Optical coherence tomography angiography (OCTA) is a new and non-invasive imaging technique that is able to detect blood flow signal in the retina and the choroid within seconds. OCTA is different from the traditional angiography methods. The major advantages of OCTA are that it can observe blood flow signal in different layers of the retina and the choroid without injecting any dye, provide blood flow information that traditional angiography cannot provide, and enrich pathophysiological knowledge of the retinal and choroidal vascular diseases., which help us to make an accurate diagnosis and efficient evaluation of these diseases. However there is a large upgrade potential either on OCTA technique itself or on clinical application of OCTA. We need to fully understand the advantage and disadvantage, and differences of OCTA and traditional angiography. We also need to know how to interpret the result of OCTA. With that we could make a fast diagnosis in a non-invasive way and improve our knowledge of the retinal and choroidal vascular diseases.
ObjectiveTo observe the clinical characterisitics of choroidal excavation in the macula. MethodsA total of 22 patients (22 eyes) with choroidal excavation diagnosed by spectral domain high definition optical coherence tomography (HD-OCT) were enrolled in this study. The patients included 12 males (54.50%) and 57 females (45.50%). The age was ranged from 21 to 82 years old, with an average of (41.44±13.17) years. All the patients were affected unilaterally, including 9 right eyes and 13 left eyes. The corrected vision, slit lamp microscope with preset lens, fundus photography, HD-OCT and fluorescence fundus angiography (FFA)were measured for all patients. The clinical characterisitics and concomitant diseases were observed. Seventeen eyes were followed for a period between 3 to 12 months. The lesions change were evaluated by HD-OCT. ResultsThere were 18 eyes (81.8%) with symptoms of micropsia and metamorphopsia, 4 eyes (18.2%) without symptoms. The corrected vision was ranged from 0.3 to 1.2, 12 eyes (54.54%) with moderate or high myopia. Fundus examination presents yellowish-white exudation in 12 eyes (54.54%), yellowish-white exudation accompanied with hemorrhage in 9 eyes (40.91%), grayish yellow reflex halo in 1 eye (4.55%). HD-OCT showed that the retinal pigment epithelium (RPE) layer was involved in the excavation, and the photoreceptor outer segment and pigment junction (OPR) layer was disappeared in all eyes. The external limiting membrane and the photoreceptor inner segment/outer segment junction layer were preserved in 13 eyes (59.09%) and disappeared in 9 eyes (40.91%). There were 10 eyes (18.18%) with a single lesion, 4 eyes (18.18%) with idiopathic choroidal neovascularization, 4 eyes (18.18%) with punctate inner choroidopathy, 1 eye (4.55%) with polypoidal choroidal vasculopathy, 1 eye (4.55%) with macular preretinal menbrance, 1 eye (4.55%) with central serous chorioretinopathy. FFA showed hypofluorescence in early phase, hyperfluorescence in late phase, without obvious leakage. There was no noticeable changes in size and morphological changes in the follow-up period. ConclusionsChoroidal excavation in the macula occurs mostly in middle-aged people with myopia. It can be associated with many fundus diseases. The excavation is located in RPE layer, and OPR layer disappeared. Choroidal excavation in the macula develops slowly.
ObjectiveTo observe the characteristics of optical coherence tomography (OCT) angiography (OCTA) in retinal vein occlusion (RVO). MethodsProspective and observational study. Clinical examination of 81 consecutive patients (86 eyes) diagnosed with RVO were included in the study, in which the branch retinal vein occlusion in 47 eyes, central retinal vein occlusion in 39 eyes. Forty-five patients were male and 36 patients were female. Aged from 28 to 76 years old, the mean age was (55.36±10.01) years old. Comprehensive optical and imaging examination were performed, including fundus photography, fundus fluorescein angiography (FFA), spectral domain OCT, en face OCT and OCTA. The retinal blood flow imaging scan mode and the optic disc blood flow imaging scan mode were performed, the scanning region in the macular area were 3 mm×3 mm, 6 mm×6 mm, 8 mm×8 mm respectively, around the optic disc were 3 mm×3 mm and 4.5 mm×4.5 mm. Each region scans 2 times. The characteristics of foveal avascular zone change, macular edema, non-perfusion and optical disc edema in OCTA and their corresponding FFA and en face OCT were observed. ResultsBy OCTA, 67 eyes (77.9%) for foveal avascular zone change, 23 eyes (26.7%) for macular edema, 40 eyes (46.5%) for non-perfusion, and 33 eyes (38.4%) for optical disc edema can be detected. The foveal avascular zone change can be indentified as the tranformation, destruction and even vanish of the arch in superfacial layer of retinal macular area, acompanied with the dilatation and thickening of capillary vessels, the occlusion and expanding of capillary vessels arounded the foveal avascular zone in the deep layer of macular area. Those performances were more clear than FFA. The main expression of macular edema was low signal and was not as clear as en face OCT. The tortuosity and expansion of retinal vessels, density decreasing and even occlusion or abnormal traffic branch of capillary vessels can be observed in non-perfusion. These observations were similar to FFA. However, pieces of highly signal identical with non-perfusion area can be detected in chroid capillary. The representation of optical disc edema was the brush-like expanding of capillary vessels aroud optical disc. ConclusionsOCTA can help for observing the abnormal changing of capillary vessels in foveal avascular zone and macular edema, non-perfusion and optical disc edema. Foveal avascular zone change showed occlusion and expanding of capillary vessels around the foveal avascular zone in the deep layer of macular area. Macular edema showed the weak signal. Non-perfusion showed tortuosity and expansion of retinal vessels, density decreasing and even occlusion or abnormal traffic branch of capillary vessels. Optical disc edema showed brush-like expanding of capillary vessels around optical disc.
ObjectiveTo determine the retinal nerve fiber layer thickness (RNFLT) of chronic progressive external ophthalmoplegia (CPEO) and kearns-sayre syndrome (KSS) patients using spectral-domain optical coherence tomography (SD-OCT) and to analyze the potential influence factors for RNFLT of these patients. Methods18 CPEO and 4 KSS (CPEO with retinitis pigmentosa and cardiac block) patients, all were muscle biopsy confirmed, were included in this study. There were 7 males and 15 females, the average age was (29.09±13.40) years, the average onset age was (16.4±10.7) years and the average disease duration was (11.30±7.30) years. All the patients underwent SD-OCT examination for the left eye, the peripapillary RNFL thickness was measured using the Spectralis 3.45 mm circle scan protocol. 8 quadrants were scanned including superior temporal (ST), temporal upper (TU), temporal lower (TL), inferior temporal (IT), inferior nasal (IN), nasal lower (NL), nasal upper (NU) and superior nasal (SN). The relationship between RNFLT and onset time, disease duration was analyzed by Pearson correlation analysis. ResultsThe average RNFLT of ST, TU, TL, IT, IN, NL, NU, SN in the 22 patients were (136.3±24.1), (85.4±25.7), (68.2±11.7), (128.2±28.7), (127.3±29.5), (66.7±16.8), (70.1±17.6) μm, respectively. The circumferential average RNFLT was (101.5±14.4) μm. There was no significant difference between the KSS group and CPEO group (P>0.05). The decrease of the circumferential RNFLT had no relationship with the onset age (r=-0.306, P=0.11), but a negative relationship with the disease course (r=-0.518, P=0.03). There were negative relationships between the disease course and RNFLT of 4 nasal quadrants (IN:r=-0.555, P=0.01, NL: r=-0.630, P=0.00, NU: r=-0.559, P=0.01, SN: r=-0.557, P=0.01). ConclusionThere is no difference in RNFLT of patients with CPEO and KSS. There is a negative relation between RNFLT (especially RNFLT of 4 nasal quadrants) and disease course.
Objective To observe the effects of local macular foveal photoreceptor defects on visual acuity.Methods Thirty-one patients (31 eyes) with photoreceptor defect in macular fovea (case group) diagnosed by spectral domain optical coherence tomography (SD-OCT) and 30 patients (30 eyes) age- and diopter- matched normal subjects (control group) were enrolled in this study. There were 22 eyes with full photoreceptor defects and 9 eyes with outer segment defects in case group. All subjects were examined for best corrected visual acuity (BCVA), slit-lamp microscopy, direct ophthalmoscope and SD-OCT. Independent sample t-test was used to compare central foveal thickness (CFT) between case group and control group. Difference of logMAR BCVA, CFT, maximum width and height of photoreceptor defects, defected area and residual retinal thickness in macular between patients with full photoreceptor defects and outer segment defects were also compared.Results The CFT of case group and control group were (225.32plusmn;19.70),(240.02plusmn;10.70) mu;m, the difference was not statistically significant (t=-1.96, P>0.05). In full photoreceptor defects and outer segment defects patients, the mean logMAR BCVA were 0.22plusmn;0.31, 0.32plusmn;0.43; the mean CFT were (224.09plusmn;20.57), (228.33plusmn;18.17) mu;m; the maximum width of photoreceptor defects were (131.32plusmn;108.18), (143.22plusmn;66.93) mu;m; the mean defected area were (0.022plusmn;0.054), (0.019plusmn;0.019) mm2; the mean maximum height of photoreceptor defects were (77.41plusmn;6.62), (44.89plusmn;4.26) mu;m; the mean residual retinal thickness were (87.00plusmn;20.31), (128.33plusmn;23.54) mu;m respectively. There was no statistical significance between full photoreceptor defects and outer segment defects patients in the mean logMAR BCVA, CFT, maximum width of photoreceptor defects and defected area (t=-0.76, -0.538, -0.305, 0.166; P>0.05), but there were significant difference in mean maximum width of photoreceptor defects and residual retinal thickness (t=12.72, -4.91;P<0.05). Conclusions The local photoreceptor defects in macular fovea can lead to decrease of visual acuity. The wider the photoreceptor defects, the worse the visual acuity.
ObjectiveTo observe the preliminary application of intraoperative optical coherence tomography (iOCT) in vitreous retinal surgery and the influencing factors of the imaging quality. MethodsA retrospective case study. A total of 132 subjects were chosen in June 2015 and April 2016 in our hospital. All the subjects were taken vitreous retinal surgery and iOCT scanning. The patients included 46 males and 86 females, with an average age of 61.7 years. 111 cases had macular diseases and 21 cases had vitreous hemorrhage. Cases are divided into high myopia and non-high myopia group according to ocular axial length (AL), 28 eyes in high myopia group (AL≥26 mm),104 eyes in non-high myopia (AL<26 mm).The scanning time, image quality and eye conditions were observed during the operation. The discordance between surgeon microscope visualization of the pathology and the findings of the iOCT and the postoperative adverse reactions were also observed. ResultsThe iOCT images were identified in 124 of 132 subjects, while were not identified in 8 eyes. For the macular area morphology change, iOCT tips and surgeon judgment rate was inconsistent in 22 eyes (16.7%). For the operation guidance value, change the operation rate of 12/132,accounted for 9.1%. The iOCT imaging quality of high myopia groups was lower than the non-high myopia groups (χ2=17.13, P=0.001). Corneal edema and operation time were considered as influencing factors on the quality of the imaging in the non-high myopia groups (r=3.75, 6.18; P=0.049, 0.013). There were no complications such as endophthalmitis. ConclusionsThe surgeon can observe morphological changes in the macular area through iOCT which is difficult to be observed by operating microscope and selected reasonable operation method during the surgery. High myopia, corneal edema and operation time affect the image quality.
Objective To observe the choroidal thickness of patients with chronic central serous chorioretinopathy (CSC) in affected eyes and unaffected fellow eyes.Methods Forty-five chronic CSC patients diagnosed by fundus pre-set lens, fundus fluorescein angiography (FFA) and indocyanine green angiography were enrolled in this study. The patients included 36 males and nine females, with a mean age of (46.18plusmn;8.20) years, with a mean duration of (16.34plusmn;7.23) months. Thirty-six patients were affected unilaterally and nine patients affected bilaterally. The patients were divided into affected eyes group (group A, 51 eyes) and unaffected fellow eyes group (group B,39 eyes). Fifty age-, sex- and diopter- matched normal subjects (50 eyes) were enrolled in this study as control group (group C). Enhanced depth imaging (EDI) choroidal scans were obtained in all eyes by using spectral-domain optical coherence tomography. Subfoveal choroidal thickness (SFCT) and choroidal thickness at 3 mm nasal (NCT3 mm), temporal (TCT3 mm), superior (SCT3 mm), inferior (ICT3 mm) to the fovea were measured.Results The mean SFCT of group A, B and C were (436.76plusmn;87.01), (394.71plusmn;61.63), (294.86plusmn;75.30) mu;m respectively. The mean SFCT of group A and B were thicker than group C, the difference was significant among three groups (F=44.791,P<0.001). There were difference between group A, B, C in NCT3 mm, TCT3 mm, SCT3 mm and ICT3 mm (F=15.816, 22.823, 15.147, 11.527;P<0.001). The mean SFCT in affected eyes of unilateral patients was (416.34plusmn;79.44) mu;m, which was thicker than that in unaffected fellow eyes (t=2.897, P=0.007). Conclusion Choroidal thickness increased significantly in affected eyes and unaffected fellow eyes in patients with chronic CSC.
ObjectiveTo evaluate the spectral domain optical coherence tomography (SD-OCT) characteristics of polypoidal choroidal vasculopathy (PCV) and its correlation with the visual acuity after photodynamic therapy (PDT) combined with intravitreal ranibizumab. MethodsTwenty-six eyes of 26 patients with PCV diagnosed by indocyanine green angiography (ICGA) were enrolled in this study. All the patients were examined for best corrected visual acuity (BCVA), slit lamp microscope, SD-OCT, fundus fluorescein angiography (FFA) and ICGA before and 1, 3 months after treatment. The mean baseline BCVA was (31.46±16.87) letters, mean central retinal thickness (CRT) was (581.19±309.05) μm, and mean subfoveal choroidal thickness (SFCT) was (248.92±95.45) μm. Patients were divided into 2 groups according to the final visual improvement after 6 month of treatment: GR or sensitive Group (17 eyes) and PR or non-sensitive Group (9 eyes). GR group included 12 males and 5 females, with a mean age of (65.24±7.03) years, a mean CRT of (619.06±335.07) μm and a mean SFCT of (271.24±106.61) μm. There were 4 eyes with subretinal hemorrhage (SRH), 2 eyes with interface retinal fluid (IRF), 13 eyes with subretinal fluids (SRF) and 15 eyes with pigment epithelial detachment (PED). PR group included 8 males and 1female, with a mean age of (64.00±7.02) years, a mean CRT of (509.67±255.21) μm and a mean SFCT of (271.24±106.61) μm. There were 6 eyes with subretinal hemorrhage (SRH), 5 eyes with interface retinal fluid (IRF), 6 eyes with subretinal fluids (SRF) and 8 eyes with pigment epithelial detachment (PED). The difference of sex, age, CRT and SFCT between these two groups was not significant (P>0.05). The relationship of baseline SD-OCT and post-treatment BCVA was analyzed. ResultsOn 1, 2, 3, 6 months after treatment, the BCVA were (38.46±19.81), (40.04±20.80), (42.96±21.63), (43.77±20.91) letters respectively. On 6 months after treatment, the mean CRT in GR and PR group were (360.71±276.54), (341.44±193.68) μm respectively (P>0.05). 64.71% (11/17) eyes in GR group and 22.22% (2/9) eyes in PR group had a SFCT thicker than 263μm. The difference was statistical significant between two groups [odds ratio (OR):0.052, 95% confidence interval (CI):0.005-0.533; P=0.013]. Logistic regression analysis showed that existence of IRF (OR=9.375, 95% CI: 1.299-67.645; P=0.026) or SRH (OR=6.500, 95% CI: 1.094-38.633; P=0.040) at baseline was negative prognostic factor to treatment. ConclusionThick SFCT is a protective factor, however, existence of IRF or SRH at baseline is negative prognostic factor of final visual improvement.