PURPOSE:To investigate the relationship between the development of the diabetic retinopathy(DR)and the changes of ocular hemodynamics. METHODS:The hemodynamic parameters (Vmax,Vmin,RI)of central relinal artery(CRA )and central retinal vein(CRV)were measured both in the diabetes mellitus(DM) group(72 cases)and the control group(28 cases)with color Doppler flow imaging(Acuson-128XP/10). RESULT:The hemodynamic changes in CRA and CRV in the different stages of DR had their own characteristicS. The blood flow in CRA of the DM patients without DR was higher than that of the control (Plt;0.05). With tile deterioration of the retinopathy the blood flow in CRA decreased. The velocity of the blood flow in CRA of the proliferative DR group was less than that in the control ,DM without DR patients and background DR patients(Plt;0.05). The velocity of the flow in CRV of the DM patients was higher than that of control (Plt;0.001 )and exhibited its remarkable pulsative pattern. CONCLUSIONS:The changes of the hemodynamics in CRA.CRV was associated with the development of the diabetic retinopathy. (Chin J Ocul Fundus Dis,1997,13: 210-212 )
ObjectiveTo observe the clinical characteristics and optical coherence tomography (OCT) features of pseudopapilledema (PPE) combined with peripapillary hyper-reflective ovoid mass-like structures (PHOMS) in children. MethodsA retrospective observational study. From October 2019 to May 2021, total 22 eyes from 12 children diagnosed as PPE combined with PHOMS in the Neuro-ophthalmology Department of The First Hospital of Xi’an (Affiliated of The First Hospital of Northwest University) were recruited. Among the children, 6 were male and 6 were female. The average age was (10.6±2.7) years. The average course from disease onset to diagnosis of PPE combined with PHOMS was (8.0±7.5) months. All patients underwent best corrected visual acuity (BCVA), relative afferent papillary defect (RAPD), Ishihara's test, fundus photography, OCT, fundus autofluorescence (FAF), ocular B-mode ultrasound, visual field and patternvisual evoked potential (P-VEP). The clinical and OCT characteristics of the patients were observed. ResultsThe anterior segments of the patients were normal. The intraocular pressures and Ishihara's test were all normal. All RAPD were negative. Total 22 eyes, BCVA was 1.0 in 21 eyes and one eye was 0.12. The fundus photography revealed blurred optic discs margin, showing mild to moderate edema-like elevation with more prominent in the nasal parts, presenting as a “C” shape halo. No obvious abnormal fluorescence was observed in FAF. The OCT scan of involvement eyes showed an elevated appearance in vary degrees, and the sharply marginated ovoid hyper-reflective mass-like structures which laterally herniated into the peripapillary region under retinal nerve fiber layer and above the Bruch membrane were detected with consecutive nasal enlargement scanning, corresponding to the nasal parts in the fundus photography. The higher degree of elevation, the larger the volume. Macular retina pigment epithelium layer and ganglion cell thickness were normal. Ocular B-mode ultrasound showed that the head of the optic nerve in the posterior wall of the eyeball (in front of the optic disc) was elevated in all affected eyes, and there was no strong signal echo in it. Visual field examination showed physical blind spot enlargement in 3 eyes and visual field defect in 2 eyes. P-VEP examination showed that the peak was slightly delayed in 3 eyes and the amplitude was slightly reduced in 3 eyes. ConclusionsEnlarged nasal optic disc OCT scan can improve the detection rate of PHOMS. PHOMS were detected bilaterally in the cases with binocular PPE while only in the effected eye in the cases of monocular PPE; the higher degree of PPE, the lager volume of PHOMS. PHOMS were could contribute to the diagnosis of PPE in children.
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 clinical characteristics of vascular neuro-ophthalmology in patients with central retinal artery occlusion (CRAO). MethodsA single-center, prospective clinical study. From January 2018 to December 2020, 49 eyes of 49 CRAO patients of The Neuro-ophthalmology Department of Xi'an First Hospital were included in the study. Data on patient demographic characteristics, vascular risk factors, disease characteristics, digital subtraction angiography (DSA) imaging characteristics of internal carotid arteries, treatment, treatment-related adverse events, and 1-month follow-up vascular events were collected. All patiens were examined by visual acuity, head CT and or magnetic resonance imaging. At the same time, 35 cases of internal carotid artery vascular DSA were examined; 14 cases of head and neck CT angiography were examined. The anatomical variation of the extracranial segment of the internal carotid artery was divided into tortuous, tortuous, and coiled; the aortic arch was divided into type Ⅰ, type Ⅱ, type Ⅲ, and bovine type. Intravenous thrombolysis, arterial thrombolysis, conservative treatment were performed. The follow-up time was 1 month after treatment. Functional vision was defined as vision ≥20/100. Vascular events were strokes, cardiovascular events, deaths and neovascular glaucoma during follow-up. ResultsAmong 49 eyes of 49 cases, 40 eyes were male (81.6%, 40/49), and 9 eyes were female (18.4%, 9/49); the average age was 60.7±12.9 years. There were 33, 17, and 16 cases with hypertension, type 2 diabetes, and cerebrovascular disease, respectively; 27 and 34 cases had a history of smoking and tooth loss, respectively. Taking antihypertensive, hypoglycemic, antiplatelet aggregation/anticoagulation, and hypolipidemic drugs were 15, 5, 8, and 5 patients, respectively. There were 11 cases of transient amaurosis before the onset, and 17 cases of CRAO after waking up. There were 33 cases (67.3%, 33/49) with infarction of the affected side of the brain tissue. DSA was performed in 35 cases, and the stenosis rate of the internal carotid artery on the affected side was 70%-99% and 100% were 3 (8.6%, 3/35) and 4 (11.4%, 4/35) cases, respectively. The ophthalmic artery on the affected side originated from the external carotid artery in 5 cases (14.3%, 5/35). There were 17 (54.8%, 17/31) and 2 (6.5%, 2/31) cases of tortuousity and kinking in the extracranial segment of the internal carotid artery. There were 15 (42.9%, 15/35), 6 (17.1%, 6/35), and 2 (5.7%, 2/35) cases of aortic arch type Ⅱ, type Ⅲ, and bovine type, respectively. Intravenous thrombolysis and arterial thrombolysis were performed in 13 and 29 cases, respectively. Complications occurred in 2 cases during treatment; 3 cases of symptoms fluctuated after treatment, and 10 cases of asymptomatic new infarcts occurred in imaging studies. Forty-eight cases were treated with antiplatelet aggregation/anticoagulation and hypolipidemic treatment. At discharge and 1 month after treatment, the recovery of functional vision was 7 and 17 cases, respectively. One month after treatment, 1 case died because myocardial infarction; 2 cases of neovascular glaucoma occurred. ConclusionThe proportion of CRAO patients with vascular risk factors and internal carotid artery abnormalities on the affected side is relatively high; the prognosis is relatively good after intravenous thrombolysis and/or arterial thrombolysis and secondary stroke prevention.
Objective To investigate the relationship between age-adjusted Charlson comorbidity index (aCCI) and ischemic stroke in patients with ophthalmic artery occlusion (OAO) or retinal artery occlusion (RAO). MethodsA single center retrospective cohort study. Seventy-four patients with OAO or RAO diagnosed by ophthalmology examination in Shenzhen Second People's Hospital from June 2004 to December 2020 were included in the study. The baseline information of patients were collected and aCCI was used to score the patients’ comorbidity. The outcome was ischemic stroke. The median duration of follow-up was 1 796.5 days. According to the maximum likelihood ratio of the two-piecewise COX regression model and the recursive algorithm, the aCCI inflection point value was determined to be 6, and the patients were divided into low aCCI group (<6 points) and high aCCI group (≥6 points). A Cox regression model was used to quantify the association between baseline aCCI and ischemic stroke. ResultsAmong the 74 patients, 53 were males and 21 were females, with the mean age of (55.22±14.18) (19-84) years. There were 9 patients of OAO and 65 patients of RAO. The aCCI value ranges from 1 to 10 points, with a median of 3 points. There were 63 patients (85.14%, 63/74) in the low aCCI group and 11 patients (14.86%, 11/74) in the high aCCI group. Since 2 patients could not determine the time from baseline to the occurrence of outcome events, 72 patients were included for Cox regression analysis. The results showed that 16 patients (22.22%, 16/72) had ischemic stroke in the future. The baseline aCCI in the low aCCI group was significantly associated with ischemic stroke [hazard ratio (HR)=1.76, 95% confidence interval (CI) 1.21-2.56, P=0.003], and for every 1 point increase in baseline aCCI, the risk of future ischemic stroke increased by 76% on average. The baseline aCCI in the high aCCI group had no significant correlation with the ischemic stroke (HR=0.66, 95%CI 0.33-1.33, P=0.247). ConclusionsaCCI score is an important prognostic information for patients with OAO or RAO. A higher baseline aCCI score predicts a higher risk of ischemic stroke, and the association has a saturation effect.