参考文献/References:
[1] SCHOTTENHAMML J,MOULT E M,PLONER S,LEE B,NOVAIS E A,COLE E,et al.An automatic,intercapillary area-based algorithm for quantifying diabetes-related capillary dropout using optical coherence tomography angiography[J].Retina,2016,12:S93-101.
[2] YANG W,LU J,WENG J,JIA W,JI L,XIAO J,et al.Prevalence of diabetes among men and women in China[J].N Engl J Med,2010,362(12):1090.
[3] ABRAMOFF M D,GARVIN M K,SONKA M.Retinal imaging and image analysis[J].IEEE Rev Biomed Eng,2010,3:169-208.
[4] FRIBERG T R,PANDYA A,ELLER A W.Non-mydriatic panoramic fundus imaging using a non-contact scanning laser-based system[J].Ophthalmic Surg Lasers Imaging,2003,34(6):488-497.
[5] NANDAKUMAR N,BUZNEY S,WEITER J J.Lipofuscin and the principles of fundus autofluorescence:a review[J].Semin Ophthalmol,2012,27(5-6):197-201.
[6] XU A M,CHEN C Z.Clinical application of ultra-wide field fundus autofluorescence imaging[J].Chin J Ocul Fundus Dis,2018,34(1):89-92.
许阿敏,陈长征.超广角眼底自身荧光在眼底疾病中的应用研究现状及进展[J].中华眼底病杂志,2018,34(1):89-92.
[7] HEUSSEN F M,TAN C S,SADDA S R.Prevalence of peripheral abnormalities on ultra-widefield greenlight(532 nm) autofluorescence imaging at a tertiary care center[J].Invest Ophthalmol Vis Sci,2012,53(10):6526-6531.
[8] VUJOSEVIC S,CASCIANO M,PILOTTO E,BOCCASSINI B,VARANO M,MIDENA E.Diabetic macular edema:fundus autofluorescence and functional correlations[J].Invest Ophthalmol Vis Sci,2011,52(1):442-448.
[9] XU H,CHEN M,MANIVANNAN A,LOIS N,FORRESTER J V.Age-dependent accumulation of lipofuscin in perivascular and subretinal microglia in experimental mice[J].Aging Cell,2007,7(1):58-68.
[10] SEPAH Y J,AKHTAR A,SADIQ M A,HAFEEZ Y,NASIR H,PEREZ B,et al.Fundus autofluorescence imaging:Fundamentals and clinical relevance[J].Saudi J Ophthalmol,2014,28(2):111-116.
[11] MANIVANNAN A,PLSKOVA J,FARROW A,MCKAY S,SHARP P F,FORRESTER J V.Ultra-wide-field fluorescein angiography of the ocular fundus[J].Am J Ophthalmol,2005,140(3):525-527.
[12] FU X N,PENG H.Recent advances in the clinical application of fundus autofluorescence in the retinal diseases[J].Rec Adv Ophthalmol,2013,33(4):393-396.
付校楠,彭惠.眼底自发荧光技术在部分视网膜疾病中的应用进展[J].眼科新进展,2013,33(4):393-396.
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