Objective To observe the changes of intraocular pressure (IOP) after intravitreous injection wih triamcinolone acetonide (TA) and their affected factors. Methods The clinical data of 125 patients (125eyes) who had undergone intravitreous injection with TA were retrospectively analyzed. The patients (52 males and 73 females) aged from 17 to 83 years with the average age of 56.5. There were 49 patient (39.2%) with diabetic retinopathy (DR), 56 (44.8%) with retinal vein occlusion (RVO), and 20 (16.0%) with exudative age-related macular degeneration (AMD). One day before the treatment, IOP was measured by Goldmann applanation tonometry, and the basic IOP was 7~31 mm Hg (1 mm Hg=0.133 kPa) and the average IOP was (14.69plusmn;3.72) mm Hg. The patients were divided into two groups according to the basic IOP:below 15 mm Hg group (n=64) and 15 mm Hg or above group (n=61). All of the patients underwent intravitreous injection with 4mg TA. IOP was measured 1 day, 3 days, 1 week, 2 weeks, and 1 month after the treatment in the same way, respectively, and later was measured once every 1 month. The follow-up period was 3~21 months with the mean of 5 months. The elevation of IOP would be defined as the pressure of 21mmHg or higher. The changes of IOP in patients before and after the treatment, and with different diseases and ages were analyzed. Results Thirty-six patients (28.8%) had elevation of IOP after the treatment, out of whom 97.2% had the elevation within 3 months after the injection and decreased to the basic level 7 months after the injection. In these patients, there were 11 (17.19%) in the below 15 mm Hg group and 25 (40.98%) in 15 mm Hg or above group, and the difference between the two groups was statistically significant (P<0.01). During the followup period, the mean maximum IOP was (20.09plusmn;7.58) mmHg, which was 5.43 mmHg higher than that before the treatment(P<0.001). The mean maximum IOP of 53 patients (42.4%) after the treatment was 5 mm Hg higher than that before the treatment. The mean maximum IOP during the followup period was (18.19plusmn;4.73)mmHg in DR group,(22.50plusmn;9.30)mmHg in RVO group, and(18.12plusmn;6.09)mmHg in AMD group. The occurrence of the elevation of IOP in RVO group was obviously higher than that in the other 2 groups (P<0.01). The result of regression analysis showed that age was correlative with the elevation of IOP after the treatment: more risks of occurrence of high IOP were found in younger patients (P=0.000). Conclusion Elevation of IOP after intravitreous injection with TA is common, which is correlative with the basic IOP, age, and pathogeny. After the intravitreous injection with TA, the elevation of IOP often occurs in patients with high basic IOP before treatment, younger age, and RVO. (Chin J Ocul Fundus Dis, 2007, 23: 115-117)
Objective To investigate the clinical characteristics and mechanisms of ocular manifestations related to carotid artery stenosis. Methods The general clinic data and related ocular manifestations in 124 patients with carotid artery stenosis were retrospectively. Results In the 124 patients, 36 (29%) had ocular manifestations, and 28 (22. 6 %) complained the ocular discomfort as the first symptom. Among the 36 patients, 31 patients (86.1%) had been disclosed unilateral or double stenosis of internal carotid artery by carotid Doppler ultrasound examination, and the result of digital subtract angiography revealed middle and severe degree of internal carotid artery stenosis in 8 and 23 patients respectively. There was no statistic difference of incidence of ocular manifestations between 67 patients of severe internal carotid artery stenosis and 34 patients with middle one(chi;2test,P =0.266 2,P>0.05). The ocular manifestations included amaurosis fugax (52.8%),acute decline or loss of the visual ability and defect of visual fields (36.1%), binocular diplopia (13.9%), ptosis (13.9%), and persistent high intraocular pressure(2.8%) one patient might had several ocular manifestations simultaneously. In 36 patients, central retinal artery occlusion had been diagnosed in 4, venous stasis retinopathy in 1,central or branch retinal vein occlusion in 6, neovascular glaucoma in 1, and anterior ischemic opticneuropathy in 2. One patient with double occlusion of internal carotid artery didnrsquo;t have any ocular manifestation. Conclusion Carotid artery stenosis, especially internal carotid artery may lead to acute or chronic ocular ischemic lesions, and the occurrence of ocular manifestations in chronic ocular ischemic lesions relates to compensa tion of collateral circulation;patients with ocular ischemic lesions are recomm end to undergo a routine carotid artery examination. (Chin J Ocul Fundus Dis, 2006,22:376-378)
ObjectiveTo evaluate macular microvessel changes in familial exudative vitreoretinopathy (FEVR) by optical coherence tomography angiography. MethodsCross-sectional clinical case-control study. From November 2019 to November 2020, 21 FEVR patients (41 eyes) from Weifang Eye Hospital were selected; 17 healthy volunteers (28 eyes) with the same age and gender as FEVR group were selected as normal control group. According to the best corrected visual acuity (BCVA) 1.0 and <1.0, FEVR group was divided into normal visual acuity group (27 eyes) and visual acuity decreased group (14 eyes). All enrollees received BCVA and OCTA. BCVA was performed with an international standard visual acuity chart, which was converted to logarithm of the minimum angle of resolution (logMAR) vision. The OCTA instrument was used to scan the macular area of all the examined eyes in the range of 3 mm×3 mm, 6 mm×6 mm, and the blood vessel density (VD) and blood perfusion density (PD) within the range of 3 mm×3 mm, 6 mm×6 mm were measured and the area, circumference, and morphological index of the foveal avascular zone (FAZ) within the range of 6 mm×6 mm. Quantitative data were compared between groups by independent sample t test. Statistical data were compared by χ2 test. The area under curve (AUC) of each index was determined according to receiver operating characteristic curve (ROC curve), and the predictive value of each index was evaluated. ResultsIn the macular area of 6 mm×6 mm, VD, PD, FAZ area and FAZ perimeter of FEVR group were all lower than those of normal control group, and the differences were statistically significant (t=−3.350, −2.387, −3.519, −3.029; P<0.05). In macular area of 3 mm×3 mm and 6 mm×6 mm, compared with normal vision group and vision loss group, both VD and PD decreased. The differences were statistically significant (t=2.088, 2.114, 2.160, 2.545; P<0.05). In the macular area of 6 mm×6 mm , the FAZ morphological index of the two groups was significantly different (t=2.409, P<0.05). ROC curve analysis showed that all the indicators had low diagnostic value for FEVR (AUC<0.5). ConclusionThere are microvascular abnormalities in macular area in FEVR patients, and the decrease of blood vessels and the change of FAZ shape may be related to the loss of visual acuity.