ObjectiveTo observe the pathological changes of central retinal artery occlusion (CRAO) by optical coherence tomography (OCT).MethodsFifty-three eyes of 53 patients who were diagnosed as CRAO in our center between January 2001 to January 2004 underwent the examination by OCT. The intervals between the disease onset and OCT examination were less than 2 weeks. The scan modes of OCT were horizontal or vertical line scan. The locations of scanning were macular, posterior pole of retina, optical papilla and the focus of bleeding or exudation.ResultsThe OCT pathological changes of CRAO in vivo includes increase of retinal thickness and reflex of retina, width of dark layer of photoreceptor (edema), edema or cystoid edema of fovea, retinal bleeding, cotton-wool spot and papilla edema. Four patients who had ciliary retinal artery showed normal retinal structure in the supply region of ciliary retinal artery.ConclusionOCT can display the pathological changes of retinal tissues in CRAO in vivo, especially on the old patients or the patients with systemic disease who were contraindicated by FFA. The unique OCT image of pathological changes of CRAO supply the objective signs for the instant clinical diagnosis.(Chin J Ocul Fundus Dis, 2005,21:74-78)
Objective To observe the changes of visual acuity、multifocal electroretinogram (mfERG) and optical coherence tomogram(OCT)before and after successful idiopathic macular hole (IMH) surgery, and evaluate the efficiency of the IMH surgery. Methods A total of 28 eyes of 28 patients with IMH who underwent vitrectomy during February 2001 and May 2002 in our hospital were collected. visual acuity, mfERG, and OCT were examined preoperatively and 1, 3, 6, and 12 months postoperatively, respectively. The results were analyzed statistically compared with 33 eyes in control group. Results (1) OCT showed that 27 eyes (96.43%) had anatomic closure of the macular hole 1 month after the surgery without recurrence in 12 months. Just 1 eye (3.57%) failed in the closure within 1 year. (2) The visual acuity was much higher in the eyes 1 year after surgery, especially within 6 months postoperatively, than that before the vitrectomy(P<0.01). (3) Before the operation, the mfERG topographies of IMH eyes seem like volcanoes becase the response densities of wave P1 of ring 1 and ring 2 were lower than control group while the other three rings kept in normal. The central peaks of mfERG topographies reappeared little by little during 1 year after the surgery, and the response densities of wave P1 of ring 1 and ring 2 were higher than before, which was still lower than the control group(P<0.05). (4) The thickness of neuroepithelial layer (NEL) of fovea measured by OCT of 27 eyes with anatomic closure was no longer varied and kept lower than control group throughout the follow-up time (P<0.05). (5) One year after the operation, there were positive correlations among visual acuity, mfERG and NEL(P<0.05). Conclusions Vitrectomy is useful for IMH, which could be evaluated by visual acuity mfERG and OCT efficiently. The three factors had consistency. (Chin J Ocul Fundus Dis,2004,20:221-225)
Objective To observe the characteristics of the images of optical coherence tomography (OCT) performed on the patients with macular edema, and investigate relationship between the retinal thickness at the central fovea and the best corrected visual acuity. Methods Fourty-seven patients (54 eyes) with macular edema diagnosed by direct and indirect ophthalmoscopy, three mirror contactlens, or fundus fluorescein angiography (FFA) underwent OCT which was also performed on 50 healthy individuals as the control. The examination focused on the horizontal and vertical planes crossing the central fovea to measure the thickness of the fovea. The correlation between retinal thickness at the central fovea and best-corrected visual acuity was analyzed, and the images of OCT in the patients with macular edema were classified according to the macular configuration. Results Significant difference of the macular configuration and best-corrected visual acuity was found between the control and macular edema group. Three characteristics were found in the images of OCT in the patients with macular edema: sponge-like retinal swelling in 20 eyes (37.1%), macular cystoid edema in 26 eyes (48.1%), and serous retinal detachment in 8 eyes (14.8%). The statistical analysis showed that there was a negative correlation between the thickness at the central fovea and best-corrected visual acuity of affected eyes (r=-0.569, P=0.000). Conclusions The images of OCT in macular edema include 3 types: sponge-like retinal swelling, macular cystoid edema, and serous retinal detachment. The retinal thickness at the central fovea of the eyes with macular edema was thicker than that of the normal ones, and the thicker the fovea is, the poorer the visual acuity will be. (Chin J Ocul Fundus Dis,2004,20:152-155)
ObjectiveTo observe and analyze the effect of peripore cavity size on visual function of macular area before and after surgery for idiopathic macular hole (IMH). MethodsA retrospective clinical study. From July 2020 to February 2021, a total of 25 patients with 25 eyes with monocular IMH (operation group) diagnosed by ophthalmology examination in Department of ophthalmology, Fourth Hospital of Hebei Medical University were included in the study. The control group was contralateral healthy eyes. All subjects were examined by best corrected visual acuity (BCVA), microfield of vision, frequency domain optical coherence tomography (SD-OCT), and OCT angiography (OCTA). The diameter of macular hole was measured by SD-OCT. The cystic morphology of deep capillary plexus (DCP) was detected by en face OCT, and the cystic area was measured by Image J software. MP-3 microperimeter was used to measure central macular retinal light sensitivity (MS) and mean macular retinal light sensitivity (MMS). Central macular retinal light sensitivity (CMS), MMS and cystic cavity MS were measured in the operation group. MMS was measured in the control group. The microperimetry images were superimposed on the DCP layer of OCTA to identify and calculate the average MS within the lumen and compare it with the control group. Standard three incisions were performed in all affected eyes by vitrectomy of the flat part of the ciliary body + stripping of the inner boundary membrane + intraocular sterile air filling. Three months after the operation, the same equipment and methods were used to perform relevant examinations. Paired sample t test was used to compare MS between operation group and control group. Pearson correlation analysis was used to analyze the correlation between capsular area, macular hole diameter before and after operation and MS before and after operation. The correlation between BCVA and capsular area before and after surgery was analyzed by Spearman correlation analysis. ResultsIn the surgical group, the retinal MS was (4.24±3.07) dB. The MMS of control group was (19.08±6.11) dB. The MS in the surgical group was significantly lower than that in the control group, and the difference was statistically significant (t=10.832, P<0.01). Before operation, the area of cyst was (1.04±0.55) mm2, and the diameter of macular hole was (564.80±166.59) μm. CMS and MMS were (2.27±2.29) dB and (9.08±3.65) dB, respectively. The diameter of macular hole (r=0.50, P=0.010) and BCVA before operation (r=0.57, P<0.001) were positively correlated with peripore cavity area. Before operation, CMS and MMS were negatively correlated with peripore cavity area (r=-0.53, -0.47; P=0.010, 0.020). At 3 months after surgery, the capsular area was negatively correlated with CMS and MMS (r=-0.65,-0.76; P=0.020, 0.030). There was no correlation with BCVA (r=0.23, P=0.470). ConclusionsRetinal MS is decreased in the peri-capsular area of IMH pore. There is a positive correlation between capsule area, BCVA and macular hole diameter before operation. The capsular area is negatively correlated with CMS and MMS before operation.
Microcystic macular edema (MME) represents a pathological change that can be observed in the inner layer of the retina in patients diagnosed with glaucoma. This phenomenon is particularly prevalent in individuals with moderate to advanced glaucoma. The majority of research in this field has focused on primary open-angle glaucoma. The occurrence of MME in glaucoma has been demonstrated to be associated with younger age, advanced stage and disease progression. MME occurs in the parafoveal region, most frequently located in the inferior perimacular region, which corresponded with the most vulnerable area of ganglion cells in glaucoma. The presence of MME may affect the automatic layering of optical coherence tomography images, suggesting that clinicians should be mindful of the occurrence of MME to avoid misdiagnosis of the disease. It is hypothesised that the occurrence of MME in glaucoma may be related to macular vitreous traction, mechanical stress of the stent, and Müller cell dysfunction. A comprehensive investigation of the precise pathophysiological mechanism of MME in glaucoma will facilitate the development of a novel perspective and a scientific foundation for the diagnosis, disease monitoring and evaluation of treatment efficacy in glaucoma.
Objective To evaluate the application value of optical coherence tomography angiography (OCTA) in obstructive sleep apnea syndrome (OSAS). Methods A comprehensive search of both domestic and international databases was conducted to identify clinical studies on the use of OCTA in OSAS, from the establishment of the databases to May 2024. A meta-analysis was performed using Revman 5.4 software. Results A total of 134 studies were initially identified, with 14 studies meeting the inclusion criteria, encompassing 999 subjects (739 in the OSAS group and 260 in the healthy group). Meta-analysis results indicated that the superficial capillary plexus (SCP) density in the fovea (MD=–2.05, 95%CI –3.75 to –0.35, P=0.02) and parafovea (MD=–1.56, 95%CI –2.44 to –0.68, P=0.000 5) was significantly lower in the OSAS group compared with the healthy group. In the mild to moderate OSAS group, SCP density was significantly lower in the fovea (MD=–2.41, 95%CI –4.32 to –0.49, P=0.01), parafovea (MD=–1.17, 95%CI –2.01 to –0.32, P=0.007), and perifovea (MD=–1.73, 95%CI –2.69 to –0.77, P=0.000 4) compared with the healthy group. In the severe OSAS group, SCP density in the perifovea (MD=–1.33, 95%CI –2.53 to –0.13, P=0.03) was significantly lower than that of the healthy group. SCP density in the whole area (MD=0.36, 95%CI 0.05 to 0.68, P=0.02) was significantly higher in the mild to moderate OSAS group compared with the severe OSAS group. In the deep capillary plexus (DCP) density, the OSAS group showed significantly lower densities in the whole area (MD=–2.16, 95%CI –3.51 to –0.81, P=0.002), fovea (MD=–2.38, 95%CI –4.38 to –0.37, P=0.02), and parafovea (MD=–2.33, 95%CI –3.93 to –0.73, P=0.004) compared with the healthy group. The mild to moderate OSAS group also showed significantly lower densities in the whole area (MD=–2.02, 95%CI –3.33 to –0.72, P=0.002) and parafovea (MD=–1.65, 95%CI –3.04 to –0.26, P=0.02) compared with the healthy group. The severe OSAS group had significantly lower DCP density in the whole area (MD=–2.26, 95%CI –3.85 to –0.66, P=0.006) and parafovea (MD=–1.47, 95%CI –2.31 to –0.62, P=0.000 7) compared with the healthy group. DCP density in the whole area (MD=0.54, 95%CI 0.02 to 1.07, P=0.04) was significantly higher in the mild to moderate OSAS group compared with the severe OSAS group. Regarding the retinal nerve fiber layer (RNFL) thickness, the inferior quadrant (MD=4.01, 95%CI 0.69 to 7.32, P=0.02) and temporal quadrant (MD=4.35, 95%CI 1.88 to 6.82, P=0.000 6) were significantly thicker in the mild to moderate OSAS group compared with the severe OSAS group. In terms of the foveal avascular zone (FAZ) area, the severe OSAS group showed a significantly larger FAZ area (MD=0.06, 95%CI 0.03 to 0.08, P<0.000 01) compared with the healthy group. Conclusion OCTA-related ocular biomarkers may be associated with the occurrence and progression of OSAS and have potential applications in the diagnosis and treatment of OSAS.
Objective To evaluate different methods in determ ining the postoperative changes of anatomical structures in macular diseases. Methods Thirty-one eyes of 31 cases of macular diseases, were studied among them there were 15 eyes with idiopathic macular hole (IMH),and the others included 8 eyes with macular epiretinal membranes(ERMs), 4 eyes with age relate d macular degeneration(AMD) and 4 eyes with idiopathic submacular neovasculariza tions(SRNV). All cases were examined with retinoscope or retinogra phy, fundus fluorescein angiography (FFA) and optical coherence tomography (OCT ) pre-and postoperatively. Results Funduscopy showed that all of the 15 IMHs were closed after operation, but OCT showed th at among them 2 affected eyes still had partial retinal detachment at the macular hole edge in one quadrant and the sensory layer in macular area became thinner in 1 affected eye. FFA revealed damage of retinal pigment epithelium (RPE) in 5 cases. As for the ERMs and SRNV, funduscopy could n ot identify wether they were completely removed or not after operation. FFA ind icated that SRNV and SRNV were completely removed and the damage of RPE.OCT discovere d that the ERMs and SRNV were completely removed and the sensory layer became th inner in 3 eyes. Conclusion The combination of funduscopy , FFA and OCT can get the whole view of macular diseases and their postopera tive anatomical evaluation. (Chin J Ocul Fundus Dis, 2001,17:33-36)
ObjectiveTo investigate the course of the idiopathic macular hole (IMH) clinically diagnosed as at stage Ⅰ-Ⅳ by optical coherence tomography (OCT), and analyze the relationship between the posterior vitreous detachment (PVD) and the course of IMH. MethodsHadn′t undergone any operation, periodical OCT were performed on 72 eyes of 58 patients with IMH at stage Ⅰ-Ⅳ confirmed by Gass standard and the features of OCT images.ResultsThe longest follow-up period was 43 months (average 13.4 months), and the examine times of OCT on each eye were between twice to 10 times (average 4.7 times). During the followup period, 23 eyes were in stage I in which 9 (39.1%) developed to stage II and 2 had recovered normal curve of fovea after PVD; 19 were in stage II in which 13 (68.4%) developed to Ⅲ-Ⅳ and 1 had closed hole after PVD; 11 were in stage III in which 5 (45.5%) developed to stage IV and 1 had partly closed hole 12 months later. The images of OCT showed that the process of macular hole was consistent with the course that vitreous depart from retina from the circumference of fovea till entire posterior detachment.Fifteen affected eyes in this series of patients had undcrygong surgical treatment due to serious progression of IMH in follow-up period. ConclusionsThere is a close relationship between the formation and development of macular hole and the occurrence of PVD. OCT can show the progress of the macular hole directly and offer an important technique in diagnosis, classification and surgical treatment of IMH. (Chin J Ocul Fundus Dis, 2005,21:79-82)
Objective To observe the characteristics of fundus fluorescein angiography(FFA)and optical coherence tomography(OCT)in juvenile retinoschisis. Methods The photochromes of the ocular fudus of 7 cases(14 eyes)who were diagnosed as juvenile retinoschisis were taken,among whom,5(10 eyes)were examined bv FFA,and 6(12 eyes)bv OCT. Results In 8 eyes with cystiform stellate maculopathy under ophtalmoscope,the result of FFA showed granular fluorescence in different density and shape without exact connection of the configuration between these granules and the cystlike maculopathy.In 2 eyes with pigment disorder in the macula under ophthalmoscope,blocky fluorescence was found in FFA.In 3 eyes with peripheral schisis,FFA discovered distorted and dilated retinal capillaries with different extent,and flecks of non-perfusion area.OCT images revealed thickening of the macular neuroepithelium with laminal separation,and cystic low-reflect areas in the inner layer. Conclusions In juvenile retinoschisis, pigment proliferation and degeneration in the macular area could be found.Granular fluorescence and cystic low—reflect areas could be seen in FFA and OCT,respectively. (Chin J Ocul Fundus Dis,2004,20:5-7)
ObjectiveTo comparatively observe optical coherence tomography (OCT) image features between traumatic macular hole (TMH) and idiopathic macular hole (IMH). MethodsA retrospective clinical study. A total of 174 patients (174 eyes) with macular hole (MH) diagnosed at Shantou International Eye Center from December 2008 to May 2024 were included in the study. Among them, there were 75 patients (75 eyes) with TMH and 99 patients (99 eyes) with IMH, and they were divided into the TMH group and the IMH group accordingly. All the affected eyes underwent best corrected visual acuity (BCVA) and OCT examinations. The BCVA was examined using a standard logarithmic visual acuity chart, and was converted to the logarithm of the minimum angle of resolution (logMAR) visual acuity for statistical analysis. The minimum diameter and basal diameter of the MH, as well as the average, nasal, superior, inferior, and temporal center retinal thickness (CRT) around the MH were measured by OCT. The independent-sample t test was used to compare the logMAR BCVA, hole diameter, and CRT at the hole margin between the groups. ResultsThere were significant differences in age (t=−15.857) and gender ratio (χ2=28.154) between the TMH group and the IMH group (P<0.05), while there was no significant difference in logMAR BCVA (t=1.962, P>0.05). The minimum diameter of the hole in the TMH group was smaller than that in the IMH group, but the basal diameter was larger, with significant differences (t=−3.322, 2.570; P<0.05). The thickness of the neuroepithelial layer at the hole margin in the TMH group was thinner than that in the IMH group, with significant differences in the superior (t=−2.747), inferior (t=−2.316), and nasal (t=−2.851) regions (P<0.05), and no significant difference in the temporal region (t=−1.586, P>0.05). In the TMH group, the number of eyes with macular cystoid edema (CME), posterior vitreous detachment (PVD), retinal atrophy, subretinal hemorrhage, choroidal laceration, and focal neuroepithelial detachment was 36 (48.00%, 36/75), 4 (5.33%, 4/75), 4 (5.33%, 4/75), 15 (20.00%, 15/75), 8 (10.67%, 8/75), and 19 (25.33%, 19/75) eyes, respectively. In the IMH group, the number of eyes with CME and PVD was 95 (95.96%, 95/99) and 94 (94.95%, 94/99) eyes, respectively. ConclusionCompared with IMH, TMH has a larger basal diameter, a thinner CRT at the hole margin, a lower incidence of CME and PVD, and a higher incidence of subretinal hemorrhage, focal neuroepithelial detachment, choroidal laceration, and retinal atrophy.