1.Quantitative analysis of choroidal neovascularization by split spectrum amplitude decorrelation angiography OCT
Yanjiao, HUO ; Lihong, YANG ; Wenbin, WEI
Chinese Journal of Experimental Ophthalmology 2015;33(12):1126-1130
Background Choroidal neovascularization (CNV) is a major cause of visual loss in many fundus diseases.Fundus angiography (FA) is essential for the diagnosis,location and treatment of CNV.However, FA is an invasive examination method.Split spectrum amplitude decorrelation angiography (SSADA) OCT can quickly and clearly provide vascular signals.However, whether SSADA-OCT is feasible in the evaluation of CNV remains unclear.Objective This study was to detect and quantify CNV using OCT angiography.Methods Thirteen patients with unilateral CNV were included in Beijing Tongren Eye Center from June 2014 to August 2014.All affected eyes of the subjects were scanned with a high-speed frequency domain OCT.The SSADA-OCT images were obtained by scanning of macula covered 6 mm×6 mm area.The CNV area and grey scale were computed from the en face OCT images of retinal layer and choroidal layer.This study followed the Helsinki Declaration and was approved by the Ethics Committee of Beijing Tongren Hospital,and written informed consent was obtain from each patient prior to any medical examination.Results SSADA-OCT angiogram revealed CNV area and location confirmed by fluorescein angiography,and the CNV blood flow information of internal limiting membrane,inner plexiform layer,retinal pigment epithelium,and choroid was exhibited by OCT angiography.All CNVs with different causes showed the well defined and hyperreflected signal in macular region.The average CNV area was (0.15 ±0.09)mm2 , and the average grey scale of CNV was 75.40±32.35 in the affected eyes,and that in the contralateral eyes was 26.99±22.87 in the 300 μm area,showing significant elevation in gray scale in the affected eyes compared with the contralateral eyes (t =6.946, P<0.001).Conclusions OCT angiography is a noninvasive observation technique of retinal and choroidal blood flow.It can provide quantitative information and detailed images of CNV.
2.Imaging performance and quantitative analysis of confocal scanning laser ophthalmoscope for cystoid macular edema
Yanjiao, HUO ; Lihong, YANG ; Wenbin, WEI
Chinese Journal of Experimental Ophthalmology 2017;35(1):53-57
Background Cystoid macular edema (CME) is caused by many fundus diseases.The noninvasive clinical diagnosis methods for CME are conventional color fundus photography up to now.However,these images can not display the CME range well.Confocal scanning laser ophthalmoscope (cSLO) based retinal imaging can provide clear picture with high contrast.However,whether cSLO imaging is feasible in the quantitative assessment of CME remains unclear.Objective This study was to image the boundary of CME and assess the quantification of CME image from cSLO imaging technology.Methods A series case-observational study was designed.This study protocal was approved by Ethic Committee of Beijing Tongren Hospital.cSLO based retinal imaging technology was carried out on consecutive 24 eyes of 24 patients with clinically diagnosed and OCT confirmed CME in Beijing Tongren Eye Center from August to December 2015 under the informed consent of each individual.The radial scan range was 45°× 45 ° and the line scan level was 49 at macula area.The pseudocolar image,green light reflective image (532 nm) and infrared reflective image (785 nm) were collected.The imaging was analyzed by EasyScan software (version 1.2.2).Fundus color photography and SD-OCT were carried out in each patient.The images were graded by specialists according to the SD-OCT cross sectional results.Results The primary causes of CME included epiretinal membrane (10 eyes),branch retinal vein occlusion (BRVO) (6 eyes),central retinal vein occlusion (CRVO) (4 eyes),diabetic retinopathy (DR) (3 eyes) and CRVO with BRVO (1 eye).A CME image was exhibited on the fundus color photogram with the obscure boundary;while the clear range of CME was displayed by the cSLO imaging.The mean score of CME from pseudocolar image,green light reflective image and infrared reflective image was 3.21±0.78,2.67±0.96 and 2.54±0.83,respectively,which was significantly higher than 1.33±0.82 from the fundus color photography (all at P<0.01).Conclusions In CME patients,the imaging quality from cSLO-based retinal imaging technology is better than that from traditional fundus color photography.Combined with SD-OCT sectional scan analysis,cSLO-based retinal imaging technology may offer a method to observe and record more fundus details for CME diagnosis.
3.Comparison of confocal scanning laser ophthalmoscope and color fundus camera to assess retinal and choroidal disease using
Yanjiao HUO ; Lihong YANG ; Rui CUI ; Wenbin WEI
Chinese Journal of Ocular Fundus Diseases 2016;32(3):270-274
Objective To cpmpare the assessment of retinal and choroidal disease using confocal scanning laser ophthalmoscope (cSLO) imaging and color fundus camera.Methods Sixty-seven patients (90 eyes) with fundus diseases were included in this study.There were 35 males (51 eyes) and 32 female (39 eyes),mean age was 51.32 years.All subjects underwent fundus imaging using cSLO technology and traditional color fundus camera,positive numbers of every retinal pathological change were calculated and compared.Spectral domain-optical coherence tomography (SD-OCT) was also done to compare the accordance rate between two modes of fundus imaging (cSLO technology and traditional color fundus camera) and SD-OCT in choroidal changes.Results The positive numbers of retinal microaneurysm (x2 =4.157,P< 0.05) and epiretinal membrane (x2 =5.428,P < 0.05) using cSLO fundus imaging were significantly higher than traditional color fundus camera,while the positive numbers of cotton wool spots (x2 =0.523),retinal hemorrhage (x2 =0.117),hard exudates (x2 =0.325) and macular hole (x2 =0.070)were no significant different (P> 0.05).The SD-OCT accordance rate of choroidal pathological changes using cSLO technology was higher than traditional color fundus camera (x2 =9.143,P=0.007).Conclusion In retinal and choroidal diseases,the imaging quality of cSLO fundus imaging technology is better than the traditional color fundus camera technology.
4.Influence of T- and B-cell-deficiency on retinal neurocytes of mice withacute ocular hypertension
Yanjiao, HUO ; Ping, HUANG ; Shaomin, ZHANG ; Chun, ZHANG
Chinese Ophthalmic Research 2010;28(3):193-197
Background Recently,the study on the cause of optic nerve damage induced by glaucoma is of concern in ophthalmology.Some research showed that the immune system is associated with glaucoma-induced optic neuropathy.Acute ischemia-reperfusion is an ideal model of studying optic neuropathy.ObjectiveThe present study investigates the effect of T and B lymphocyte deficiency on the retinal neurocytes of mice with acute intraocular hypertension.Methods Sixteen SPF CB-17/Icr.Cg-Prkdc~(scid)Lyst~(bg)/CrlVR mice 6-8 week-old (severe combined immunodeficiency mouse,SCID) were used in this study and 16 age-matched SPF wild type (C57BL/6) mice served as controls.The ischemia-reperfusion injury models were induced in the right eyes of 10 SCID mice and 10 C57BL/6 mice through intra-anterior chamber infusion of balanced saline solution for 45minutes to increase the intraocular pressure to 104mmHg,and the left eyes served as model controls.The other 6 SCID mice and 6 C57BL/6 mice served as normal control group.10g/L (2μL) of FlouroGold was injected into the brains of the mice for the labeling of surviving retinal ganglion cells 21 days after ischemia-reperfusion.The thickness of retinal inner nuclear layer was measured by H&E staining under the fluorescent microscope 21 days after ischemic insult.The use of the animals followed the Standard of Association for Research in Vision and Ophthalmology.Results In normal control mice,the morphology of retinal ganglion cells (RGCs) and retinal structure were similar between SCID mice and C57BL/6 mice.The differences in the numbers of RGCs and retinal thickness were insignificant between the two types of mice(P>0.05).In the experimental mice,the surviving RGCs were strikingly increased in SCID mice (91%±5%) compared with C57BL/6 mice(78%±5%)(P=0.003).The thickness of the retinal inner nuclear layer was obviously thinner in the model eyes (22.44±1.70μm) compared to model control eyes (31.06±3.75μm) in C57BL/6 mice(P=0.004),but no statistically significant difference was found between the model eyes and model control eyes in SCID mice (33.52±2.13μm vs 34.06±3.00μm) 21 days after ischemia-reperfusion injury(P>0.05).Conclusion T and B lymphocytes deficient mice show a better tolerance to acute intraocular hypertension than the wild type C57BL/6 mice.
5.Diagnostic capability of ganglion cell complex thickness in primary open angle glaucoma
Weiwei, WANG ; Huaizhou, WANG ; Yanjiao, HUO ; Meng, LI
Chinese Journal of Experimental Ophthalmology 2017;35(4):355-361
Background Glaucoma is characterized by loss of retinal ganglion cells (RGCs) followed by visual field defects.Spectral domain OCT(SD-OCT) enabled more precise and quantitative assessments of macular ganglion cell complex (GCC) thickness.Objective This study was to evaluate the diagnostic ability of GCC thickness in identifying primary open angle glaucoma (POAG).Methods A prospective study was performed.Seventy POAG patients and 30 healthy volunteers were enrolled in Beijing Tongren Hospital from November 2015 to April 2016.Macular GCC thickness and peripapillary retinal nerve fiber layer (RNFL) thickness were measured with RTVue SD-OCT,and Humphrey perimetry was performed on the eyes.The patients were assigned to the early stage POAG group,advanced POAG group and later stage POAG group based on the mean defect (MD) of visual field.The average,superior,inferior GCC and RNFL,focal loss volume (FLV),and global loss volume (GLV) were measured and compared among the groups.The correlations between GCC thickness or RNFL thickness with MD were evaluated in the POAG eyes.The discrimination capabilities of GCC thickness or RNFL thickness were assessed and compared by using areas under the receiver operating characteristic (ROC) curves (AUC).Results Compared with the normal control group,the average,superior,inferior GCC thickness and RNFL values were evidently reduced,the FLV and GLV were significantly increased in the early stage POAG group,advanced POAG group and later stage POAG group (all at P<0.001).Compared with the early stage POAG group,the average GCC and RNFL thickness values were significantly reduced,and GLV was increased in the advanced POAG group and later stage POAG group (all at P<0.05).In the later stage POAG group,superior RNFL was thinner than that in the early stage POAG group (P =0.003).The superior GCC value were lower in the later stage POAG group than that in the early stage POAG group and advanced POAG group (all at P<0.001).Compared with the early stage POAG group,the inferior GCC and RNFL thicknesses were decreased and the FLV was increased in the advanced POAG group and the later stage POAG group (all at P≤0.01).Linear positive correlations were found between average GCC,superior GCC,inferior GCC,average RNFL,superior RNFL or inferior RNFL and MD (r =0.624,0.583,0.601,0.571,0.447,0.537,all at P<0.001),and the positive correlations were also seen between average GCC and average RNFL,between superior GCC and superior RNFL or between inferior GCC and inferior RNFL (r =0.648,0.630,0.602,all at P<0.001).The AUCs were 0.965,0.979,0.924,0.985,0.980,0.990,0.979 and 0.992 in the average GCC,superior GCC,inferior GCC,FLV,GLV,average RNFL,superior RNFL and inferior RNFL,with the largest AUCs in the FLV and inferior RNFL thickness.No significant difference was found in the AUC between FLV and inferior RNFL thickness (P>0.05).Conclusions Inferior GCC is more susceptible to glaucomatous damage.FLV and GLV from GCC pattern parameters are sensitive indicators for diagnosis of POAG.GCC thickness could be a valid structural parameter for detecting glaucoma and can be used as a marker in glaucoma assessment.
6.Change regularity of adult subfoveal choroidal thickness with age and its influencing factors
Yanjiao HUO ; Yan GUO ; Huaizhou WANG ; Lei LI ; Kai CAO ; Ningli WANG
Chinese Journal of Experimental Ophthalmology 2021;39(1):29-33
Objective:To investigate the change regularity and influencing factors of subfoveal choroidal thickness (SFCT) with age among adults.Methods:A cross-sectional study was adopted.A total of 281 Chinese adults, aged between 21 and 90, were selected from working staff and retired staff of an institution who underwent routine physical examinations from June to October 2016 in Beijing Tongren Hospital.One eye of each subject was included in the study according to the random number table method.The subjects were divided into different age groups including 21-30 years group, 31-40 years group, 41-50 years group, 51-60 years group, 61-70 years group, 71-80 years group and 81-90 years group.The SFCT was measured at the fovea and at 500 μm, 1 000 μm and 2 000 μm nasal (N) and temporal (T) to fovea by high definition-optical coherence tomography.Multiple linear regression equation was used to analyze the influence of ages, gender, intraocular pressure (IOP), spherical equivalent (SE) and retinal thickness on SFCT.This study followed the Declaration of Helsinki and was approved by the Ethics Committee of Beijing Tongren Hospital, Capital Medical University (No.TRECKY2016-012). Written informed consent was obtained from each patient prior to any examination.Results:Mean SFCT of eligible 229 subjects (229 eyes) was (218.73±79.69)μm.Choroid became thinner gradually towards nasal and temporal part.There were significant differences in SFCT, N2 000, N1 000, N500, T500, T1 000 and T2 000 among all age groups ( F=27.05, 22.85, 25.38, 29.11, 32.55, 29.22, 28.70, all at P<0.01). Choroidal thicknesses of all locations showed age-related linear decrease with a steep drop after 50 years old ( R2ranged 0.35-0.47, all at P<0.01). SFCT was associated with SE (β=-10.07, P<0.01) and age (β=-2.43, P<0.01) but not related with gender (β=-19.69, P=0.057), foveal thickness (β=0.02, P=0.897) or IOP (β=-0.86, P=0.466). Conclusions:SFCT shows an age related linear decrease with a steep decline after 50 years old, which was associated with aging and higher SE in myopia, but not related with gender, foveal thickness or IOP within the normal range.
7.Age-associated changes in the inner macular thickness and peripapillary retinal nerve fiber layer thickness
Yabin HU ; Yan GUO ; Huaizhou WANG ; Yanjiao HUO
Chinese Journal of Experimental Ophthalmology 2018;36(4):274-278
Objective To determine the difference of macular ganglion cell-inner plexiform layer (mGCIPL) thickness and peripapillary retinal nerve fiber layer (pRNFL) thickness using Cirrus HD-OCT between older and young people in order to provide information for glaucomatous progressive analysis.Methods A prospective case series study was adopted.Sixty-seven old persons (114 eyes) aged 60-80 years old were selected from retired staff of an institution who underwent routine physical examinations between June and July 2016 in Beijing Tongren Hospital as older group and 24 young persons(42 eyes) aged (20-40 years old) who underwent routine physical examination at the same period were selected as young group.The total superior,superonasal,inperonasal,inferior,inferotemporal and superotemporal mGCIPL thickness and PRNFL thickness were measured by Cirrus HD-OCT.The research followed the Declaration of Helsinki.The ethics committee of the Tongren Eye Center approved the study and all participants provided an informed consent.Results There were statistical differences in all measurement parameters (mGCIPL and pRNFL) between older and young people (all at P<0.05) except nasal pRNFL thickness.Minimum mGCIPL thickness was significantly different between older and young group [(74.02±11.01) pm vs.(82.74 ±3.94) μm;t =-7.290,P<0.001],while in the pRNFL parameters,temporal pRNFL thickness was siginicantly changed between older and young group [(70.83 ± 12.30) μm vs.(82.10 ± 17.02) μm;t =-3.930,P < 0.001].The nasal pRNFL thickness showed no significant difference between the two groups.Conclusions All mGCIPL and most pRNFL parameters in older people were obviously thinner than young people except nasal pRNFL,age factor should be considered seriously in the progression analysis of glaucomatous neuropathy.
8.Comparison of macular vessel density changes in early primary open-angle glaucoma with central visual field defects and peripheral visual field defects
Yanjiao HUO ; Yan GUO ; Huaizhou WANG ; Lei LI ; Ningli WANG
Chinese Journal of Experimental Ophthalmology 2022;40(4):327-333
Objective:To compare the change of macular microvasculature in early primary open-angle glaucoma (POAG) patients with central visual field defects (CVFDs) and peripheral visual field defects (PVFDs).Methods:A cross-sectional study was performed.Sixty-six eyes of 66 consecutive patients with early POAG were enrolled in Beijing Tongren Hospital from June to December 2020.The patients were divided into CVFDs group (25 eyes) and PVFDs group (41 eyes) according to their visual field defect.Another 55 eyes of 55 age-, gender- and spherical equivalent-matched healthy people were set as a normal control group.All subjects underwent routine ophthalmic examination.Humphrey 24-2 visual field test was carried out.Macular vessel density (VD) and perfusion density (PD) of an area of 6 mm×6 mm were measured by optical coherence tomography angiography (OCTA), and the area was divided into 3 rings and 9 zones, including center, inner ring (superior, inferior, temporal and nasal sectors), and outer ring (superior, inferior, temporal and nasal sectors) according to ETDRS ring.The relationship among VD, PD, and visual field defect was analyzed.This study adhered to the Declaration of Helsinki.The research protocol was approved by an Ethics Committee of Beijing Tongren Hospital, Capital Medical University (No.TRECKY2020-103). Written informed consent was obtained from each subject before any examination.Results:The total macular VD of normal control group, CVFDs group and PVFDs group was 18.20 (17.50, 18.50), 17.10 (16.30, 17.85), and 17.20 (16.25, 17.90)mm/mm 2, respectively, and there was a significant difference ( H=20.84; P<0.001). The total macular PD of normal control group, CVFDs group and PVFDs group was 0.45 (0.43, 0.46), 0.42 (0.40, 0.44), and 0.43 (0.40, 0.44)mm 2/mm 2, respectively, with a significant difference ( H=16.15; P<0.001). The total macular VD and PD of CVFDs and PVFDs groups were significantly lower than those of normal control group, with statistically significant differences (all at P<0.05). Significant differences were found in VD and PD of superior, inferior, temporal, and nasal sectors of the outer ring among three groups (all at P<0.05). VD of the outer ring and PD of superior, inferior, and nasal sectors of the outer ring were reduced in CVFDs group than normal control group, showing significant differences (all at P<0.05). VD and PD of the superior, inferior, and temporal sectors of the outer ring were reduced in PVFDs group compared with normal control group, with significant differences (all at P<0.05). A significant difference was found in macular PD of the outer-nasal sector between CVFDs and PVFDs groups ( P=0.035). Conclusions:Macular VD and PD are reduced in early POAG.Compared with POAG patients with CVFDs, the macular PD of the outer-nasal sector of POAG patients with CVFDs is lower.
9.Diagnostic performance of confocal scanning laser ophthalmoscope imaging and compared with color fundus camera in retinal pigment epithelial detachment of polypoidal choroidal vasculopathy
Yanjiao HUO ; Lihong YANG ; Yan GUO ; Wenbin WEI
Chinese Journal of Ocular Fundus Diseases 2019;35(4):348-352
Objective To observe confocal scanning laser ophthalmoscope (cSLO) based retinal imaging and color fundus camera in pigment epithelial detachment (PED) of polypoidal choroidal vasculopathy (PCV).Methods PED of 30 patients (32 eyes) were recruited from June 2016 to June 2017 in the Beijing Tongren Hospital who were detected in high-definition OCT (HD-OCT) and diagnosed as PCV by FFA and ICGA.There were 16 males (17 eyes) and 14 females (15 eyes);aged from 50-83 years,with the mean age of 66.59 years.The photographs of ocular fundus including color fundus camera,cSLO imaging,HD-OCT,FFA and ICGA were analyzed.Multimodal imaging results were regarded as gold standard.Sensitivity and specificity were calculated in serous and hemorrhagic PED diagnosis using color fundus camera and cSLO imaging.The positive number of PED was used to compare between two modes fundus imaging by using x2 test.Results Twenty serous PED eyes,3 hemorrhagic PED eyes and 9 serous/hemorrhagic PED eyes were determined using multimodal imaging.The sensitivity and specificity of color fundus camera were 45% and 100% in detecting serous PED and 100% and 91% in detecting hemorrhagic PED.The sensitivity and specificity of cSLO imaging were 83% and 100% in detecting serous PED and 50% and 86% in detecting hemorrhagic PED.The positive number of serous PED in cSLO imaging was significantly higher than color fundus camera (x2=7.752,P=0.011).The positive number of hemorrhagic PED in cSLO imaging shows no obvious difference compared with color fundus camera (x2=1.164,P=0.419).Conclusion The sensitivity and positive number of detecting serous PED with PCV in cSLO fundus imaging were higher than the color fundus camera technology.
10. Application of an imaging data management system in the teaching of ophthalmology
Yanjiao HUO ; Yan GUO ; Huaizhou WANG
Chinese Journal of Medical Education Research 2019;18(11):1136-1139
The application of a specialized imaging data management system in ophthalmology not only improves clinical diagnosis and treatment, but also brings change to the traditional teaching of ophthalmology. Department of Ophthalmology in Beijing Tongren Hospital Affiliated to Capital Medical University applied the FORUM (Carl Zeiss, FORUM V4.0, Germany) imaging data management system in clinical practice and postgraduate teaching of ophthalmology. The imaging data management system can obtain the primary imaging data of patients and the data can be accessed at any time, which brings great convenience for teachers to show the cases. The imaging data management system can help clinical teachers to improve the teaching effect of direct teaching and cultivate students' clinical thinking to carry out case discussion, and it can also help to cultivate scientific thinking of postgraduates.