OBJECTIVE:To inwestigate the value of fundus fluorescein angiography in evaluation of idiopathic senile macular hole(ISMH). METHODS:fundus fluorescein angiography(FFA)and other clinical examination were performed in 26 cases (31eyes)of ISMH patients. RESULTS:Full-thickness macular holes were in 17 and lamellar holes were in 14 of the 31 eyes. Hyperfluorescencequot;window defectquot;was found at the base of all the eyes with full-thickness maeular holes and 2 eyes with lamellar holes. The size of hyperfluorescence zone was smaller than that of those seen in redfree film, hyperfluorescence in 6 eyes (19.4%) showed homogenous ancl 10 eyes (32.5%) granular in pattern. The small yellowish dots in macular hole showed blocked fluorescence,while the halo of macular hole showed hyperfluorescence. CONCLUSION:Fundus fluorescein angiography was useful in differentiating lamellar from full-thickness macular hole and understanding the degree of retinal pigment epithelium damages in macular holes. (Chin J Ocul Fundus Dis,1996,12: 208-210 )
Objective To investigate the correlation of microperimetric parameters, best-corrected visual acuity (BCVA) and central retinal thickness (CRT) in diabetic macular edema (DME) eyes. Methods It is a prospective, no controlled, open study. Twenty-four consecutive patients (40 eyes) with DME were included. There were 10 males (18 eyes),14 females (22 eyes); aged from 41 to 79 years, with the mean age of (56.84±8.96) years. All the patients were type 2 diabetes, the average duration of diabetes was 8 years. BCVA was evaluated using the international Snellen E vision test chart, and then recorded as logarithm of the minimum angle of resolution (logMAR). CRT was measured by Cirrus HD-OCT4000. MAIA microperimetric parameters were evaluated, including average threshold (AT) of retinal sensitivity, macular integrity index (MI), fixating points within a circle of 1° (P1) and 2° of radius (P2), bivariate contour ellipse area (BCEA) considering 63% and 95% of fixating points (A63,A95), and horizontal and vertical axes of that ellipse (H63,H95,V63,V95). Pearson correlation analysis was performed to evaluate the association between these variables. The independent factor influenced the type of fixation was analyzed by multiple linear regression analysis. Results Strong correlations of logMAR BCVA with CRT (r=0.58,P=0.000), V63 (r=0.44,P=0.004), V95 (r=0.41,P=0.008), MI (r=0.36,P=0.024), AT (r=−0.61,P=0.000), P1 (r=−0.41,P=0.009), P2 (r=−0.38,P=0.015) were found. AT was correlations with P1 (r=0.53,P=0.000), P2 (r=0.51,P=0.001), A63 (r=−0.39,P=0.012), A95 (r=−0.40,P=0.012), V63 (r=−0.53,P=0.000), V95 (r=−0.46,P=0.003), MI (r=−0.50,P=0.001). There was no correlation between AT and CRT (r=−0.21,P=0.190). Forty eyes were included in this study, 8 eyes (20%) had stable fixation,14 eyes (35%) had relatively unstable fixation,18 eyes (45%) had unstable fixation. Multiple linear regression analysis showed that fixation classification was independently affected by P1. Conclusions In DME eyes, logMAR BCVA was positively correlated with CRT, negatively correlated with AT, P1 and P2. There is no correlation between AT and CRT. The fixation classification was independently affected by P1.
ObjectiveTo observe the changes of retinal blood flow density and thickness in the macular region of eyes with high myopia (HM) combined with peripapillary intrachoroidal cavitation (PICC). MethodsA cross-sectional study. From March 2019 to May 2021, 65 patients (65 eyes) diagnosed as PICC (HM+PICC group) in Eye Hospital, China Academy of Chinese Medical Sciences, sex-and age-matched 69 HM patients of 69 eyes (HM group) and 65 healthy people of 65 eyes (control group) were enrolled in this study. The optical coherence tomography angiography was used to scan macular areas in 3 mm×3 mm, and measure the macular fovea and optic disc on superior, inferior, nasal, temporal superficial capillary plexus (SCP) and deep capillary plexus (DCP) vessel density in the foveal and parafoveal region, and macular retinal ganglion cell complex (mGCC) thickness, full retinal thickness. One-way analysis of variance were used to test the difference of the index values among three groups, and then two groups were compared with Bonferroni test. A paired t-test was used to test the difference of the macular vessel density and thickness between the superior and inferior hemifield in three groups. Pearson partial regression analysis was used to calculate the correlations between them at same sites. ResultsPICC was located most frequently at the inferior temporal disc border, followed by the inferior nasal region, superior temporal region, and superior nasal region in the HM+PICC group on 57(87.7%, 57/65), 25(38.5%, 25/65), 3(4.6%, 3/65) and 1(1.5%, 1/65 ) eye. There were significant differences in the global and regional full retinal thickness, mGCC thickness, SCP and DCP vessel density among 3 groups (F=29.097, 51.929, 16.253, 6.135; P<0.001). The macular SCP and DCP vessel density except in the fovea, all regional macular full retinal thickness and mGCC thickness in the HM+PICC group were significantly lower than those in the normal group (P<0.05). Compared to the HM group, the HM+PICC group had lower all regional mGCC thickness and SCP vessel density, as well as full retinal thickness in the inferior hemifield and DCP vessel density in the foveal region (P<0.05). Macular vessel density and thickness in the inferior hemifield were significantly lower than those in the superior hemifield (t=6.356, 11.693, 6.212, 2.936; P<0.01). Pearson partial regression analysis showed the SCP vessel density was positively correlated with corresponding mGCC thickness and full retinal thickness (r=0.584, 0.534, 0.592, 0.496, 0.485, 0.517; P<0.001). However, there was no significant correlation between the DCP vascular density and mGCC thickness (P>0.05), and only a weak positive correlation between the DCP vascular density and the full retinal thickness in the inferior hemifield (r=0.319, P=0.014). However, no association with average and superior full retinal thickness (r=0.066, 0.002, 0.125, 0.184, 0.016, 0.319; P>0.05). ConclusionThe macular SCP vessel density, mGCC thickness and the full retinal thickness in the inferior hemifield in PICC eyes are lower than those in the HM eyes, especially the mGCC thickness and SCP vessel density in the inferior hemifield, and there is a strong positive correlation between them.
ObjectiveTo investigate the neuroprotective effect of Benztropine on retinal ganglion cells (RGCs) death and optic nerve injury in rats model of non-arteritis anterior ischemic optic neuropathy (rNAION).MethodsA total of 25 Sprague-Dawley rats were randomly divided into Benztropine treatment group (n=13) and PBS control group (n=12). The right eye was set as the experimental eye. rNAION model was established by using rose Bengal combined with laser photodynamic method. The rats in the Benztropine treatment group were received intraperitoneal injection with Benztropine 10 mg/kg (0.2 ml) daily for 3 weeks, while the rats in the PBS control group were received intraperitoneal injection with an equal volume of PBS. At 1, 3 and 7 days after modeling, the retinal and optic disc conditions of the rats were observed by direct ophthalmoscopy. Retrograde labeling, fluorescence microscopy and transmission electron microscopy were used to observe the survival of RGCs and the damage of the optic nerve myelin and axon at 4 weeks after modeling. The RGCs density and survival rate of the two groups were compared by One-Way Anova.ResultsAt 1 and 3 days after modeling, the optic disc edema was observed in the rats of rNAION model group. At 7 days after modeling, the optic disc edema decreased and the boundary was blurred compared with 3 days after modeling.After 4 weeks, the RGCs density in the PBS group was 308±194/mm2 and the survival rate was 13.7%. The density of RGCs in the Benztropine group was 1173+868/mm2 and the survival rate was 47.6%. The differences of RGCs density and survival rate were significant between the two groups (F=7.552, 8.184; P=0.015, 0.012). Myelin disintegration, axon degeneration, onion-like body and gliosis were observed in the optic nerve sections of rNIAON in the PBS group, while the damage of axon and myelin structure in the Benztropine group was significantly less than that in the PBS group.ConclusionsBenztropine group showed higher RGC survival rate, less damage of axon and myelin structure on rNAION model. This study explored the potential neuroprotective effect of Benztropine.