Comparison of confocal laser scanning colorful fundus imaging and color fundus photography for detection of diabetic retinopathy_Chinese Journal of Ocular Fundus Diseases

Authors：

Li Shuting , Wang Xiangning , Du Xinhua ,  Wu Qiang

Department of Ophthalmology, The Sixth People's Hospital Affiliated to Shanghai Jiaotong University, Shanghai 200030, China;

Corresponding author：

Wu Qiang, Email: qiang.wu@shsmu.edu.cn

Keywords：

Diabetic retinopathy/diagnosis; Ophthalmoscopy; Microscopy, confocal; Tomography, optical coherence; Color fundus photography

DOI：

10.3760/cma.j.issn.1005-1015.2018.04.006

Video：

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ObjectiveTo compare the imaging characteristics and detection of various types of lesions in diabetic retinopathy (DR) with colorful laser scanning fundus imaging (MSLI) and traditional color fundus photography (CFP).MethodsProspective case series observational study. A total of 38 eyes of 38 patients with DR diagnosed by clinical examination were included in the study. Among them, 21 were male and 17 were female; the mean age was 62.6±11.2 years; the average duration of diabetes was 14.3±7.5 years. All the patients were performed CFP, MSLI, frequency domain optical coherence tomography (SD-OCT), fluorescein angiography (FFA) examination. Using the Helielberg Spectralis HRA+OCT MSLI inspection, one scan simultaneously obtained 488 nm blue reflection (BR), 515 nm green light reflection (GR), 820 nm infrared light reflection (IR), and multicolor image (MC). The detection of traditional CFP and MC on microaneurysm (MA), hard exudation (HEX), cotton plaque (CWS), intraretinal hemorrhage (IRH), intraretinal microvascular abnormality (IRMA), venous bead (VB), venous ring (VL), macular edema (DME), macular anterior membrane (MEM) and laser photocoagulation (LB) were comparatively observed. The results of FFA examination were used as the diagnostic criteria for lesions. SD-OCT was used to determine the location and depth of lesions and the diagnostic reference for DME and MEM.ResultsThe numbers of eyes with MA (χ²=10.460), DME (χ²=4.006), MEM (χ²=4.444) was significantly higher in MC than that of traditional CFP. But the number of eyes with IRH (χ²=0.103), CWS (χ²=1.515), HEX (χ²=0.227), IRMA (χ²=0.051), VB (χ²=0.001), VL (χ²=0.149), VH (χ²=0.693) and LB (χ²=0.720) were not statistically significant between two methods (P>0.05). The imaging quality of MSLI mode is obviously better than that of traditional CFP. Among them, GR imaging shows the best structural changes of superficial retina in MA, CWS, HEX, MEM, etc. IR imaging shows clear depth in deep retina such as LB. DME was green on MC and the weak low-reflection dark area was visible on the IR image, which were consistent with the DME range indicated by the SD-OCT examination.ConclusionsCompared with the traditional CFP, the MSLI can clearly show the DR lesion. The number of checkouts is high on MA, DME and MEM by MC image.

Citation： Li Shuting, Wang Xiangning, Du Xinhua, Wu Qiang. Comparison of confocal laser scanning colorful fundus imaging and color fundus photography for detection of diabetic retinopathy. Chinese Journal of Ocular Fundus Diseases, 2018, 34(4): 338-342. doi: 10.3760/cma.j.issn.1005-1015.2018.04.006 Copy

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3.	Aldington SJ, Kohner EM, Meuer S, et al. Methodology for retinal photography and assessment of diabetic retinopathy: the EURODIAB IDDM complications study[J]. Diabetologia, 1995, 38(4): 437-444.
4.	Jones S, Edwards RT. Diabetic retinopathy screening: a systematic review of the economic evidence[J]. Diabet Med, 2010, 27(3): 249-256. DOI: 10.1111/j.1464-5491.2009.02870.x.
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15.	Early Treatment Diabetic Retinopathy Study Research Group.Classification of diabetic retinopathy from fluorescein angiograms. ETDRS report number 11[J]. Ophthalmology, 1991, 98(5 Suppl): S807-822.
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17.	Neubauer AS, Kernt M, Haritoglou C, et al. Nonmydriatic screening for diabetic retinopathy by ultra-widefield scanning laser ophthalmoscopy (Optomap)[J]. Graefe’s Arch Clin Exp Ophthalmol, 2008, 246(2): 229-235. DOI: 10.1007/s00417-007-0631-4.
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19.	霍妍佼, 郭彦, 杨丽红, 等. 共聚焦激光扫描检眼镜眼底成像与传统眼底彩色照相对老年人黄斑前膜检出结果比较[J]. 中华眼底病杂志, 2016, 32(6): 615-618. DOI: 10.3760/cma.j.issn.1005-1015.2016.06.012.Yanjiao H, Yan G, Lihong Y, et al.Comparison of the screening efficiency of epiretinal membrane using confocal scanning laser ophthalmoscope imaging and color fundus camera in elderly people[J]. Chin J Ocul Fundus Dis, 2016, 32(6): 615-618. DOI: 10.3760/cma.j.issn.1005-1015.2016.06.012.
20.	霍妍佼, 杨丽红, 魏文斌. 激光扫描共焦检眼镜对黄斑囊样水肿成像的定量分析[J]. 中华实验眼科杂志, 2017, 35(1): 53-57. DOI: 10.3760/cma.j.issn.2095-0160.2017.01.011.Yanjiao H, Lihong Y, Wenbin W.Imaging performance and quantitative analysis of confocal scanning laser ophthalmoscope for cystoid macular edema[J]. Chin J Exp Ophthalmol, 2017, 35(1): 53-57. DOI: 10.3760/cma.j.issn.2095-0160.2017.01.011.
21.	Rivera-De LPD, Perez-Peralta L, Toldi J, et al. Multicolor scanning laser imaging in lipemia retinalis[J]. Retin Cases Brief Rep, 2017, 11 Suppl 1: S132-135. DOI: 10.1097/ICB.0000000000000469.
22.	Park SP, Siringo FS, Pensec N, et al. Comparison of fundus autofluorescence between fundus camera and confocal scanning laser ophthalmoscope-based systems[J]. Ophthalmic Surg Lasers Imaging Retina, 2013, 44(6): 536-543. DOI: 10.3928/23258160-20131105-04.
23.	Pang CE, Freund KB. Ghost maculopathy: an artifact on near-infrared reflectance and multicolor imaging masquerading as chorioretinal pathology[J]. Am J Ophthalmol, 2014, 158(1): 171-178. DOI: 10.1016/j.ajo.2014.03.003.

1. Engerman RL. Pathogenesis of diabetic retinopathy[J]. Diabetes, 1989, 38(10): 1203-1206.
2. Stitt AW, Curtis TM, Chen M, et al. The progress in understanding and treatment of diabetic retinopathy[J]. Prog Retin Eye Res, 2016, 51: 156-186. DOI: 10.1016/j.preteyeres.2015.08.001.
3. Aldington SJ, Kohner EM, Meuer S, et al. Methodology for retinal photography and assessment of diabetic retinopathy: the EURODIAB IDDM complications study[J]. Diabetologia, 1995, 38(4): 437-444.
4. Jones S, Edwards RT. Diabetic retinopathy screening: a systematic review of the economic evidence[J]. Diabet Med, 2010, 27(3): 249-256. DOI: 10.1111/j.1464-5491.2009.02870.x.
5. Helb HM, Charbel IP, Fleckenstein M, et al. Clinical evaluation of simultaneous confocal scanning laser ophthalmoscopy imaging combined with high-resolution, spectral-domain optical coherence tomography[J]. Acta Ophthalmol, 2010, 88(8): 842-849. DOI: 10.1111/j.1755-3768.2009.01602.x.
6. Ben MN, Georges A, Capuano V, et al. MultiColor imaging in the evaluation of geographic atrophy due to age-related macular degeneration[J]. Br J Ophthalmol, 2015, 99(6): 842-847. DOI: 10.1136/bjophthalmol-2014-305643.
7. Schmitz-Valckenberg S, Steinberg JS, Fleckenstein M, et al. Combined confocal scanning laser ophthalmoscopy and spectral-domain optical coherence tomography imaging of reticular drusen associated with age-related macular degeneration[J]. Ophthalmology, 2010, 117(6): 1169-1176.
8. Zeng R, Zhang X, Su Y, et al. The noninvasive retro-mode imaging modality of confocal scanning laser ophthalmoscopy in polypoidal choroidal vasculopathy: a preliminary application[J/OL]. PLoS One, 2013, 8(9): 75711[2013-09-18]. https://doi.org/10.1371/journal.pone.0075711. DOI: 10.1371/journal.pone.0075711.
9. Zapata MA, Leila M, Teixidor T, et al. Comparative study between fundus autofluorescence and red reflectance imaging of choroidal nevi using ultra-wide-field scanning laser ophthalmoscopy[J]. Retina, 2015, 35(6): 1202-1210. DOI: 10.1097/IAE.0000000000000463.
10. Tan AC, Fleckenstein M, Schmitz-Valckenberg S, et al. Clinical application of multicolor imaging technology[J]. Ophthalmologica, 2016, 236(1): 8-18. DOI: 10.1159/000446857.
11. Nittala MG, Hariri A, Wong WT, et al. Image scaling difference between a confocal scanning laser ophthalmoscope and a flash fundus camera[J]. Ophthalmic Surg Lasers Imaging Retina, 2015, 46(8): 872-879. DOI: 10.3928/23258160-20150909-13.
12. 中华医学会糖尿病学分会.中国2型糖尿病防治指南(2013年版)[J]. 中华糖尿病杂志, 2014, 6(7): 447-498. DOI: 10.3760/cma.j.issn.1674-5809.2014.07.004.Chinese Diabetes Society, Chinese Medical Association. Standards of care for type 2 diabetes in China [J]. Chin J Diabetes Mellitus, 2014, 6(7): 447-498. DOI: 10.3760/cma.j.issn.1674-5809.2014.07.004.
13. 中华医学会眼科学分会眼底病学组.我国糖尿病视网膜病变临床诊疗指南(2014年)[J]. 中华眼科杂志, 2014, 50(11): 851-865.DOI: 10.3760/cma.j.issn.0412-4081.2014.11.014.Chinese Ocular Fundus Diseases Society, Chinese Ophthalmological Society, Chinese Medical Association.Guidelines for clinical diagnosis and treatment of diabetic retinopathy in China [J]. Chin J Ophthalmol, 2014, 50(11): 851-865.DOI: 10.3760/cma.j.issn.0412-4081.2014.11.014.
14. Early Treatment Diabetic Retinopathy Study Research Group.Grading diabetic retinopathy from stereoscopic color fundus photographs--an extension of the modified Airlie House classification. ETDRS report number 10[J]. Ophthalmology, 1991, 98(5 Suppl): S786-806.
15. Early Treatment Diabetic Retinopathy Study Research Group.Classification of diabetic retinopathy from fluorescein angiograms. ETDRS report number 11[J]. Ophthalmology, 1991, 98(5 Suppl): S807-822.
16. Virgili G, Menchini F, Casazza G, et al. Optical coherence tomography (OCT) for detection of macular oedema in patients with diabetic retinopathy[J/CD]. Cochrane Database Syst Rev, 2015, 1: CD008081. DOI: 10.1002/14651858.CD008081.pub3.
17. Neubauer AS, Kernt M, Haritoglou C, et al. Nonmydriatic screening for diabetic retinopathy by ultra-widefield scanning laser ophthalmoscopy (Optomap)[J]. Graefe’s Arch Clin Exp Ophthalmol, 2008, 246(2): 229-235. DOI: 10.1007/s00417-007-0631-4.
18. Kilic MI, Bartsch DU, Barteselli G, et al.Visualization of macular pucker by multicolor scanning laser imaging[J]. Retina, 2018, 38(2): 352-358.DOI: 10.1097/IAE.0000000000001525.
19. 霍妍佼, 郭彦, 杨丽红, 等. 共聚焦激光扫描检眼镜眼底成像与传统眼底彩色照相对老年人黄斑前膜检出结果比较[J]. 中华眼底病杂志, 2016, 32(6): 615-618. DOI: 10.3760/cma.j.issn.1005-1015.2016.06.012.Yanjiao H, Yan G, Lihong Y, et al.Comparison of the screening efficiency of epiretinal membrane using confocal scanning laser ophthalmoscope imaging and color fundus camera in elderly people[J]. Chin J Ocul Fundus Dis, 2016, 32(6): 615-618. DOI: 10.3760/cma.j.issn.1005-1015.2016.06.012.
20. 霍妍佼, 杨丽红, 魏文斌. 激光扫描共焦检眼镜对黄斑囊样水肿成像的定量分析[J]. 中华实验眼科杂志, 2017, 35(1): 53-57. DOI: 10.3760/cma.j.issn.2095-0160.2017.01.011.Yanjiao H, Lihong Y, Wenbin W.Imaging performance and quantitative analysis of confocal scanning laser ophthalmoscope for cystoid macular edema[J]. Chin J Exp Ophthalmol, 2017, 35(1): 53-57. DOI: 10.3760/cma.j.issn.2095-0160.2017.01.011.
21. Rivera-De LPD, Perez-Peralta L, Toldi J, et al. Multicolor scanning laser imaging in lipemia retinalis[J]. Retin Cases Brief Rep, 2017, 11 Suppl 1: S132-135. DOI: 10.1097/ICB.0000000000000469.
22. Park SP, Siringo FS, Pensec N, et al. Comparison of fundus autofluorescence between fundus camera and confocal scanning laser ophthalmoscope-based systems[J]. Ophthalmic Surg Lasers Imaging Retina, 2013, 44(6): 536-543. DOI: 10.3928/23258160-20131105-04.
23. Pang CE, Freund KB. Ghost maculopathy: an artifact on near-infrared reflectance and multicolor imaging masquerading as chorioretinal pathology[J]. Am J Ophthalmol, 2014, 158(1): 171-178. DOI: 10.1016/j.ajo.2014.03.003.

Chinese Journal of Ocular Fundus Diseases

Comparison of confocal laser scanning colorful fundus imaging and color fundus photography for detection of diabetic retinopathy

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