ObjectiveTo observe the choroidal vascularity index (CVI) and the subfoveal choroidal thickness (SFCT) of central serous chorioretinopathy (CSC), and to compare the stability and consistency of the two methods of measurement.MethodsA retrospective study. Thirty-one patients with unilateral acute CSC who visited the Department of Ophthalmology of Beijing Friendship Hospital for the first time during the period from Nov 1st, 2016 to Mar 18th, 2018 were included in the study. Thirty-one healthy age-matched subjects were enrolled as controls. All CSC affected eyes and their fellow eyes and healthy eyes were scanned by single-line enhanced depth imaging of OCT through central fovea of macula to measure their SFCT. The image was binarized and then the CVI of a 1500 μm range below fovea was calculated, i.e. the ratio of vascular (or lumen) area to total choroidal area. CVI and SFCT were compared among CSC eyes, fellow eyes and healthy eyes by variance analysis. Intra-group correlation coefficient (ICC), Bland-Altman curve and coefficient of variation (CV) were used to analyze the repeatability, consistency and stability of CVI and SFCT; and Medcalc18.2.1 software was used to draw the Bland-Altman curve and observe the consistency of the two measurement methods.ResultsThere were statistically significant differences in CVI and SFCT between CSC affected eyes and fellow eyes (t=3.470, 2.844; P=0.001, 0.006), CSC affected eyes and healthy eyes (t=6.977, 6.277; P<0.001,<0.001), fellow eyes and healthy eyes (t=3.508, 3.433; P=0.001, 0.001). Relative consistency analysis of CVI and SFCT showed that the ICC of single measurement and average measurement of CVI were 0.967 and 0.983 respectively, and that of single measurement and average measurement of SFCT were 0.937 and 0.967 respectively. The consistency of CVI and of SFCT was very good. The ICC value of CVI was slightly higher than that of SFCT. The results of repeatability analysis of CVI and SFCT showed that the difference between the two CVI measurements was smaller, and the difference between the two SFCT measurements was larger. And CVI and SFCT stability analysis results showed that the CV of CVI and SFCT were 10.5% and 25.3% respectively. CVI has smaller CV than SFCT.ConclusionsCompared with healthy eyes, CVI and SFCT are increased in CSC affected eyes and fellow eyes. And compared with SFCT, CVI has better consistency, repeatability and stability.
ObjectiveTo comparatively observe features of choroidal osteoma by multimodal fundus imaging methods. MethodsThis is a retrospective case study. Sixteen patients (16 eyes) with choroidal osteoma were enrolled in this study. The patients included 6 males (6 eyes) and 10 females (10 eyes), with an average age of (30.5±2.4) years. All patients received examination of best-corrected visual acuity, slit lamp microscope, indirect ophthalmoscopy, fundus color photography, fundus autofluorescence (AF), fundus fluorescein angiography (FFA) and spectral domain optical coherence tomography (SD-OCT). The tumors were classified as fresh lesion (clear boundary and rosy tumor with smooth surface) and obsolete lesions (pale and flat tumor with obvious patches). The tumor features of color fundus photography, AF, FFA and SD-OCT were comparatively observed. ResultsThere were 5 fresh lesions and 11 obsolete lesions. Color fundus photography showed the tumor color was orange-red or yellow-white with clear boundary and retinal blood vessels on the surface of the tumor. The color of fresh lesion was rosy. In general, choroidal osteoma shown weak AF, however AF of fresh tumor was slightly stronger than the obsolete tumor, and retinal detachment region showed relatively stronger AF. FFA of fresh tumor indicated uniform intense fluorescence with clear boundary at late stage, much stronger than obsolete tumor. SD-OCT showed mesh-like reflected signal in the choroidal layer, but different from the surrounding choroidal vascular structures. ConclusionsThe tumor color is orange-red or yellow-white in color funds photography, which shown weak AF. FFA showed mottled hyperfluorescence in the early stage and tissue staining at the late stage. SD-OCT showed mesh-like reflected signal in the choroidal layer.
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.
Objective To compare the predicted efficiency of macular hole closure index (MHCI) calculated by 2 different methods for postoperative anatomical outcomes after idiopathic macular hole (MH) surgery. Methods This is a prospective exploratory clinical study. A total of 63 patients (63 eyes) with idiopathic MH, who received vitrectomy, inner limiting membrane peeling and gas tamponade, were enrolled in this study. All the patients received optical coherence tomography (OCT) examination at each visit to measure the MHCI using the formula MHCI=(M+N)/BASE, M and N is the distance from outer limiting membrane break points to the beginning points of detached photoreceptor from retinal pigment epithelium of both side of the hole, respectively. BASE is the length of MH base. MHCI1 was measured by built-in caliper of OCT software, MHCI2 was measured by ImageJ software. The minimum macular diameter (MHD) was measured by built-in caliper of OCT software. Based on the OCT images, the anatomical outcomes were classified grade A (bridge-like shape closure), grade B (complete closure) and grade C (poor closure). Grade A and B are considered as good closure, grade C as poor closure. Patients were followed up at 3, 6 and 12 months after surgery. The closure grades at last visit were the final outcome. The relationship between MHCI1, MHCI2 and closure grades was analyzed. And the predicted efficiency of MHD, MHCI1 and MHCI2 for anatomical outcomes after the surgery was studied. Results The mean MHCI1 was 0.68±0.21 (0.30-1.35), MHCI2 was 0.95±0.26 (0.41-1.55), and MHD was (476.24±210.18) μm (127-956 μm). MHCI1 and MHCI2 were both negative correlated with the closure grades (r=?0.665, ?0.691; P<0.001). The receiver operating characteristic (ROC) curve analysis of MHCI1, MHCI2 and MHD for the prediction of good or poor closure showed that area under the curve (AUC) was 0.928, 0.957 and 0.916 respectively, and 0.505, 0.67 and 559 μm were set as the lower cut-off value. The sensitivity was 96.2%, 92.3% and 90.9% respectively, and specificity was 81.8%, 72.7% and 76.9% respectively. Accordingly, the ROC curve analysis for the prediction of grade A or B closure showed that AUC was 0.840, 0.847 and 0.653 respectively, and 0.705, 0.965 and 364 μm were set as the upper cut-off value. The sensitivity was 80.0%, 82.9%, 63.4% respectively and specificity was 75.0%, 85.7%, 65.9%. Conclusion MHCI1 and MHCI2, measured by built-in caliper of OCT software or ImageJ software, both have good predictive efficiency for the anatomical outcomes of MH surgery.
ObjectiveTo assess the use of 18-Fluorine-labelled 2-deoxy-2-fluoro-D-glucose positron emission tomography/computed tomography (18F-FDG PET/CT) in the diagnosis of uveal melanoma. MethodsTwenty-three patients with uveal melanoma confirmed by histopathologic examination or imaging examination were enrolled. There were 16 male, 7 female, and the mean age was (49.8±12.3) years. All the lesions were unilateral, with 11 cases in OD, 12 cases in OS. Diagnosis was confirmed by histopathological examination of enucleated eyeballs in 15 cases, by ophthalmoscope, fundus fluorescein angiography, ocular B-mode ultrasound and magnetic resonance imaging and other imaging technology in 8 cases. 15 patients diagnosed by histopathologic examination of enucleated eyeballs were divided into three types including mixed (7 patients), spindle cell (6 patients) and epithelioid cell (2 patients) types. The mixed cell type and epithelioid cell type are considered as high-risk; spindle cell type is low-risk. All the patients were evaluated by whole body PET/CT. The location, size, shape, boundary of the lesions, and the relationship with adjacent structures were observed in CT images. 18F-FDG uptake was quantitative expression by standardized uptake value (SUV) in PET image; positive diagnosis should be made when the maximum standardized uptake value (SUVmax) was not less than 2.5. The correlation between SUVmax and maximum diameter of tumor base, tumor height was analyzed by Spearman rank correlation test. The detection rate of high-risk and low-risk patients between 18F-FDG PET and CT methods was comparative analyzed. ResultsAll the CT images showed abnormal high density ocular lesions. The shape of the lesions included 8 patients of semi sphere-like, 7 patients of flat-like, 4 patients of mushroom-like, 3 patients of round-like and 1 patient of diffuse lesions. The tumors were located in the posterior pole (9 patients), temporal equator (5 patients), nasal equator (4 patients), superior equator (1 patient), temporal ciliary body (1 patient), inferior ciliary body (1 patient), temporal iris (1 patient), and nasal iris and ciliary body (1 patient). SUVmax≥2.5 were found in 9 patients (39.13%), the largest basal diameter and height were (17.53±3.48), (11.37±3.85) mm respectively. SUVmax < 2.5 were found in 14 patients (60.87%), the largest basal diameter and height were (10.66±3.25), (5.33±2.23) mm respectively. The former's largest basal diameter and height were greater than the latter's and the difference was statistically significant (t=4.815, 4.786; P < 0.01). SUVmax was positively correlated with the largest basal diameter and height respectively (r=0.881, 0.809; P < 0.01). 15 patients (39.13%) were diagnosed by histopathological diagnosis after enucleation, of which SUVmax≥2.5 were found in 8 patients which included 6 patients of mixed type, 1 patient of epithelioid cell type, and 1 patient of spindle cell type. The detection rate of high-risk type (77.78%, 7/9) was higher than that of low-risk type (16.67%, 1/6), the difference was statistically significant (χ2=5.402, P < 0.05). Conclusions18F-FDG PET-CT examination can show large uveal melanoma tumor from cell metabolism, and may help to evaluate the prognosis of the preoperative patients. But, for small tumor, it has little value. We don't recommend 18F-FDG PET-CT is used as a routine examination for uveal melanoma.
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 analyze the correlation between foveal avascular zone (FAZ) size and foveal morphology in patients with idiopathic macular epiretinal membrane (IMEM) using OCT angiography (OCTA). Methods A retrospective case series study contained of 54 eyes of 54 patients affected with IMEM (IEM group) and 50 eyes of 50 normal persons as the control group. The BCVA was measured using the international standard visual acuity chart, and the results were converted to the logMAR visual acuity. The FAZ areas were evaluated with OCTA in both the superficial and deep capillary plexus layers by using 3 mm×3 mm images of the macular. The central macular thickness (CMT), inner retinal layer thickness (IRT), outer retinal layer thickness (ORT), subfoveal choroidal thickness (SFCT), and the status of ellipsoid zone (EZ) were assessed with spectral-domain optical coherence tomography. The differences of FAZ areas between the two groups were analyzed. The correlative analysis was performed to investigate the relationship between areas and foveal morphology. Results Compared with control group, the FAZ area in superficial and deep capillary plexus in the IMEM group were significantly smaller (t=?29.095, ?28.743; P<0.001, <0.001); the mean CMT, IRT, ORT and SFCT were significantly thickening in the IMEM group (Z=?8.784, ?8.524, ?7.709, ?7.535; P<0.001, <0.001, <0.001, <0.001). In the IMEM group, the FAZ area in superficial capillary plexus correlated inversely with the CMT, IRT, and the integrity of EZ (r=?0.464, ?0.536, ?0.293; P<0.001, <0.001, 0.039), no significant correlation of superficial plexus FAZ areas with ORT and SFCT (r=?0.218, ?0.165; P=0.172, 0.157). The FAZ area in deep capillary plexus correlated inversely with the CMT, IRT, and the integrity of EZ (r=?0.306, ?0.694, ?0.468; P=0.037, <0.001, <0.001), no significant correlation with ORT and SFCT (r=?0.242, ?0.227; P=0.079, 0.094). Conclusions The FAZ areas is significantly decreased in IMEM eyes compared with normal eyes. Both superficial and deep FAZ area are correlated with the CMT, IRT, and the integrity of EZ.
【Abstract】Objective To investigate the imaging features of malignant invasion of major intrahepatic ductal structures (the portal and hepatic venous vasculature, the bilie duct) by primary hepatocellular carcinoma (HCC) using multidetector-row spiral CT (MDCT). Methods We retrospectively analyzed 68 documented HCC patients with tumorous invasion of the major intrahepatic ductal structures who had undergone contrast-enhanced dual-phase MDCT scanning of the upper abdomen.The morphological changes of the portal and hepatic venous vasculature, the bile duct, and the liver parenchyma at both the hepatic arterial phase and portal venous phase images were carefully observed and recorded. Results Among the 68 patients, 47 patients had malignant invasion of the intrahepatic portal venous vessels with secondary tumor thrombus formation; 12 patients had tumor involvement of the hepatic veins and intraheptic segment of the inferior vena cava; Tumor invasion of the bile duct was seen in 9 patents. The direct CT signs of tumor invasion of intrahepatic venous vessels included: ①dilatation or enlargement of the involved vein with intraluminal softtissue “filling defect”; ②enhancement of the tumor thrombus at hepatic arterial phase, the so-called “venous arterialization” phenomenon. The indirect CT signs included: ①arterial-venous shunt, ②early and heterogeneous enhancement of the hepatic parenchyma adjacent to HCC focus, ③cavernous transformation of the portal vein. The CT signs suggesting tumor invasion of the bile duct included: ①dilation of the bile ducts near or proximal to HCC lesion, ②soft-tissue nodule or mass inside the bile ducts. Conclusion Invasion of major intrahepatic ductal structures by HCC will present corresponding CT imaging features. Contrast-enhanced MDCT dualphase scanning combined with appropriate image postprocessing techniques can better evaluate the malignant invasion of major intrahepatic ductal structures.
ObjectiveTo assess the value of multi-slice spiral CT (MSCT) in the diagnosis and resectability judgement of hepatic alveolar echinococcosis (HAE). MethodsThe CT findings of 28 patients who were confirmed HAE by surgical pathological examination were retrospectively analyzed. Comparative analysis were made between the CT findings and surgical pathology. ResultsAltogether 45 lesions in hepatic were detected. Lesions mainly revealed an infiltrating tumor-like hepatic mass with irregular margins and heterogeneous contents with varied attenuation, including scattered hyper-attenuating calcifications and hypo-attenuating areas corresponding to necrosis, no substantial enhancement, however, the fibro-inflammatory component surrounding the parasitic tissue was enhanced faintly in the delayed phase, and clearly demarcated from surrounding parenchyma. MSCT angiography (CTA) depicted signs of infiltration of hepatic vessels such as pushed, compression, displacement, stenosis, encasement and interruption. Compared with findings of operation, the sensitivity and specificity value of MSCT for evaluating the hepatic artery system disorders were 67%, 97%; and for portal venous system were 83%, 93%; and for hepatic venous system were 84%, 91%; while for inferior vena cava were 85%, 100%. Twelve cases which were evaluated as resectable by MSCT were in accordance with surgical findings. In the rest 16 patients which were judged as non-resectable by MSCT, only 2 patients were radical treatment through partial excision, repair and reconstruction for the involvement of large vessels and bile ducts. ConclusionMSCT is accuracy in the diagnosis and assessment of vessels complication of HAE. It has an important value to evaluate the resectability of HAE and the planning of treatment.
Macular edema is an important cause of visual impairment in many eye diseases such as diabetic retinopathy, retinal vein occlusion and uveitis. Optical coherence tomography (OCT) provides high-resolution image of retinal microstructures in a non-contact and rapid manner, which greatly improves the ability of diagnosis and follow-up to macular edema patients. OCT has been widely used in the clinical detection of patients with macular edema. No matter what the cause of macular edema is, it can be observed in OCT images that there are spot-like deposits with strong reflection signals in the retina, which are mostly distributed discretely or partially convergent, and are called hyperreflective foci. At present, the nature or source of hyperreflective foci is not clear, however, may involve the destruction of the blood retina barrier, retinal inflammatory reaction, neurocellular degeneration, and so on. These mechanisms are also the key physiological mechanisms in the development of macular edema. The clinical research on hyperreflective foci provides a new direction for understanding the pathogenesis of macular edema and predicting the prognosis of macular edema. The distribution and quantity characteristics of hyperreflective foci may be an important biological marker to predict the prognosis of macular edema.nosis of macular edema. foci provides a new direction for understanding the pathogenesis of macular edema and predicting the prognosis of macular edema. The distribution and quantity characteristics of HRF may be an important biological marker to predict the prognosis of macular edema.