuno, Y. Noise statistics of phase-resolved optical coherence tomography imaging: single-and dual-beam-scan Doppler optical coherence tomography. Opt. Express 22, 4830–4848 (2014).

14.

Ju, M. J. et al. Advanced multi-contrast Jones matrix optical coherence tomography for Doppler and polarization sensitive imaging. Opt. Express 21, 19412–19436 (2013).

15.

Ohno, Y. et al. Thickness mapping of the inner retina by spectral-domain optical coherence tomography in an N-methyl-d-aspartate-induced retinal damage model. Exp. Eye Res. 113, 19–25 (2013).

16.

Hong, Y.-J. et al. Noninvasive Investigation of Deep Vascular Pathologies of Exudative Macular Diseases by High-Penetration Optical Coherence Angiography. Invest. Ophthalmol. Vis. Sci. 54, 3621–3631 (2013).

17.

Miura, M., Makita, S., Iwasaki, T. & Yasuno, Y. An Approach to Measure Blood Flow in Single Choroidal Vessel Using Doppler Optical Coherence Tomography. Invest. Ophthalmol. Vis. Sci. 53, 7137–7141 (2012).

18.

Kurokawa, K., Sasaki, K., Makita, S., Hong, Y.-J. & Yasuno, Y. Three-dimensional retinal and choroidal capillary imaging by power Doppler optical coherence angiography with adaptive optics. Opt. Express 20, 22796–22812 (2012).

19.

Yamanari, M. et al. Optical Rheology of Porcine Sclera by Birefringence Imaging. PLoS ONE 7, e44026 (2012).

20.

Sasaki, K., Kurokawa, K., Makita, S. & Yasuno, Y. Extended depth of focus adaptive optics spectral domain optical coherence tomography. Biomed. Opt. Express 3, 2353–2370 (2012).

21.

Nagase, S. et al. High-Penetration Optical Coherence Tomography With Enhanced Depth Imaging of Polypoidal Choroidal Vasculopathy. Ophthalmic Surg. Lasers Imaging 43, e5–9 (2012).

22.

Makita, S., Jaillon, F., Yamanari, M. & Yasuno, Y. Dual-beam-scan Doppler optical coherence angiography for birefringence-artifact-free vasculature imaging. Opt. Express 20, 2681–2692 (2012).

23.

Hong, Y.-J. et al. High-penetration swept source Doppler optical coherence angiography by fully numerical phase stabilization. Opt. Express 20, 2740–2760 (2012).

24.

杉坂純一郎 et al. 複素数値処理による，線集光型in-focusフーリエドメイン光コヒーレンストモグラフィー. 光学 34, 481 (2005).

25.

遠藤隆史 et al. 線集光型フーリエドメイン干渉計による形状計測. 光学 34, 220 (2005).

26.

巻田修一, 安野嘉晃, 遠藤隆史, 伊藤雅英 & 谷田貝豊彦. ジョーンズ型フーリエドメイン光コヒーレンストモグラフィーによる生体組織の複屈折断層計測. 光学 34, 103–108 (2005).

27.

Makita, S., Yasuno, Y., Endo, T., Itoh, M. & Yatagai, T. Jones Matrix Imaging of Biological Samples Using Parallel-Detecting Polarization-Sensitive Fourier Domain Optical Coherence Tomography. Opt. Rev. 12, 146–148 (2005).

28.

Yasuno, Y., Sutoh, Y., Makita, S., Itoh, M. & Yatagai, T. Polarization Sensitive Spectral Interferometric Optical Coherence Tomography for Biological Samples. Opt. Rev. 10, 498–500 (2003).

29.

Makita, S., Yasuno, Y., Sutoh, Y., Itoh, M. & Yatagai, T. Polarization-Sensitive Spectral Interferometric Optical Coherence Tomography for Human Skin Imaging. Opt. Rev. 10, 366–369 (2003).

30.

Yasuno, Y. et al. In-focus Fourier-domain Optical Coherence Tomography by Complex Numerical Method. Opt. Quant. Elect. 37, 1185–1189 (2005).

31.

Yasuno, Y. et al. Real Time and Full-range Complex Fourier Domain Optical Coherence Tomography. Opt. Quant. Elect. 37, 1157–1163 (2005).

32.

Yasuno, Y. et al. Non-mechanically-axial-scanning confocal microscope using adaptive mirror switching. Opt. Express 11, 54–60 (2003).

33.

Yasuno, Y. et al. Wavefront-flatness evaluation by wavefront-correlation-information-entropy method and its application for adaptive confocal microscope. Opt. Commun. 232, 91–97 (2004).

34.

Yasuno, Y. et al. Three-dimensional line-field Fourier domain optical coherence tomography for in vivo dermatological investigation. J. Biomed. Opt. 11, 014014 (2006).

35.

Fabritius, T. E. J., Makita, S., Yamanari, M., Myllyla, R. A. & Yasuno, Y. Complex Conjugate Resolved Retinal Imaging by One-micrometer Spectral Domain Optical Coherence Tomography Using an Electro-optical Phase Modulator. J. Opt. Soc. Korea 15, 111–117 (2011).

36.

Hangai, M. et al. Three-dimensional Imaging of Macular Holes with High-speed Optical Coherence Tomography. Ophthalmology 114, 763–773 (2007).

37.

Ojima, Y. et al. Three-dimensional Imaging of the Foveal Photoreceptor Layer in Central Serous Chorioretinopathy Using High-speed Optical Coherence Tomography. Ophthalmology 114, 2197–2207.e1 (2007).

38.

Yasuno, Y. et al. Visualization of Sub-retinal Pigment Epithelium Morphologies of Exudative Macular Diseases by High-Penetration Optical Coherence Tomography. Invest. Ophthalmol. Vis. Sci. 50, 405–413 (2009).

39.

Miyazawa, A. et al. Tissue discrimination in anterior eyeusing three optical parameters obtained by polarization sensitive optical coherence tomography. Opt. Express 17, 17426–17440 (2009).

40.

Makita, S., Jaillon, F., Yamanari, M., Miura, M. & Yasuno, Y. Comprehensive in vivo micro-vascular imaging of the human eye by dual-beam-scan Doppler optical coherence angiography. Opt. Express 19, 1271–1283 (2011).

41.

Makita, S., Fabritius, T. & Yasuno, Y. Full-range, high-speed, high-resolution 1-µm spectral-domain optical coherence tomography using BM-scan for volumetric imaging of the human posterior eye. Opt. Express 16, 8406–8420 (2008).

42.

Yamanari, M., Miura, M., Makita, S., Yatagai, T. & Yasuno, Y. Phase retardation measurement of retinal nerve fiber layer by polarization-sensitive spectral-domain optical coherence tomography and scanning laser polarimetry. J. Biomed. Opt. 13, 014013 (2008).

43.

Fabritius, T., Makita, S., Hong, Y., Myllyla, R. & Yasuno, Y. Automated retinal shadow compensation of optical coherence tomography images. J. Biomed. Opt. 14, 010503 (2009).

44.

Yasuno, Y. et al. Visibility of trabecular meshwork by standard and polarization-sensitive optical coherence tomography. J. Biomed. Opt. 15, 061705 (2010).

45.

Miura, M., Makita, S., Iwasaki, T. & Yasuno, Y. Three-Dimensional Visualization of Ocular Vascular Pathology by Optical Coherence Angiography In Vivo. Invest. Ophthalmol. Vis. Sci. 52, 2689–2695 (2011).

46.

Miura, M. et al. Imaging Polarimetry in Age-Related Macular Degeneration. Invest. Ophthalmol. Vis. Sci. 49, 2661–2667 (2008).

47.

Yasuno, Y. et al. Non-iterative numerical method for laterally superresolving Fourier domain optical coherence tomography. Opt. Express 14, 1006–1020 (2006).

48.

Kotera, Y. et al. Comparison of spectral domain optical coherence tomography and color photographic imaging of the optic nerve head in management of glaucoma. Ophthalmic Surg. Lasers Imaging 40, 255–263 (2009).

49.

Yamanari, M., Makita, S. & Yasuno, Y. Polarization-sensitive swept-source optical coherence tomography with continuous source polarization modulation. Opt. Express 16, 5892–5906 (2008).

50.

Yasuno, Y., Makita, S., Sutoh, Y., Itoh, M. & Yatagai, T. Birefringence imaging of human skin by polarization-sensitive spectral interferometric optical coherence tomography. Opt. Lett. 27, 1803–1805 (2002).

51.

Jaillon, F., Makita, S., Yabusaki, M. & Yasuno, Y. Parabolic BM-scan technique for full range Doppler spectral domain optical coherence tomography. Opt. Express 18, 1358–1372 (2010).

52.

Yasuno, Y. et al. Spectral interferometric optical coherence tomography with nonlinear beta-barium borate time gating. Opt. Lett. 27, 403–405 (2002).

53.

Kurokawa, K., Tamada, D., Makita, S. & Yasuno, Y. Adaptive optics retinal scanner for one-micrometer light source. Opt. Express 18, 1406–1418 (2010).

54.

Yasuno, Y. et al. Simultaneous B-M-mode scanning method for real-time full-range Fourier domain optical coherence tomography. Appl. Opt. 45, 1861–1865 (2006).

55.

Makita, S., Fabritius, T. & Yasuno, Y. Quantitative retinal-blood flow measurement with three-dimensional vessel geometry determination using ultrahigh-resolution Doppler optical coherence angiography. Opt. Lett. 33, 836–838 (2008).

56.

Fabritius, T., Makita, S., Miura, M., Myllylä, R. & Yasuno, Y. Automated segmentation of the macula by optical coherence tomography. Opt. Express 17, 15659–15669 (2009).

57.

Duan, L., Makita, S., Yamanari, M., Lim, Y. & Yasuno, Y. Monte-Carlo-based phase retardation estimator for polarization sensitive optical coherence tomography. Opt. Express 19, 16330–16345 (2011).

58.

Yasuno, Y. et al. Three-dimensional and high-speed swept-source optical coherence tomography for in vivo investigation of human anterior eye segments. Opt. Express 13, 10652–10664 (2005).

59.

Yamanari, M., Makita, S., Lim, Y. & Yasuno, Y. Full-range polarization-sensitive swept-source optical coherence tomography by simultaneous transversal and spectral modulation. Opt. Express 18, 13964–13980 (2010).

60.

Iwasaki, T. et al. Three-dimensional optical coherence tomography of proliferative diabetic retinopathy. Br. J. Ophthalmol. 92, 713 (2008).

61.

Yamanari, M., Lim, Y., Makita, S. & Yasuno, Y. Visualization of phase retardation of deep posterior eye by polarization-sensitive swept-source optical coherence tomography with1-µm probe. Opt. Express 17, 12385–12396 (2009).

62.

Yasuno, Y. et al. In vivo high-contrast imaging of deep posterior eye by 1-µm swept source optical coherence tomography and scattering optical coherence angiography. Opt. Express 15, 6121–6139 (2007).

63.

Makita, S., Yamanari, M. & Yasuno, Y. Generalized Jones matrix optical coherence tomography: performance and local birefringence imaging. Opt. Express 18, 854–876 (2010).

64.

Jaillon, F., Makita, S., Min, E.-J., Lee, B. H. & Yasuno, Y. Enhanced imaging of choroidal vasculature by high-penetration and dual-velocity optical coherence angiography. Biomed. Opt. Express 2, 1147–1158 (2011).

65.

Yamanari, M., Makita, S., Madjarova, V. D., Yatagai, T. & Yasuno, Y. Fiber-based polarization-sensitive Fourier domain optical coherence tomography using B-scan-oriented polarization modulation method. Opt. Express 14, 6502–6515 (2006).

66.

Fabritius, T., Myllylä, R., Makita, S. & Yasuno, Y. Wettability characterization method based on optical coherence tomography imaging. Opt. Express 18, 22859–22866 (2010).

67.

Endo, T., Yasuno, Y., Makita, S., Itoh, M. & Yatagai, T. Profilometry with line-field Fourier-domain interferometry. Opt. Express 13, 695–701 (2005).

68.

Hori, Y. et al. Automatic characterization and segmentation of human skin using three-dimensional optical coherence tomography. Opt. Express 14, 1862–1877 (2006).

69.

Makita, S., Yasuno, Y., Endo, T., Itoh, M. & Yatagai, T. Polarization contrast imaging of biological tissues by polarization-sensitive Fourier-domain optical coherence tomography. Appl. Opt. 45, 1142–1147 (2006).

70.

Yasuno, Y. et al. One-shot-phase-shifting Fourier domain optical coherence tomography by reference wavefront tilting. Opt. Express 12, 6184–6191 (2004).

71.

Miura, M. et al. Three-dimensional anterior segment optical coherence tomography of filtering blebs after trabeculectomy. J. Glaucoma 17, 193–196 (2008).

72.

Nakamura, Y. et al. High-speed three-dimensional human retinal imaging by line-field spectral domain optical coherence tomography. Opt. Express 15, 7103–7116 (2007).

73.

Makita, S., Hong, Y., Yamanari, M., Yatagai, T. & Yasuno, Y. Optical coherence angiography. Opt. Express 14, 7821–7840 (2006).

74.

Kurokawa, K. et al. Simultaneous high-resolution retinal imaging and high-penetration choroidal imaging by one-micrometer adaptive optics optical coherence tomography. Opt. Express 18, 8515–8527 (2010).

75.

Yasuno, Y., Makita, S., Endo, T., Itoh, M. & Yatagai, T. Polarization-sensitive complex Fourier domain optical coherence tomography for Jones matrix imaging of biological samples. Appl. Phys. Lett. 85, 3023–3025 (2004).

76.

Hong, Y. et al. Three-dimensional visualization of choroidal vessels by using standard and ultra-high resolution scattering optical coherence angiography. Opt. Express 15, 7538–7550 (2007).

77.

Jaillon, F., Makita, S. & Yasuno, Y. Variable velocity range imaging of the choroid with dual-beam optical coherence angiography. Opt. Express 20, 385–396 (2012).

78.

Agawa, T. et al. Choroidal thickness measurement in healthy Japanese subjects by three-dimensional high-penetration optical coherence tomography. Graefe’s Arch. Clin. Exp. Ophthalmol. 249, 1485–1492 (2011).

Books

巻田修一. in 前眼部画像診断A to Z: OCT・角膜形状・波面収差の読み方 (メジカルビュー社, 2016).

Yasuno, Y., Makita, S. & Jaillon, F. in Optical Coherence Tomography (eds. Drexler, W. & Fujimoto, J. G.) 1353–1371 (Springer International Publishing, 2015).

Yasuno, Y. et al. in Optical Coherence Tomography (eds. Drexler, W. & Fujimoto, J. G.) 1137–1162 (Springer International Publishing, 2015).

Theses

Makita, S. High-speed spectral-domain optical coherence tomography and in vivo human eye imaging. (University of Tsukuba, 2007).

Makita, S. Biological measurement by complex spectral-interferometric optical coherence tomography (Japanese). (University of Tsukuba, 2004).

Conference proceedings

Makita, S., Hong, Y.-J. & Yasuno, Y. Toward absorption contrast imaging of biological tissues in vivo by using photothermal optical coherence tomography. in Proc. SPIE 8934, 893434 (SPIE, 2014).

Kurokawa, K., Makita, S., Hong, Y.-J. & Yasuno, Y. Quantitative two-dimensional micro-displacement measurement by optical coherence tomography. in Proc. SPIE 8934, 89340V (2014).

Jaillon, F., Makita, S. & Yasuno, Y. Choroidal imaging by one-micrometer dual-beam Doppler optical coherence angiography with adjustable velocity range. in Proc. SPIE 8209, 82090M (SPIE, 2012).

Lim, Y. et al. Office based multi-functional anterior eye segment optical coherence tomography. in Proc. SPIE 8214, 82140Y (SPIE, 2012).

Makita, S., Hong, Y., Yamanari, M., Yatagai, T. & Yasuno, Y. Optical coherence angiography for the human eye. Proc. SPIE 6429, 64290C (2007).

Makita, S., Yamanari, M., Miura, M. & Yasuno, Y. High-sensitive blood flow imaging of the retina and choroid by using double-beam optical coherence angiography. Proc. SPIE 7550, 75500E (2010).

Makita, S., Fabritius, T., Miura, M., Yatagai, T. & Yasuno, Y. Retinal blood flow measurement by using optical coherence tomography. Proc. SPIE 6847, 68470J (2008).

Makita, S. et al. Three-dimensional measurement by high-speed line-field Fourier-domain optical coherence tomography in vivo. Proc. SPIE 6079, 607911 (2006).

Makita, S., Fabritius, T., Miura, M. & Yasuno, Y. Full-range, high-speed, high-resolution 1 μm spectral-domain optical coherence tomography with BM-scan method for the human posterior eye imaging. Proc. SPIE 7139, 713914 (2008).

10.

Makita, S., Yamanari, M. & Yasuno, Y. High-speed and high-sensitive optical coherence angiography. Proc. SPIE 7372, 73721M (2009).

11.

Makita, S. et al. Optical coherence angiography for the retina and choroid. Proc. SPIE 6627, 66271O (2007).

12.

Makita, S., Fabritius, T. & Yasuno, Y. Blood flow imaging at deep posterior human eye using 1 μm spectral-domain optical coherence tomography. Proc. SPIE 7168, 716808 (2009).

13.

Makita, S. et al. One-shot-phase-shifting full-range Fourier domain optical coherence tomography by reference wavefront tilting. Proc. SPIE 5690, 127–131 (2005).

14.

Makita, S., Yamanari, M. & Yasuno, Y. In vivo depth-resolved tissue contrast by local birefringence and differential optic axis orientation using polarization-sensitive swept-source optical coherence tomography. Proc. SPIE 7168, 71682H (2009).

15.

Yamanari, M., Miura, M., Makita, S., Yatagai, T. & Yasuno, Y. Phase retardation measurement of retinal nerve fiber layer using polarization-sensitive spectral domain optical coherence tomography and scanning laser polarimetry. Proc. SPIE 6627, 66270I (2007).

16.

Jaillon, F., Makita, S. & Yasuno, Y. BM-mode scanning with parabolic phase modulation for full range Doppler optical tomography. Proc. SPIE 7554, 755413 (2010).

17.

Yamanari, M., Makita, S. & Yasuno, Y. Polarization-sensitive swept-source optical coherence tomography at 1m for birefringence imaging of the posterior segment of the eye. Proc. SPIE 7168, 716817 (2009).

18.

Nakamura, Y. et al. Optimization of line-field spectral domain optical coherence tomography for in vivo high-speed 3D retinal imaging. Proc. SPIE 6429, 64291P (2007).

19.

Hangai, M. et al. Clinical application of high-contrast three-dimensional imaging of the retina, choroid, and optic nerve with three-dimensional Fourier domain optical coherence tomography. Proc. SPIE 6138, 613806 (2006).

20.

Endo, T. et al. Line-field Fourier-domain optical coherence tomography. Proc. SPIE 5690, 168–173 (2005).

21.

Yasuno, Y. et al. Enhancement of lateral resolution of Fourier domain optical coherence tomography over diffraction-limit by defocus-detection and numerical compensation. Proc. SPIE 6079, 607918 (2006).

22.

Hong, Y. et al. Phase-insensitive optical coherence angiography. Proc. SPIE 6426, 64260A (2007).

23.

Yamanari, M., Miura, M., Makita, S., Yatagai, T. & Yasuno, Y. Birefringence measurement of retinal nerve fiber layer using polarization-sensitive spectral domain optical coherence tomography with Jones matrix based analysis. Proc. SPIE 6429, 64292M (2007).

24.

Kurokawa, K., Sasaki, K., Makita, S. & Yasuno, Y. Adaptive optics spectral domain optical coherence tomography with one-micrometer light source. Proc. SPIE 7554, 75540E (2010).

25.

Yamanari, M. et al. Polarization sensitive Fourier domain optical coherence tomography with continuous polarization modulation. Proc. SPIE 6079, 60792A (2006).

26.

Fabritius, T. et al. Full range 1-μm spectral domain optical coherence tomography by using electro-optical phase modulator. Proc. SPIE 6847, 68471S (2008).

27.

Fabritius, T. et al. Numerical method for compensating the retinal shadows of optical coherence tomography images. Proc. SPIE 6847, 68472A (2008).

28.

Yasuno, Y. et al. High-speed and line-feed Fourier domain optical coherence tomography. Proc. SPIE 5856, 307–311 (2005).

29.

Fabritius, T., Makita, S., Myllylä, R. & Yasuno, Y. Automated retinal pigment epithelium identification from optical coherence tomography images. Proc. SPIE 7168, 716827 (2009).

30.

Miyazawa, A. et al. Tissue discrimination in anterior eye using three optical parameters obtained by polarization sensitive optical coherence tomography. Proc. SPIE 7550, 75500P (2010).

31.

Madjarova, V. D. et al. Investigations of soft and hard tissues in oral cavity by spectral domain optical coherence tomography. Proc. SPIE 6079, 60790N (2006).

32.

Sakai, S. et al. Three-dimensional evaluation of in vivo human skin by spectral domain and swept source optical coherence tomography. Proc. SPIE 6078, 60780H (2006).

33.

Yasuno, Y. et al. High-speed full-range Fourier domain optical coherence tomography by simultaneous B-M-mode scanning. Proc. SPIE 5690, 137–142 (2005).

34.

Yamanari, M., Makita, S., Yatagai, T. & Yasuno, Y. Polarization-sensitive swept-source optical coherence tomography with continuous polarization modulation. Proc. SPIE 6847, 68471J (2008).

35.

Yamanari, M., Makita, S., Miura, M. & Yasuno, Y. Simultaneous birefringence and Doppler flow imaging of the anterior eye segment using multi-functional swept-source optical coherence tomography. Proc. SPIE 7163, 71630M (2009).

36.

Yasuno, Y. et al. Scattering optical coherence angiography with 1-μm swept source optical coherence tomography. Proc. SPIE 6627, 66271N (2007).

37.

Yasuno, Y., Hong, Y., Makita, S., Miura, M. & Yatagai, T. Phase-insensitive optical coherence angiography of the choroid by 1-micrometer band swept-source optical coherence tomography. Proc. SPIE 6429, 642905 (2007).

38.

Yasuno, Y. et al. Investigation of anterior chamber angle by swept-source polarization sensitive optical coherence tomography. Proc. SPIE 7163, 71630O (2009).

39.

Yasuno, Y., Makita, S., Endo, T., Itoh, M. & Yatagai, T. Parallel detection polarization-sensitive spectrally interferometric polarization-sensitive OCT. Proc. SPIE 5316, 306–313 (2004).

40.

Kurokawa, K., Makita, S. & Yasuno, Y. 1 μm wavelength adaptive optics scanning laser ophthalmoscope. Proc. SPIE 7163, 71630I (2009).

41.

Yasuno, Y. et al. Laterally oranges super-resolving optical coherence tomography by intentional defocus and numerical compensation. Proc. SPIE 5861, 58610A (2005).

42.

Yasuno, Y. et al. Three-dimensional investigation of in vivo anterior eye segments by swept-source optical coherence tomography with ready-for-shipping scanning light source. Proc. SPIE 6079, 60790W (2006).

43.

Yasuno, Y. et al. Investigation of retinal microstructure by adaptive optics scanning laser ophthalmoscope with 1-micrometer wavelength probe. Proc. SPIE 7367, 736704 (2009).

44.

Yamanari, M., Makita, S., Lim, Y. H. & Yasuno, Y. Full range polarization-sensitive swept-source optical coherence tomography at 1 μm with polarization modulation and BM-mode scant. Proc. SPIE 7554, 75541N (2010).

45.

Fabritius, T., Makita, S., Miura, M., Yasuno, Y. & Myllylä, R. Fast retinal layer identification for optical coherence tomography images. Proc. SPIE 7889, 788933 (2011).

46.

Sakai, S. et al. In vivo analysis of human skin anisotropy by polarization-sensitive optical coherence tomography. Proc. SPIE 7883, 78830Q (2011).

47.

Sasaki, K. et al. Wide field of view retinal imaging using one-micrometer adaptive optics scanning laser ophthalmoscope. Proc. SPIE 7931, 793106 (2011).

Conferences

巻田修一 et al. OCT による非侵襲血管造影法. (2006).

巻田修一, 三浦雅博 & 安野嘉晃. Doppler OCT による網膜絶対血流計測. (2007).

巻田修一 et al. 100 dB フーリエドメインOCTによる in vivo 3次元眼底計測. (2005).

巻田修一 et al. 高速ドップラーフーリエドメインOCTによる in vivo 網膜断層計測. (2005).

巻田修一, 安野嘉晃, 遠藤隆史, 伊藤雅英 & 谷田貝豊彦. 高速フーリエドメインOCTによる人皮膚組織の in vivo 断層動画計測. (2004).

巻田修一, 安野嘉晃, 須藤泰範, 伊藤雅英 & 谷田貝豊彦. 偏光感受型スペクトル干渉OCTを用いた皮膚計測. (2002).

巻田修一, 安野嘉晃, 伊藤雅英 & 谷田貝豊彦. 並列偏光感受型スペクトル干渉OCTによる生体観察. (2003).

巻田修一, 安野嘉晃, 遠藤隆史, 伊藤雅英 & 谷田貝豊彦. 参照波面傾斜法による位相シフトスペクトル干渉光コヒーレンストモグラフィー. (2003).

Makita, S., Yamanari, M., Miura, M. & Yasuno, Y. High-speed, high-sensitive Doppler optical coherence angiography. (2009).

10.

Makita, S., Fabritius, T. & Yasuno, Y. Full-range SD-OCT for blood ﬂow imaging of the posterior eye at 1-µm. (2008).

11.

Makita, S., Hong, Y., Yamanari, M., Yatagai, T. & Yasuno, Y. Noninvasive blood vessel imaging of the human eye by optical coherence angiography. (2006).

12.

Makita, S., Yasuno, Y., Sutoh, Y., Itoh, M. & Yatagai, T. Measurement of fish bone by polarization-sensitive spectral-interferometric OCT. (2002).

13.

Makita, S., Yasuno, Y., Endo, T., Itoh, M. & Yatagai, T. Jones matrix imaging of biological samples using parallel detecting polarization sensitive spectrally interferometric optical coherence tomography. (2004).

14.

Sando, Y. et al. In-focus Fourier-domain optical coherence tomography by complex numerical method. (2004).

15.

Makita, S., Yasuno, Y., Endo, T., Itoh, M. & Yatagai, T. Double-Channel Polarization Sensitive Spectrally Interferometric Optical Coherence Tomography Using Ultrashort Pulse Laser. (2003).

16.

Makita, S. Imaging of biological tissues using parallel polarization-sensitive spectral interferometric optical coherence tomography. (2003).

17.

Makita, S., Yamanari, M., Cense, B., Miura, M. & Yasuno, Y. Microvasculature imaging by using double-beam Doppler optical coherence angiography. (2011).

18.

Makita, S., Yamanari, M., Miura, M. & Yasuno, Y. High-sensitive blood ﬂow imaging of the retina and choroid by using double-beam optical coherence angiography. (2010).

19.

20.

Makita, S., Fabritius, T. & Yasuno, Y. Blood ﬂow imaging at deep posterior human eye using 1 µm spectral-domain optical coherence tomography. (2009).

21.

Makita, S., Fabritius, T., Miura, M., Yatagai, T. & Yasuno, Y. Retinal blood ﬂow measurement by using optical coherence tomography. (2008).

22.

Makita, S., Hong, Y., Yamanari, M., Yatagai, T. & Yasuno, Y. Optical coherence angiography for the human eye. (2007).

23.

Makita, S. et al. Three-dimensional measurement by high-speed line-field Fourier-domain optical coherence tomography. (2006).

24.

Makita, S. et al. One-shot-phase-shifting full range Fourier domain optical coherence tomography by reference wavefront tilting. (2005).

25.

Makita, S. Optical coherence angiography: three-dimensional blood flow imaging of the human eye. (2009).

26.

Makita, S., Yamanari, M., Miura, M. & Yasuno, Y. Depth-resolved local birefringence imaging with polarization-sensitive OCT. (2008).

27.

Makita, S., Hong, Y., Miura, M., Yatagai, T. & Yasuno, Y. Doppler optical coherence angiography. (2006).

28.

巻田修一 et al. スペクトラルドメイン光コヒーレンストモグラフィーによるヒト網膜計測への応用. (2005).

29.

Nakamura, Y. et al. In-vivo High-Speed 3D Retinal Imaging by Line Field Spectral Domain OCT. (2007).

30.

Yamanari, M. et al. Polarization-Sensitive Imaging of Choroid and Lamina Cribrosa With High-Penetration Polarization-Sensitive Optical Coherence Tomography. (2010).

31.

Miyazawa, A. et al. Tissue Contrast Imaging of Anterior Eye Based on Optical Properties Measured by Polarization Sensitive Optical Coherence Tomography. (2010).

32.

Miyazawa, A. et al. Discrimination of Conjunctiva and Sclera by Analysis of Local Statistics of Polarization Sensitive Optical Coherence Tomography Images. (2009).

33.

Miura, M. Optical Coherence Angiography for Polypoidal Choroidal Vasculopathy. (2010).

34.

Jaillon, F. Choroid Contrast Enhancement by Combining 1-Micron SD-OCT and Robust Mirror Image Removal. (2010).

35.

Miura, M. In vivo Human Choroidal Blood Flow Quantification With 1-µm Spectral-Domain Optical Coherence Tomography. (2009).

36.

Makita, S., Jaillon, F., Cense, B., Miura, M. & Yasuno, Y. In Vivo Non-invasive Microvascular Imaging by Doppler Optical Coherence Angiography. (2011).

37.

Jaillon, F. Choroidal Vasculature Visualization Using High-sensitive And High-penetration Optical Coherence Angiography. (2011).

38.

Yamanari, M. Three-Dimensional Birefringence Imaging of the Optic Nerve Head With High-Penetration Polarization-Sensitive Optical Coherence Tomography at 1 µm Wavelength. (2009).

39.

Miura, M. Human Choroidal Blood Flow Measurement with Pulse Synchronization. (2011).

40.

Sasaki, K. Wide Field Retinal Imaging By Adaptive Optics Scanning Laser Ophthalmoscope. (2011).

41.

Makita, S. et al. Doppler Optical Coherence Angiography for Retinal Vessels. (2007).

42.

Makita, S., Miura, M. & Yasuno, Y. Three-Dimensional Blood Flow Imaging of the Human Posterior Eye With High-Speed, High-Sensitive Doppler Optical Coherence Angiography. (2009).

43.

Hong, Y. Choroidal Vessel Segmentation With Scattering Optical Coherence Angiography. (2007).

44.

Yasuno, Y. Retinal, Choroidal, and Scleral Imaging by 1 Micrometer Band High-Penetraion Fourier Domain Oct and High-Contrast 3d Imaging of Choroidal Vasculature by Scattering Optical Coherence Angiography. (2007).

45.

Yamanari, M. Retinal Birefringence Measurement With Polarization Sensitive Fourier Domain Optical Coherence Tomography. (2006).

46.

Kurokawa, K. High Penetration and High Resolution Adaptive Optics Spectral Domain Optical Coherence Tomography With One-Micrometer Probe. (2010).

47.

Inoue, R. Three Dimensional Imaging of Glaucomatous Optic Disc With Fourier Domain Optical Coherence Tomography. (2006).

48.

Makita, S., Fabritius, T., Miura, M. & Yasuno, Y. Quantitative Retinal Blood Flow Measurement by Doppler Optical Coherence Angiography. (2008).

49.

Agawa, T. Three-dimensional Choroidal Thickness Profile With Early Treatment Diabetic Study Layout. (2011).

50.

Gotoh, N. Three-Dimensional Fourier Domain OCT of Age-Related Macular Degeneration: Comparison With Conventional OCT. (2006).

51.

Yasuno, Y. Super Enhanced Depth Imaging of Choroid by High-Penetration Optical Coherence Tomography. (2010).

52.

Yasuno, Y. Standard- and High-Resolution Investigation of Age-Related Macular Degeneration by High-Penetration Optical Coherence Tomography With One Micrometer Probe. (2009).

53.

Yasuno, Y. Visualization of Pathologies Under Retinal Pigment Epithelium in Exudative Macular Diseases by High-Penetration Optical Coherence Tomography at 1 Micrometer Wavelength. (2008).

54.

Kotera, Y. Fundus Image Obtained by Fourier Domain Optical Coherence Tomography for Glaucomatous Optic Disc. (2007).

55.

Yamanari, M. Birefringence Measurement of Retinal Nerve Fiber Layer by Polarization-sensitive Spectral Domain Optical Coherence Tomography and the Comparison With Scanning Laser Polarimetry. (2007).

56.

Yasuno, Y. Ultra-High Speed and Three-Dimensional Imaging of Anterior Eye Segments by Swept-Source OCT. (2006).

57.

Makita, S., Miura, M., Yamanari, M. & Yasuno, Y. Wide-Field and High-Contrast Imaging of Retinal and Choroidal Vasculature by High-Sensitive Doppler Optical Coherence Angiography. (2010).

58.

Sasaki, K. Visualization of Retinal Microstructures by Adaptive Optics Scanning Laser Ophthalmoscope With One-Micrometer Probe. (2010).

59.

Makita, S. et al. Three Dimensional Retinal Structure and Vasculature Imaging by Doppler Analysis With High-Speed Spectral-Domain Optical Coherence Tomography. (2006).

60.

Fabritius, T. E. High-Penetration, High-Resolution and Wide Range Volumetric Imaging of the Human Retina and Choroid With Spectral-Domain Optical Coherence Tomography at 1-µm Band. (2008).

61.

Duan, L. Exact Phase Retardation Measurement Of Posterior Eye Using Polarization-sensitive Optical Coherence Tomography. (2011).

62.

Kurokawa, K. Structural and Doppler Imaging of Posterior Eye by High-Speed, Penetration, and Resolution Adaptive Optics Optical Coherence Tomography. (2011).

63.

Kurokawa, K. Visualization of Human Photoreceptors Using 1 µm Wavelength Adaptive Optics Scanning Laser Ophthalmoscope. (2009).

64.

Hong, Y.-J. Choroidal Blood Flow Imaging with High Penetration Doppler Optical Coherence Tomography. (2011).

65.

Yamanari, M. Laterally Super-resolving Optical Coherence Tomography by Complex Numerical Method. (2005).

66.

Yasuno, Y. Dermatological Investigation by Three-Dimensional Line-Field Fourier Domain Optical Coherence Tomography. (2005).

67.

Makita, S. et al. In vivo human retinal imaging using high-speed Doppler Fourier-domain optical coherence tomography. (2005).

68.

Yasuno, Y. Non-Invasive Three-Dimensional Angiography of Human Eye by Doppler Optical Coherence Tomography. (2011).

69.

Jaillon, F. One micron high-sensitive double beam Doppler optical coherence angiography with variable velocity range. (2011).

70.

Hong, Y. High speed and high penetration Doppler optical coherence tomography. (2011).

71.

Makita, S., Yamanari, M. & Yasuno, Y. High-Speed and High-Sensitive Optical Coherence Angiography. (2009).

72.

Sakai, S. Analysis of Skin Anisotropy Using PolarizationSensitive Optical Coherence Tomography. (2009).

73.

Yasuno, Y. Investigation of Retinal Micro-Structure by Adaptive Optics Scanning Laser Ophthalmoscope with 1-Micrometer Wavelength Probe. (2009).

74.

Yasuno, Y. Scattering optical coherence angiography with 1- um swept source optical coherence tomography. (2007).

75.

Yamanari, M. Phase retardation measurement of retinal nerve fiber layer using polarization-sensitive spectral domain optical coherence tomography and scanning laser polarimetry. (2007).

76.

Makita, S., Miura, M., Yamanari, M. & Yasuno, Y. High-sensitive and High-speed Optical Coherence Tomography for Three-dimensional Non-invasive Vasculature Imaging. (2010).

77.

Makita, S. et al. Optical coherence angiography for the retina and choroid. (2007).

78.

Makita, S. et al. Prepapillary retinal vessel quantification by using Doppler optical coherence angiography. (2007).

79.

Makita, S., Jaillon, F., Cense, B. & Yasuno, Y. Multiple modes of volumetric blood flow imaging by ultrahigh speed dual-beam Doppler optical coherence angiography. (2011).

80.

Makita, S., Yamanari, M., Miura, M., Yabusaki, M. & Yasuno, Y. High-speed, high-sensitive, and wide-field Doppler optical coherence angiography for in vivo human posterior eye. (2009).

81.

Makita, S., Jaillon, F., Cense, B., Miura, M. & Yasuno, Y. Micro-vasculature imaging by double-beam Doppler coherence angiography. (2010).

82.

Makita, S. et al. Three-dimensional blood flow imaging and velocimetry of the human posterior eye using Doppler optical coherence tomography. (2009).

Patents

Yasuno, Y., Makita, S. & Ito, M. TWO-BEAM OPTICAL COHERENCE TOMOGRAPHY APPARATUS.

安野嘉晃, 伊藤雅英, 山成正宏 & 巻田修一. 偏光感受型光コヒーレンストモグラフィー装置、該装置の信号処理方法、及び該装置における表示方法. (2013).

安野嘉晃, 伊藤雅英, 山成正宏 & 巻田修一. 測定信号のノイズ処理方法. (2013).

安野嘉晃, 巻田修一 & 伊藤雅英. 眼底血流量の定量測定装置. (2013).

安野嘉晃, 谷田貝豊彦, 巻田修一 & 洪瑛周. 光コヒーレンストモグラフィーの画像処理装置. (2009).

安野嘉晃, 巻田修一 & 谷田貝豊彦. 光断層画像の処理方法. (2010).

安野嘉晃, 伊藤雅英, 山成正宏 & 巻田修一. 計測データの表示方法.

安野嘉晃, 巻田修一 & 山成正宏. 局所的な複屈折情報を抽出可能な偏光感受光画像計測装置.