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    Journals >Laser & Optoelectronics Progress >Volume 57 >Issue 18 >Page 180002 > Article
    • Laser & Optoelectronics Progress
    • Vol. 57, Issue 18, 180002 (2020)
    Optical Coherence Tomography Angiography and Its Applications in Ophthalmology
    Ying Liu1、2、3, Yaliang Yang1、2、*, and Xian Yue1、2、3
    Author Affiliations
  • 1Key Laboratory of Adaptive Optics, Chinese Academy of Sciences, Chengdu, Sichuan 610209, China
  • 2Institute of Optics and Electronics, Chinese Academy of Sciences, Chengdu, Sichuan 610209, China
  • 3University of Chinese Academy of Sciences, Beijing 100049, China
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    DOI: 10.3788/LOP57.180002 Cite this Article Set citation alerts
    Ying Liu, Yaliang Yang, Xian Yue. Optical Coherence Tomography Angiography and Its Applications in Ophthalmology[J]. Laser & Optoelectronics Progress, 2020, 57(18): 180002 Copy Citation Text show less
    OCT structures. (a) Time domain OCT; (b) frequency domain OCT
    Fig. 1. OCT structures. (a) Time domain OCT; (b) frequency domain OCT
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    Flow chart of SSADA algorithm [23]. (a) Schematic of band-pass filtering to reduce spectrum width; (b) schematic of using SSADA to improve average signal to noise ratio
    Fig. 2. Flow chart of SSADA algorithm [23]. (a) Schematic of band-pass filtering to reduce spectrum width; (b) schematic of using SSADA to improve average signal to noise ratio
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    Flow chart of OMAG algorithm
    Fig. 3. Flow chart of OMAG algorithm
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    Fundus blood vessel OCTA images[33]. (a) Superficial blood vessel; (b) choroid capillary plexus; (c) deep capillary plexus
    Fig. 4. Fundus blood vessel OCTA images[33]. (a) Superficial blood vessel; (b) choroid capillary plexus; (c) deep capillary plexus
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    Retinal angiography images of diabetic patients[37]. (a) Superficial FAZ of an eye; (b) deep FAZ of an eye
    Fig. 5. Retinal angiography images of diabetic patients[37]. (a) Superficial FAZ of an eye; (b) deep FAZ of an eye
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    Normal and abnormal retinal images[38]. (a) Normal retinal; (b) retinal vein occlusion
    Fig. 6. Normal and abnormal retinal images[38]. (a) Normal retinal; (b) retinal vein occlusion
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    OCTA images of RAO[40-41]. (a) Superfcial retinal capillary plexus of CRAO; (b) deep retinal capillary plexus of CRAO; (c) superfcial retinal capillary plexus of BRAO; (d) deep retinal capillary plexus of BRAO
    Fig. 7. OCTA images of RAO[40-41]. (a) Superfcial retinal capillary plexus of CRAO; (b) deep retinal capillary plexus of CRAO; (c) superfcial retinal capillary plexus of BRAO; (d) deep retinal capillary plexus of BRAO
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    OCTA images of disease progression in patient with MacTel2[47]. (a) OCTA at the level of the outer retina and choriocapillaris shows subretinal neovascularization; (b) OCTA demonstrates microvascular abnormalities in the deep capillary plexus of the retina
    Fig. 8. OCTA images of disease progression in patient with MacTel2[47]. (a) OCTA at the level of the outer retina and choriocapillaris shows subretinal neovascularization; (b) OCTA demonstrates microvascular abnormalities in the deep capillary plexus of the retina
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    Choroid en face radiography of a CNV Ⅲ patient[49]. (a) Outer retina shows part of the CNV centrally; (b) deep capillary plexus showing dilated CNV vessel
    Fig. 9. Choroid en face radiography of a CNV Ⅲ patient[49]. (a) Outer retina shows part of the CNV centrally; (b) deep capillary plexus showing dilated CNV vessel
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    OCTA angiograms of AMD patient[49]. (a) OCTA drusen perfusion dark area; (b) angiogram of the choriocapillaris
    Fig. 10. OCTA angiograms of AMD patient[49]. (a) OCTA drusen perfusion dark area; (b) angiogram of the choriocapillaris
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    Ying Liu, Yaliang Yang, Xian Yue. Optical Coherence Tomography Angiography and Its Applications in Ophthalmology[J]. Laser & Optoelectronics Progress, 2020, 57(18): 180002
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