ObjectiveTo compare the clinical effects of urokinase thrombolytic therapy for optic artery occlusion (OAO) and retinal artery occlusion (RAO) caused by facial microinjection with hyaluronic acid and spontaneous RAO.MethodsFrom January 2014 to February 2018, 22 eyes of 22 patients with OAO and RAO caused by facial microinjection of hyaluronic acid who received treatment in Xi'an Fourth Hospital were enrolled in this retrospective study (hyaluronic acid group). Twenty-two eyes of 22 patients with spontaneous RAO were selected as the control group. The BCVA examination was performed using the international standard visual acuity chart, which was converted into logMAR visual acuity. FFA was used to measure arm-retinal circulation time (A-Rct) and filling time of retinal artery and its branches (FT). Meanwhile, MRI examination was performed. There were significant differences in age and FT between the two groups (t=14.840, 3.263; P=0.000, 0.003). The differecens of logMAR visual acuity, onset time and A-Rct were not statistically significant between the two groups (t=0.461, 0.107, 1.101; P=0.647, 0.915, 0.277). All patients underwent urokinase thrombolysis after exclusion of thrombolytic therapy. Among the patients in the hyaluronic acid group and control group, there were 6 patients of retrograde ophthalmic thrombolysis via the superior pulchlear artery, 6 patients of retrograde ophthalmic thrombolysis via the internal carotid artery, and 10 patients of intravenous thrombolysis. FFA was reviewed 24 h after treatment, and A-Rct and FT were recorded. Visual acuity was reviewed 30 days after treatment. The occurrence of adverse reactions during and after treatment were observed. The changes of logMAR visual acuity, A-Rct and FT before and after treatment were compared between the two groups using t-test.ResultsAt 24 h after treatment, the A-Rct and FT of the hyaluronic acid group were 21.05±3.42 s and 5.05±2.52 s, which were significantly shorter than before treatment (t=4.569, 2.730; P=0.000, 0.000); the A-Rct and FT in the control group were 19.55±4.14 s and 2.55±0.91 s, which were significantly shorter than before treatment (t=4.114, 7.601; P=0.000, 0.000). There was no significant difference in A-Rct between the two groups at 24 h after treatment (t=1.311, P=0.197). The FT difference was statistically significant between the two groups at 24 h after treatment (t=4.382, P=0.000). There was no significant difference in the shortening time of A-Rct and FT between the two groups (t=0.330, 0.510; P=0.743, 0.613). At 30 days after treatment, the logMAR visual acuity in the hyaluronic acid group and the control group were 0.62±0.32 and 0.43±0.17, which were significantly higher than those before treatment (t=2.289, 5.169; P=0.029, 0.000). The difference of logMAR visual acuity between the two groups after treatment was statistically significant (t=2.872, P=0.008). The difference in logMAR visual acuity before and after treatment between the two groups was statistically significant (t=2.239, P=0.025). No ocular or systemic adverse reactions occurred during or after treatment in all patients. ConclusionsUrokinase thrombolytic therapy for OAO and RAO caused by facial microinjection with hyaluronic acid and spontaneous RAO is safe and effective, with shortening A-Rct, FT and improving visual acuity. However, the improvement of visual acuity after treatment of OAO and RAO caused by facial microinjection with hyaluronic acid is worse than that of spontaneous RAO.
ObjectiveTo investigate the therapeutic effects of thrombolysis infusion via microcatheter on the treatment of central retinal artery occlusion(CRAO). MethodsUrokinase (UK) was directly infused via ophthalmic artery (OA) by microcatheter (6 patients) or via intravenous (7 patients) to dissolve the thrombus. The patency of the artery was evaluated by fundus fluorescein angiography (FFA), and the effect of fibrinolytic activity on the systemic changes was observed by blood biochemical examination simultaneously. ResultsIn 6 patients in the microcatheter group, 5 had completely and 1 had partly reopened OA on the morrow of UK infusion with the patency rate of 83.33%, while in 7 patients in vein group, 3 completely reopened, 2 partly reopened and 2 obstructed OA were found with the patency rate of 42.86%. The difference between the two groups was significant. No obvious change of index of blood coagulation system was found in catheter group, which had great disparity compared with the vein group.ConclusionUrokinase infusion via microcatheter in CRAO has better therapeutic impact and smaller effect on systemic action. (Chin J Ocul Fundus Dis, 2005,21:16-19)
Objective To explore the short-term efficacy and safety of intra-arterial thrombolysis (IAT) in the treatment of retinal artery occlusion (RAO) with the assistance of the rescue green channel in the eye stroke center. Methods A prospective, interventional, single-center study. Thirty-eight eyes from 38 RAO patients who received IAT treatment in Guangdong Provincial People’s Hospital were enrolled. All the patients were rescued via the green channel in our eye stroke center. Data from comprehensive ocular examinations including best-corrected visual acuity (BCVA) and optical coherence tomography angiography (OCTA) were collected. BCVA was measured with Snellen chart and converted to the logarithmic minimum angle of resolution (logMAR) unit for statistical analysis. RTVue XR OCTA was used to measure vascular densities (VD) of the superficial capillary plexus (SCP), deep capillary plexus (DCP) and radial peripapillary capillary (RPC), and central retinal thickness (CRT). All RAO eyes attempted IAT treatment and 34 eyes were successful. Four eyes failed to complete IAT because of the occlusion of internal or common carotid arteries on the same side with the RAO eyes. Ocular examinations in post-operative 1-3 days were performed with the same devices and methods as those before surgery. Parameters measured before and after surgery include BCVA, VD of SCP, DCP, RPC, and CRT. Data of the green channel collected include the time intervals from onset of RAO to first presentation in local hospitals, and from onset of RAO to our eye stroke center. Comparisons of VD and CRT between the RAO eyes and contralateral healthy eyes were performed with independent samples Mann-Whitney U test; comparisons of VD and CRT in RAO eyes before and after IAT surgery were performed with paired samples Wilcoxon Rank Sum test. Results Among the 34 RAO patients who had successful IAT surgery, 18 (52.9%, 18/34) were males and 16 (47.1%, 16/34) were females; the mean age was (51.0±12.9) years old. There were 30 and 4 eyes diagnosed as central RAO and branch RAO respectively. The logMAR BCVA before and after IAT surgery was 2.52±0.61 and 2.18±0.85 respectively, and the difference was statistically significant (Z=-3.453, P=0.002). Before surgery, VD of SCP, DCP and RPC were significantly decreased and CRT was significantly increased in the affected eye compared with the contralateral healthy eyes, with the statistical significance (P<0.001). Compared with those before surgery, the VD of SCP and DCP were significantly improved after surgery (Z=-2.523, -2.427; P=0.010, 0.014), while there was no difference in VD of RPC and CRT (Z=-1.448, -1.454; P=0.150, 0.159). The time interval between onset of RAO and first visit to the hospital was (6.56±6.73) hours; the time interval between onset of RAO and the arrival at our hospital was (24.11±19.90) hours. No cerebral stroke was observed in the early post-operative period and no cerebrocardiovascular events were observed later. he time interval between onset of RAO and the arrival at our hospital was (24.11±19.90) hours. No cerebral stroke was observed in the early post-operative period and no cerebrocardiovascular events were observed later. Conclusions The short-term efficacy and safety of IAT in the treatment of RAO were satisfactory. The rescue time window might be prolonged.
ObjectiveTo observe the clinical features of retinal arterial occlusion (RAO) in youth.MethodsThis is a retrospective case review. Nine patients (9 eyes) with RAO were enrolled in this study. There were 6 males (6 eyes) and 3 females (3 eyes). The average age was (14.22±3.93) years. The best-corrected visual acuity (BCVA), indirect ophthalmoscopy, fundus color photography and fundus fluorescein angiography were performed. All patients underwent systemic evaluation including blood routine, erythrocyte sedimentation rate, blood lipids, vasculitis screening, homocysteine level, antiphospholipid antibody, blood coagulation, neck vascular ultrasound, and cardiac color ultrasound and electrocardiogram examination. All patients received oxygen therapy, blood medications and symptomatic treatment. Meanwhile, the patients with autoimmune diseases were received systemic glucocorticoid therapy. The follow-up was ranged from 6 to 12 months. The visual acuity and fundus change before and after treatment were compared.Resultsamong 9 patients, one patient had systemic lupus erythematosus, one patient had congenital heart disease, one patient had hypergammaglobulinemia, and carotid artery color ultrasonography showed that the internal carotid artery vessels faltered in 2 cases. The BCVA was 0.01 - 0.12. Among 9 eyes, there were 5 eyes (55.6%) with retinal branch artery occlusion (BRAO), 2 eyes (22.2%) with central retinal artery occlusion (CRAO), 2 eyes (22.2%) with ciliary retinal artery occlusion (CLAO). CRAO eyes showed positive RAPD (relative afferent pupillary defect), fine retinal artery and the corresponding vein, pale white retinal edema in posterior area and macular cherry-red spot. BRAO eyes manifested as inferior temporal artery occlusion and pale white retinal edema around them. CLAO eyes showed temporal ligulate grey-white retinal edema. At the last follow-up, BCVA improved and retinal vessels returned to normal in 7 eyes (77.8%); BCVA unchanged and no improvement in fundus in 2 eyes (22.2%).ConclusionAdolescent RAO is mostly partial occlusion, the prognosis is generally good after early active treatment.
ObjectiveTo observe the clinical and imaging features of patients with retinal vein occlusion (RVO) complicated with retinal artery occlusion (RAO). MethodsA retrospective clinical study. Fifteen patients with 15 eyes with RVO combined with RAO and macular edema diagnosed by ophthalmology examination in the Department of Ophthalmology, First People's Hospital of Xianyang City during 2 years from February 1, 2022 to January 31, 2024 were included in the study. Branch retinal vein occlusion (BRVO) combined with branch retinal artery occlusion (BRAO) occurred in 3 cases and 3 eyes. Central retinal vein occlusion (CRVO) complicated with central retinal artery occlusion (CRAO) in 12 eyes. Best corrected visual acuity (BCVA), intraocular pressure, scanning laser ophthalmoscope, optical coherence tomography (OCT), fluorescein fundus angiography (FFA) and serum homocysteine were all performed. OCT angiography (OCTA) was performed in 6 eyes. All eyes were treated with intravitreal injection of anti-vascular endothelial growth factor drugs. After the initial 1 treatment, dosage was assessed as needed. Follow-up was performed every month for 12 months after treatment. FFA inspection was performed at 3 months. During follow-up, it was found that there were no perfusion areas of capillaries, and retinal laser photocoagulation therapy was given in time. Fundus manifestations, FFA, OCT, OCTA characteristics and causes of disease were analyzed retrospectively. ResultsThere were 15 eyes in 15 cases, 9 eyes in 9 males; 6 women with 6 eyes. Age was (61.0±9.7) years. All complained of painless vision loss in one eye. All eyes were positive for relative afferent pupillary disorder. Contralateral congenital optic disc defect was in 1 case; hypertension was in 6 cases; hyperhomocysteinemia was in 2 cases; cerebral infarction was in 3 cases; coronary heart disease was in 1 case. CRVO combined with CRAO was in 12 eyes BCVA light sensitivity-0.25. The BCVA of BRVO combined with BRAO were 0.1, 0.4 and 0.25, respectively. All the patients had retinal edema in the posterior pole of the eye, venous sinuous, dilated, thin arteries and stiff shape. The retina presents with flaky or flame-like bleeding. Posterior polar retinal lint patch was in 13 eyes. In 12 eyes with CRVO combined with CRAO, optic disc edema was observed and the boundary was not clear. In 3 eyes with BRVO combined with BRAO, no obvious abnormality was found in the optic disc, and the boundary was clear. FFA examination showed no or prolonged arterial filling, delayed retinal vein laminar flow, relatively slow or even no capillary filling, macular arteriole atretosis to varying degrees, arch ring structure destruction, optic disc telangiectasia and fluorescein leakage. OCT examination showed that the middle and inner layers of the retina were thickened to varying degrees, the diffuse reflex was enhanced, the interlayer structure was unclear, and the reflex of the lower retinal tissue was weakened. The blood flow density of superficial capillary plexus and deep capillary plexus (DCP) decreased in 6 eyes undergoing OCTA examination. Decreased or interrupted blood flow in the vascular bed of DCP. During the follow-up period, there were 13 eyes with no perfusion area of retinal capillary. The time of occurrence was (1.14±0.95) (0-2) months, and the area was 10-75 disc area. Optic nerve atrophy occurred in 5 eyes. At the last follow-up, visual acuity increased, unchanged and decreased in 12, 2 and 1 eyes, respectively. ConclusionsThe pathogenesis of RVO-RAO is complicated. Most RVO and RAO occurred simultaneously, and a few RVO occurred several days after RAO. Although the RAO manifestations are not typical, the radiographic features are both RVO and RAO. Compared with BVRO combined with BRAO, the prognosis of visual acuity in CRAO patients with CRVO is worse.
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.
ObjectiveTo evaluate the therapeutic effects of super-selective arterial catheterization with thrombolysis for central retinal artery occlusion (CRAO).MethodsThe clinical data of 16 patients with CRAO were collected. Aortic arch angiography with the catheterization through femoral artery firstly, and then the selective internal carotid artery angiography had been performed on all of the patients, including 12 ones who had undergone the urokinase thrombolysis therapy.ResultsIn the 16 patients, 3 with the severe straitness of the internal carotid artery and 1 with occlusion of incision of the ocular artery had not been treated by thrombolysis; and the others with occlusion of arterial trunk and CRAO had undergone thrombolysis therapy successfully. After the treatment, the visual acuity of the patients had improved in different degree and no systemic side effect had been found during the treatment.ConclusionsSuper-selective arterial catheterization with thrombolysis for CRAO may improve the visual acuity of the patients. The effects and risks of this treatment should be evaluated in further study.(Chin J Ocul Fundus Dis, 2005,21:20-21)
ObjectiveTo observe the cilioretinal artery and its relationship with central visual loss in central retinal artery occlusion(CRAO) patients. MethodsA total of 140 CRAO patients (140 eyes) were enrolled in this study. The patients included 83 males and 57 females. The age was ranged from 42 to 75 years old, with an average of (55.70±22.20) years. All the patients were affected unilaterally, including 79 right eyes and 61 left eyes. The disease duration was from 1 to 10 days, with a mean of (4.7±3.9) hours. Central vision and fluorescence fundus angiography were measured for all patients. The central visual loss was divided into 3 types: mild (≥0.1), moderate (finger counting to 0.08) and severe (no light perception to hand movement). The number, length and location of cilioretinal artery were observed. The correlation between cilioretinal artery and central visual loss was analyzed. ResultsThere were 41 eyes (29.3%) with cilioretinal artery, which including 13 eyes (31.7%) with ≥3 cilioretinal arteries, 23 eyes (56.1%) with 2 cilioretinal arteries, 5 eyes (12.2%) with 1 cilioretinal arteries. The cilioretinal artery was within 1 disk diameter (DD) in length and not reached the macular area in 37 eyes (90.2%), was more than 1DD in length and reached the macular foveal area in 4 eyes (9.8%). The cilioretinal artery located in the temporal side of optic disk in 29 eyes (70.7%), and in other quadrant in 12 eyes (29.3%). The distribution of central visual loss degree as follow: mild in 15 eyes (10.7%), moderate in 50 eyes (35.7%), severe in 75 eyes (53.6%). The difference of central visual loss in the eyes with or without cilioretinal arteries was not significant (χ2=0.16, P>0.05). ConclusionsCilioretinal artery exists in 29.3% CRAO eyes. There was no close correlation between cilioretinal artery and central visual loss.
Objective To observe the pathological changes of branch retinal artery occlusion (BRAO) by optical coherence tomography (OCT). Methods Twenty-six eyes of 26 patients with BRAO diagnosed in our Center from December 2002 to June 2005 were examined by OCT. The intervals of disease onsets and OCT examinations in all patients were within 2 weeks. The OCT scan modes were horizontal or vertical lines, and the locations of OCT scanning were macular area and the posterior pole of retina. The retinal thicknesses of macular foveola were measured and the macular thicknesses in different obstructive locations were compared using ANOVA analysis. The correlations of visual acuity and retinal thickness were analyzed by Pearson correlation analysis. Results Among the 26 eyes with BRAO, 9 eyes with temporosuperior artery occlusion, 8 eyes with temporoinferior artery occlusion, 7 eyes with arteriole occlusion and 2 eyes with retinal ciliary artery occlusion were observed. The pathological characteristics of OCT images of BRAO were increased retinal thickness and reflectivity in the obstructive locations, and widened dark area of photoreceptors (edema), while there was no obvious foveal edema were observed. The retinal images in other locations were normal. The average macular foveal thickness in the groups of temporosuperior artery occlusion, temporoinferior artery occlusion and retina arteriole occlusion were (161.11plusmn;17.66) mu;m, (148.38plusmn;18.48) mu;m and (136.29plusmn;14.94) mu;m, respectively (F=4.137,P=0.031,Pgt;0.01). There was no correlation of visual acuity with retinal thickness in 24 eyes (r=0.285,P=0.176,Pgt;0.01). Conclusion OCT could display the pathological changes of retinal tissue of BRAO in vivo. The increases of macular foveal thicknesses in BRAO eyes are not so obvious, and no correlations could be seen between visual acuity and macular foveal thickness. OCT is indicated on the old patients and the patients with systemic diseases for whom FFA is contraindicated. The unique characteristics of pathological changes of BRAO indicated by OCT images supply the objective signs for the instant clinical diagnosis. (Chin J Ocul Fundus Dis, 2007, 23: 173-176)
Objective To investage the relationship among the visual loss, the disease course, and retinal circulation time in patients with central retinal artery occlusion (CRAO). Method The data about the central vision, disease course, and results of fundus fluorescein angiography (FFA) of 99 patients (99 eyes) with CRAO were statistically analyzed. Results Between 2 days and 21 days after the occurrence of CRAO, the disease course didnrsquo;t relate to the central visual loss (Pgt;0.05). In the retinal circulation, a correlation was found between the time of fluorescein perfusion and the central visual loss (Plt;0.05) but not between the time of arm-retina circulation and the central visual loss (Pgt;0.05). Conclusion In the duration of retinal circulation, the time of fluorescein perfusion in retinal artery relates to the central visual loss; the longer the duration is, the worse the vision is. (Chin J Ocul Fundus Dis, 2007, 23: 177-179)