PURPOSE:To inquire into diagnosis and differentiation method for full thickness macular hole,lamellar macular hole and cystoid macular degeneration. METHODS:Amsler grid,Watzke' s sign and laser aiming beam test were performed in the patients:30 with full-thickness macular hole, 12 with lamellar macular hole and 8 with cystoid macular degeneration. The results were analyzed statistically with method of four table precise probability. RESULTS:The positive rate of Amsler grid,watzke's sign and laser aiming beam test was 100% in ail of the full thickness macular holes,and it was 85%,65%and 0 in lamellar macular holes and cystoid macular degeneration respectively. CONCLUSION: Amsler grid testing was sensitive but not specific,Watzke's sign was more sensitive and specific,and the laser aiming beam tesl was extremely sensitive and specific in clinical diagnosis of full thickness macular hole. (Chin J Ocul Fundus Dis,1996,12: 208-210)
Neurovascular unit (NVU) refers to a functional complex of neural cells and vasculature, which plays an important role in maintaining retinal homeostasis and matching metabolic demands. In physiological situation, retinal NVU mainly exerts two effects: (1) maintaining blood-retinal barrier for retinal homeostasis maintenance; (2) regulating local blood flow to meet metabolic and functional demands of the retina. The pathological changes in retinal diseases are reflected in each functional part of retinal NVU, including cell-cell connections, signal pathways, metabolic activities and cellular functions. However, the main pattern and manifestation of NVU impairment differs among retinal diseases due to different etiologies. At present, understanding on retinal NVU is still insufficient, and its clinical application is even more limited. Further application in the diagnosis and treatment of retinal diseases is an important direction for future research on NVU.
Objective To observe the clinical manifestation and treatment effect of Coatsprime; disease in adulthood. Methods The clinical data of 18 adult patients with Coatsprime; disease from 1980 to 2006 at the department of ophthalmology, Peking Union Medical College Hospital which had been diagnosed by ocular fundus examination and fundus fluorescein angiography (FFA), were retrospectively analyzed. The follow-up period was one year. Coatsprime; response diseases in all the patiens were excluded, such as history of radiation therapy, intraocular inflammation, retinal vascular occlusion, age-related macular degeneration (AMD) and more leakage of diabetic retinopathy. The patients, 14 males and 4 females, 11 left eyes and 7 right eyes, all of them occurs in unilateral; aged from 37 to 55 years with the average age of 43 years; the initial diagnostic vision was 0.02 to 1.5, the visual value was 0.1. 17 patients (17 eyes) were treated by laser photocoagulation, 1 patient was treated by release of retinal operation with condensation. The mean follow up period was 3.7 years (ranged from 1 to 15.3 years). Results In 18 patients (18 eyes), vitreous clear in 14 eyes, vitreous few muddy in 4 years when initial diagnosis. The optic discs in 18 eyes are normal. Lesions confined to one or two quadrant, for the most are in the temporal(15/18 eyes), less are in Bice (4/18 eyes), only one eye at top; two eyes lesions involved in 2 quadrant. There are typical retinal vascular anomalies expansion, miliary aneurysm, arterial aneurysm, macroaneurysms and capillary without perfusion areas; yellowwhite hard leakage by a large block or cluster in Lesion corresponding region. More than half of the eyes with macular edema or leakage; limited retinal detachment in 4 eyes, the range was very wide in 1 eye; retinal hemorrhage in 3 eyes. After treatment the exudation or the hemorrhage were absorbed and retinas were reset. Compared the visual acuity with before treatment, mostly (64.3%) improved 2 lines or keep in 1.2-1.5, no one decreased over 2 lines. The last vision was 0.02-1.5, the visual value was 0.1. Conclusions Coatsprime; disease in adulthood diagnosed in first time has similar characteristics with children, such as vascular anomaly of retina, fundus exudation. The differences including limited area of involvement, less hemorrhages, mild damage on macular, slow development of lesions in follow-up period and better visual prognosis. (Chin J Ocul Fundus Dis,2008,24:279-282)
Objective To investigate the clinical features, etiological classification and staging of epiretinal macular membrane(MEM). Methods Clinical materials of 194 cases of MEM diagnosed by fundus fluorescein angiography in outpatient department of eye clinic in this hospital from 1983 to 2000 were retrospectively analyzed. Results There were typical clinical symptoms and signs of MEM in all of this 222 eyes of 194 patients. Etiological classification revealed that 4 cases were congenital(2.12%), 22 cases were secondary(11.34%), and 168 cases were idio pathic(86.60%). Staging of course of disease indicated that 119 eyes were in early stage(53.60%), 72 eyes were in middle stage(32.43%), and 31 eyes were in late stage(13.96%). Conclusion MEM may be classified as congenital, secondary and idiopathic type according to its pathogenesis , as early, middle and late stage according to the clinical course of disease.This can be helpful in treating the disease. (Chin J Ocul Fundus Dis, 2001,17:210-213)
Multicolor imaging (MCI) based on confocal scanning laser ophthalmoscopy can gather more diagnostic information than traditional fundus photographs through utilizing three wavelengths of laser to scan posterior retina, which gain different layer reflected signal since the depth of penetration into retina is different for each wavelength. Currently, it provides important information and reference value for diagnose of different layer diseases on retina or choroid combining MCI with OCT, FAF, FFA and so on. However, there are still misunderstandings in the diagnosis of retinal diseases with MCI. Careful observation of retinal details in MCI, CFP and other imaging methods is more conducive to the correct diagnosis of fundus ophthalmopathy.
Objective To observe the expression of alpha;A-and alpha;B-in retina after blue-light exposure.Methods Forty female Wistar rats were divided randomly into 4 groups:control group,and blue-light exposure for 6,12,and 24 hours groups, with 10 rats in each group. The rats in the control group were not intervened.The other three groups of rats were exposed to blue fluorescent lights for 6,12,and 24 hours respcetively. Then the rats were kept in darkness for 12 hours. The globes were enucleated after anaesthesia.The immunohistochemistry and Western blot were performed to detect the expression of alpha;A and alpha;B-crystallin in retina.Results The absorbance value (A value) of retina alpha;A-crystallin was 1.40573plusmn;0.70748 in the control group, and were 4.317 51plusmn;0.412 97, 7.397 08plusmn;1.947 90, 9.634 32plusmn;2.377 61, respectively in the other 3 groups; the difference among the groups was significant (F=24.569,P<0.001). The A value of retina alpha;B-crystallin is 0.129 36plusmn;0.033 93 in the control group, and were 0.507 17plusmn;0.117 55, 7.345 43plusmn;2.292 97, 4.042 26plusmn;3.890 23, respectively in the other 3 groups; the difference among the groups was significant(F=40.102,P<0.001). The results of Western blot showed that the expression of alpha;A and alpha;B crystallin in groups with bluelight exposure was obviously higher than that in the control group.Conclusions Blue light may up-regulate the expression of alpha;A-and alpha;B-crystallin in ratsprime; retina.
Purpose To investigate the expression of intercellular adhesion molecules ICAM-1 and Mac-1,in epiretinal membanes (ERM) of eyes wi th proliferative vitreoretinopathy (PVR). Methods Twenty epiretinal membranes were obtained from eyes undergone vitrectomy for retinal detachment complicated with PVR and observed by immunohistochemical examination. Results Expressions of ICMA-1 and Mac-1 were observed in 18 and 15 membranes respectively.Expression of both adhesion molecules in 12 membranes. Conclusion The findings indicate that adhesion molecules might be involved in the development of PVR. (Chin J Ocul Fundus Dis,2000,16:71-138)
Acute coronary syndromes (ACS) are clinical syndromes caused by the instability or rupture of coronary atheromatous plaques. The development and treatment of ACS are closely related to some ocular manifestations. Hypertensive retinopathy, retinal arteriovenous occlusion, diabetes retinopathy, and age-related macular degeneration are associated with a high risk of ACS. Retinal vascular occlusion may be a potential postoperative complication of the percutaneous coronary intervention for ACS. Ocular parameters such as the retinal vascular diameter and density, the blood flow velocity of the ophthalmic artery, and the choroidal thickness are expected to be markers for assessing or predicting the risk of ACS, which are of important value for the prevention of cardiovascular events such as ACS.
Objective To explore the protective mechanism and effect of coenzyme Q10 on the retinal photic injury in experimental rats. Methods Thirty Sprague-Dawley rats were divided randomly into 3 groups: normal control group, positive control group, and coenzyme Q10 group. The experimental model of photic injury in rats was established by being exposed to intense green fluorescent light with an illuminance level of (2000plusmn;120) Lux for 24 hours. The physiological saline and coenzyme Q10 were given through tail intravenous injection at 24 hours and 30 min before light exposure in positive control group and coenzyme Q10 group, respectively. Ophthalmectomy was performed 1 day after the illumination. Changes of retinal histopathology and ultrastructure were observed by light and electron microscope. The apoptosis rate of retinal cells was detected by flow cytometry. Results The result of histopathological examination showed that in coenzyme Q10 group, the outer segments arranged trimly with only few cell apoptosis; the inner and outer segments slightly swelled, and compared with the positive group, the histopathological changes alleviated obviously. The result of flow cytometry revealed that the apoptosis rate of retinal cells was (1.65plusmn;1.48)% in normal control group, (25.83plusmn;2.92)% in positive control group, and (12.43plusmn;2.25)% in coenzyme Q10 group, respectively. The apoptosis rate of retinal cells was higher in positive control group than that in the normal control group (t=18.28, Plt;0.01), and lower in coenzyme Q10 group than that in the positive control group (t=9.07, Plt;0.01). Conclusion Coenzyme Q10 plays an important role in preventing the photic injury of retina and optic cell apoptosis. (Chin J Ocul Fundus Dis, 2007, 23: 122-125)
The retinal blood oxygen quantification method is a fast and non-invasive new retinal vascular imaging technology, which is used to reflect the metabolism of retinal blood oxygen and the micro-circulation of whole body by measuring, analyzing and quantifying the blood oxygen saturation of the main arteries and veins of the retina. The circulation state provides a reliable basis for medical diagnosis. Retinal blood oxygen saturation can be used as a biomarker for the diagnosis and evaluation of ophthalmologic and brain diseases such as diabetic retinopathy, central retinal vein occlusion, retinitis pigmentosa, glaucoma and Alzheimer's disease.