ObjectiveTo establish and preliminarily validate a nomogram model for predicting the risk of retinal vein occlusion (RVO). MethodsA retrospective clinical study. A total of 162 patients with RVO (RVO group) diagnosed by ophthalmology examination in The Second Affiliated Hospital of Xi'an Jiaotong University from January 2017 to April 2022 and 162 patients with age-related cataract (nRVO group) were selected as the modeling set. A total of 45 patients with branch RVO, 45 patients with central RVO and 45 patients with age-related cataract admitted to Xi 'an Fourth Hospital from January 2022 to February 2023 were used as the validation set. There was no significant difference in gender composition ratio (χ2=2.433) and age (Z=1.006) between RVO group and nRVO group (P=0.120, 0.320). Age, gender, blood routine (white blood cell count, hemoglobin concentration, platelet count, neutrophil count, monocyte count, lymphocyte count, erythrocyte volume, mean platelet volume, platelet volume distribution width), and four items of thrombin (prothrombin time, activated partial thrombin time, fibrinogen, and thrombin time) were collected in detail ), uric acid, blood lipids (total cholesterol, triglyceride, high-density lipoprotein, low-density lipoprotein, lipoprotein a), hypertension, diabetes mellitus, coronary heart disease, and cerebral infarction. Neutrophil/lymphocyte ratio and platelet/lymphocyte ratio were calculated. The single logistic regression was used to analyze the clinical parameters of the two groups of patients in the modeling set, and the stepwise regression method was used to screen the variables, and the column graph for predicting the risk of RVO was constructed. The Bootstrap method was used to repeated sample 1 000 times for internal and external verification. The H-L goodness-of-fit test and receiver operating characteristic (ROC) curve were used to evaluate the calibration and discrimination of the nomogram model. ResultsAfter univariate logistic regression and stepwise regression analysis, high density lipoprotein, neutrophil count and hypertension were included in the final prediction model to construct the nomogram. The χ2 values of the H-L goodness-of-fit test of the modeling set and the validation set were 0.711 and 4.230, respectively, and the P values were 0.701 and 0.121, respectively, indicating that the nomogram model had good prediction accuracy. The area under the ROC curve of the nomogram model for predicting the occurrence of post-stroke depression in the modeling set and the verification set was 0.741 [95% confidence interval (CI) 0.688-0.795] and 0.741 (95%CI 0.646-0.836), suggesting that the nomogram model had a good discrimination. ConclusionsLow high density lipoprotein level, high neutrophil count and hypertension are independent risk factors for RVO. The nomogram model established based on the above risk factors can effectively assess and quantify the risk of post-stroke depression in patients with cerebral infarction.
ObjectiveTo analyze the causal relationship between SARS-CoV-2 infection and retinal vascular obstruction by mendelian randomization (MR). MethodsA two-sample MR analysis utilizing summary statistics from genome-wide association studies (GWAS) in European populations was conducted. The GWAS data for SARS-CoV-2 infection comprised cases of common infection (2 597 856), hospitalized infection (2 095 324), and severe infection (1 086 211). Data on retinal vascular obstruction were obtained from the FinnGen database, which included 203 269 cases of retinal artery obstruction and 182 945 cases of retinal vein obstruction (RVO). Inverse variance weighting (IVW), random effects models, weighted median (WM), MR-Egger regression, simple models, and weighted models were used to analyze the bidirectional causal relationship between different SARS-CoV-2 infection phenotypes and retinal obstruction. The Q statistic was used to assess heterogeneity among single nucleotide polymorphisms (SNP), while MR-Presso was utilized to detect SNP outliers, and MR-Egger intercept tests were performed to evaluate horizontal pleiotropy. ResultsThe MR analysis, using IVW, random effects models, MR-Egger, WM, and weighted models, indicated no significant association between common SARS-CoV-2 infection, hospitalized infection, severe infection, and retinal vascular obstruction (P>0.05). Additionally, retinal vascular obstruction did not show a significant association with the various SARS-CoV-2 infection phenotypes (P>0.05). In the simple model, a significant association was found between severe SARS-CoV-2 infection and RVO (P<0.05), as well as between RVO and common SARS-CoV-2 infection (P<0.05). No heterogeneity was observed in the IVW and MR-Egger analyses (P>0.05). The MR-Egger test provided no evidence of horizontal pleiotropy (P>0.05), and MR-Presso detected no outlier SNP. ConclusionThe findings of this study do not support a causal relationship between SARS-CoV-2 infection and the occurrence of retinal vascular obstruction.
PURPOSE:To evaluated the luminal characteristics of the elderly central retinal vessels in the anterior optic nerves. METHODS:Serial sections of 15 central retinal arteries(CRA)and 23 central retinal veins (CRA)of 18 eyes of the aged 60 to 82 years old without anatomic malformation were examined by image analysis to investigate their luminal dimensional differences at the sites of lamina cribrosa and just anterior and posterior to it. RESULTS:The average values of the mean area of the CRA in the prelaminar,laminar,retrolaminar portions were separately(12.70,17.40,18.00)times;10-3mm2 and the mean perimetric length 0.56,0.56,0.57mm.No significant difference was detected in these three sites.The average values of the mean area of the CRV were respectively(7.00,5.40,7.90))times;10-3mm2 and the mean perimetric length 0.44,0.38,0.41mm.There were marked differences between the prelaminar value and the laminar one,and between the laminar value and retrolaminar one by comparison. CONCLUSION:The CRA has a uniform radius from prelaminar to retrolaminar positions,and tube radius of the CRV at the level of the lamina cribrosa is the least. (Chin J Ocul Fundus Dis,1997,13: 213-214 )
Objective To systematically review the efficacy of intravitreal injection of anti-vascular endothelial growth factors (anti-VEGF) on macular edema (ME) secondary to retinal vein occlusion (RVO). Methods Databases including PubMed, EMbase, Web of Science, The Cochrane Library, CNKI, WanFang Data and VIP were electronically searched to identify randomized controlled trials on different anti-VEGF drugs in the treatment of RVO-ME from inception to September 17th 2021. Two reviewers independently screened literature, extracted data, and assessed the risk bias of the included studies. Meta-analysis was then performed using RevMan 5.3 software. Results A total of 11 RCTs were included. Data from these studies included 2 436 eyes, of which 1 682 involved central retinal vein occlusion and 754 involved branch retinal vein occlusion. The results of meta-analysis showed that at 6 months of follow-up, anti-VEGF drug treatment of RVO-ME improved corrected visual acuity (MD=14.97, 95%CI 10.09 to 19.86, P<0.000 01) and reduced central retinal thickness (MD= −218.21, 95%CI −295.56 to −140.86, P<0.000 01) compared with control groups. At 12 months, anti-VEGF treatment of RVO-ME showed better improvement in corrected visual acuity compared with control group (MD=5.70, 95%CI 3.90 to 7.50, P<0.000 01). No statistically differences were observed in the improvements corrected visual acuity with different anti-VEGF drugs. However, for central retinal vein occlusion, different anti-VEGF drugs improved the central retinal thickness including aflibercept vs. bevacizumab (MD=−46.79, 95%CI −83.12 to −10.46, P=0.01), and bevacizumab vs. ranibizumab (MD=76.03, 95%CI 30.76 to 121.30, P=0.001) had significant differences. Conclusions The current evidence shows that anti-VEGF drugs can improve vision and reduce macular edema in the treatment of RVO-ME. Bevacizumab may be an effective alternative to ranibizumab or aflibercept. Existing evidence cannot determine differences between the improvement of best-corrected vision and the reduction of central retinal thickness during the long-term treatment of RVO, which requires to be verified by further research.
ObjectiveTo observe the clinical features of collateral circulation in different types of retinal vein occlusion. MethodsA retrospective clinical study. A total of 360 patients with monocular retinal vein occlusion diagnosed by ophthalmic examination in Department of Ophthalmology of Yunnan University Affiliated Hospital from December 2021 to December 2023 were included in the study. Among them, 157 males had 157 eyes and 203 females had 203 eyes. Age were (61.0±5.9) years. The duration of the disease from the onset of symptoms to the time of treatment was 3 days to 6 months. Macular branch vein occlusion (MBRVO), retinal branch vein occlusion (BRVO) and central retinal vein occlusion (CRVO) were observed in 67, 187 and 106 eyes, respectively. 210 eyes were with macular edema. All patients with macular edema were treated with anti-vascular endothelial growth factor (VEGF) by intravitreal injection. All eyes were examined by scanning source optical coherence tomography. The incidence, location, morphological characteristics, formation time of retinal collateral circulation and the effect of anti-VEGF drug on the formation of collateral circulation were observed. A short circuit in which blood vessels originating from the optic disc in the form of a blood loop return to the optic disc after the disc has been deformed for some time is defined as a short-circuited collateral circulation of the ciliary vessels of the optic disc. ResultsAfter 1 week of disease course, MBRVO and collateral circulation of BRVO affected eye were established. By 1 to 2 months, a relatively abundant and stable collateral circulation had been established. In the course of 2 to 3 months, the short-circuit collateral circulation of ciliary vessels in the optic disc of the affected eye gradually formed. At 6 months, collateral circulation was established in 36 eyes (53.7%, 36/67) in 67 MBRVO patients. Collateral circulation was observed in 187 eyes of BRVO patients (100.0%, 187/187). In 106 eyes with CRVO, collateral circulation was established in 29 eyes (18.1%, 29/106). In 36 eyes with MBRVO, collateral circulation was established at the vertical horizontal slit between the blocked area and the non-blocked area. In 187 eyes of BRVO patients, collateral circulation was established in the vertical horizontal slit between the blocked and non-blocked areas in 102 eyes; 54 eyes were blocked the most central bypass to the collateral circulation on normal blood vessels. The collateral circulation of 19 eyes was established through nasal and temporal side. Collateral circulation through the fovea was established in 12 eyes. Its morphology is straight out of shape, spiral sinuous and flower cluster. CRVO established collateral circulation in 29 eyes, all of which had short-circuit collateral circulation of ciliary vessels. In 210 eyes treated with anti-VEGF drugs, collateral circulation was established in 160 eyes. Among them, 32 eyes were MBRVO (50.7%, 32/63), BRVO 119 eyes (100.0%, 119/119), CRVO 9 eyes (32.1%, 9/28). ConclusionsThe incidence of collateral circulation of MBRVO, BRVO and CRVO is 53.7%, 100.0% and 18.1%, respectively. The forms of MBRVO were varied and the course of disease is about 2 months. Anti-VEGF therapy did not inhibit the establishment of collateral circulation.
PURPOSE:To probe the dosage and effect of lasers in panretinal photocoagulation. METHODS:Three kinds of ocular diseases,e, g., neovascular glaucoma(NVG)in 52 eyes ,central retinal vein occlusion(CRVO)in 47 eyes ,and preproliferative and proliferative diabetic retinopathies(PDR)in 231 eyes ,treated with krypton red and argon blue green laser panretinal photocoagulation in ocular clinic of our hospital,were analysed clinically and retropectively. RESULTS:The effetive average numbers of laser burns in panretinal photocoagulation in this series after clinical analysis statistically were found to be 1 500 in NVG,and 1 000 in PDR and CRVO respectively. CONCLUSION:To select the proper laser,its wave length,therapeutic position and volume of laser burns in accordance with the specific circumstances of various retinopthies is of extreme importance in success of laser panretinal photocoagulation. (Chin J Ocul Fundus Dis,1997,13: 195-196)
Retinal vein occlusion (RVO) is one of the most common retinal vascular diseases causing blindness, macular edema (ME) is often secondary to it, which causes serious visual impairment to patients. Imaging biomarkers in the changes of retina and choroid of ME secondary to RVO (RVO-ME) have important clinical value in the evaluation of condition, curative effect and visual acuity prediction of patients with RVO-ME. Among them, the disorganization of the retinal inner layers, the integrity of external limiting membrane and ellipsoid zone, and the change of central macular thickness are reliable indexes to evaluate the prognosis of visual acuity; hyperreflective foci, subretinal fluid and intraretinal fluid can be used as important parameters to reflect the level of inflammation; prominent middle limiting membrane and paracentral acute middle maculopathy are the objective basis for judging the degree of retinal ischemia; the changes of choroidal vascular index and choroidal thickness also have potential advantages in evaluating the progress of the disease. Accurately grasp the characteristics of biological markers of RVO-ME related optical coherence tomography is conducive to its reasonable and accurate use in the clinical diagnosis and treatment of RVO-ME, and helpful to further explore the pathogenesis of the disease.
Objective To analyze the risk factors of postoperative vitreous hemorrhage (PVH) after pars plana vitrectomy (PPV) for vitreous hemorrhage (VH) secondary to retinal vein occlusion (RVO). Methods A retrospective case-control study. A total of 195 RVO patients (195 eyes) with VH were first treated with PPV from November 2015 to December 2021 were included in this study. There were 102 males (102 eyes) and 93 females (93 eyes), with an age of (62.93±9.78) years. The patients were divided into PVH group (17 patients, 8.72%) and non-PVH group (178 patients, 91.28%) according to the occurrence of PVH. The time of occurrence of PVH was (140.33±130.85) days after PPV. All eyes were performed 23G or 25G systematic PPV by the same doctor. During the operation, different types of intraocular tamponade and intravitreal injection of anti-vascular endothelial growth factor or triamcinolone acetonide after operation were selected according to the severity of retinopathy. The follow-up time was (9.45±6.68) months. The baseline systemic parameters, ocular parameters and intraoperative parameters affecting the occurrence of PVH were analyzed. Baseline systemic parameters included sex, age, diabetes mellitus and hypertension; ocular parameters included RVO type, lens status, VH course, preoperative best corrected visual acuity and intraocular pressure; intraoperative parameters included cataract phacoemulsification, removal of internal limiting membrane, type of intraocular tamponade, type of intravitreal injection drug at the end of operation, etc. Kaplan-Meier survival analysis, and Cox univariate and multivariate regression analysis were performed to analyze the risk factors of PVH after PPV in RVO with VH patients. Results In PVH group, the number of patients with diabetes was more than that in the non-PVH group, and the course of diabetes was longer, and differences were statistically significant. There were significant differences in RVO type, lens status and type of intraocular tamponade. Univariate Cox regression analysis showed that the combination with diabetes [odds ratio (OR)=2.724, 95% confidence interval (CI) 1.006-7.374, P=0.049], duration of diabetes (OR=1.071, 95%CI 1.013-1.134, P=0.016), central retinal vein occlusion (OR=4.387, 95%CI 1.421-13.546, P=0.010), intraocular lens (OR=3.493, 95%CI 1.229-9.925, P=0.019), and intraocular gas tamponade (OR=3.640, 95%CI 1.365-9.702, P=0.010) were associated with PVH. Multivariate Cox regression analysis showed that intraocular gas tamponade was independent risk factor for PVH. Conclusion Intraocular gas tamponade can increase the risk of PVH after PPV in patients with VH secondary to RVO.