Objective To observe the time-intensity curve characteristics of contrast agents in intraocular tumor. Methods A total of 236 patients (238 eyes) with intraocular tumor were enrolled in this study. All the patients received regular ophthalmologic examination, two dimensional ultrasound, color doppler ultrasonography and contrast-enhanced ultrasonography. There were 166 patients (166 eyes) with choroidal melanoma, 16 patients (18 eyes) with choroidal metastatic carcinoma, 52 patients (52 eyes) with choroidal hemangioma, two patients (two eyes) with retinal hemangioma. The whole process of contrast-enhanced ultrasound were recorded, and exported as t images of Dicom format. These images were processed by Sonoliver software (Tomteck Company, Germany) to drawn the time-intensity curve of contrast agents in the intraocular tumors. Results All intraocular lesions were completely filled with contrast agent, concentric filling from the periphery to the center can be documented in some cases. The time-intensity curve of choroidal hemangioma and retinal hemangioma were basically the same. The time-intensity curve of choroidal melanoma and choroidal metastatic carcinoma were also basically the same. In the filling phase, all tumors were rapid filling type. In the regression phase, contrast agent subsided earlier than in control tissue within the melanoma or metastatic carcinoma lesions, but subsided synchronous or slightly faster than in control tissue within the choroidal hemangioma and retinal hemangioma lesions. Among 166 eyes with choroidal melanoma, 138 eyes (83.1%) were in full compliance with the above changes, 28 eyes (16.9%) were largely in line with these changes. All the eyes (100.0%) with choroidal metastatic carcinoma, choroidal hemangioma and retinal hemangioma were in full compliance with the above changes. Conclusion Time-intensity curve is quickly filling and fast regression for malignant intraocular tumors, but is quickly filling and slow regression for benign intraocular tumors.
ObjectiveTo observe the diagnostic sensitivity and specificity of color Doppler flow imaging (CDFI) for persistent hyperplastic primary vitreous (PHPV). MethodsThe clinical data of 71 children (93 eyes) with congenital cataract which suspected of concurrent PHPV were retrospectively analyzed. The children included 45 males (54 eyes) and 26 females (39 eyes), aged from 1 to 24 months, with an average age of (7.6±4.3) months. All eyes were examined by CDFI, and observe whether there was a pathological strip in the vitreous, the site of the connection between the strip echo and the wall of the eye and the signal of blood flow on the strip echo. Within 1 week after a CDFI examination under general anesthesia, 64 children (79 eyes) underwent lens excision combined with vitrectomy and the other 14 eyes of 7 children underwent mydriatic fundus examination by two experienced eye specialists. Combined with clinical features of PHPV, the diagnosis and differential diagnosis were made according to the clouding of the lens, posterior capsule proliferation, vitreous proliferation and retinal detachment position which were found during operation and fundus examination. Compare and analyze the CDFI examination results and the above diagnosis results, calculate the sensitivity and specificity of CDFI for PHPV. ResultsIn surgery and mydriatic fundus examination results of 93 eyes, vitreous abnormal in 85 eyes, no significant changes were found in vitreous of the other 8 eyes. In 85 eyes of abnormal vitreous, 68 eyes were diagnosed as PHPV, 16 eyes were diagnosed as familial exudative vitreoretinopathy (FEVR), and 1 eye was diagnosed as treactional retinal detachment. In 85 eyes of abnormal vitreous which were found by surgery and fundus examination, CDFI confirmed 81 eyes and its diagnostic sensitivity was 95.3%; the other 4 eyes were not found vitreous abnormality, and the missed diagnosis rate was 4.7%. Surgery and mydriatic fundus examination found no vitreous abnormal in 8 eyes, but CDFI explored strip low echo connected with the optic disc or posterior lens capsule in vitreous. In the 68 eyes of PHPV which were diagnosed by surgery or fundus examination, 59 eyes had the same diagnosis of CDFI, the sensitivity of CDFI was 86.8%; PHPV was not diagnosed in 25 eyes by surgery or fundus examination, but only 8 eyes were also not diagnosed by CDFI, and the specificity of CDFI was 32.0%. The remaining 17 eyes were diagnosed as FEVR in 16 eyes and traction retinal detachment in 1 eye after surgery or mydriatic fundus examination, but they were all diagnosed as PHPV in CDFI. The misdiagnosis rate of CDFI was 68.0%. ConclusionFor PHPV, the diagnostic sensitivity and specificity of CDFI are 86.8% and 32.0%, respectively.
ObjectiveTo observe the application value with color Doppler flow imaging (CDFI) in the detection of macular diseases in senile cataract.MethodsA cross-sectional descriptive study. From December 1 to December 30, 2017, 720 senile cataract patients (1380 eyes) diagnosed in Beijing Tongren Eye Center were included in this study. There were 330 males (629 eyes) and 390 females (751 eyes), with the mean age of 70.35±19.05 years. There were 716 right eyes and 664 left eyes, with the visual acuity 0.05-0.8. The fundus of all the patients can be observed. All patients were examined by OCT using Cirrus HD-Model 5000 produced by German Carl Zeiss company and CDFI using MyLab90 color Doppler ultrasound system produced by ESAOTE S.P.A. Comparing the detection rate of macular lesions between the two methods by using χ2 test. Using statistical methods to evaluate diagnostic tests, a crosstabulation was made to compare the consistency of frequency-domain OCT and CDFI in the diagnosis of macular lesions. Logistic regression analysis of correlation between detection of CDFI macular lesions and central foveal thickness (CFT), average thickness (AT), with or without macular anterior membrane, retinal folds, retinal cystoid edema, hard exudation, macular hole or lamellar macular hole, superficial detachment of neuroepithelium, detachment of pigment epithelium, vitreous macular traction.ResultsTwo hundreds and thirty-nine eyes (17.3%) showed macular disease by OCT, and 161 eyes (11.7%) showed the abnormal echo in the macular region by CDFI. The detection rate of the macular disease between two methods were statistically significant (χ2=851.661, P<0.001), however, the consistency was well (κ=0.766, P=0.000). Logistic analysis showed that the detection rate of macular lesions was related to retinal folds, cysts in retina and CFT (r=1.396, 1.041, 0.12; P<0.01).ConclusionCDFI can effectively detect macular lesions that affect the visual prognosis of senile cataract patients.
Objective To summarize the characteristics of color doppler flow imaging (CDFI) of ocular toxocariasis (OT) in children. MethodsA retrospective clinical study. From July 2014 to June 2020, 61 OT patients with 61 eyes diagnosed through clinical and laboratory testing in the Department of Ophthalmology of Beijing Tongren Hospital of Capital Medical University were included in the study. There were 45 males with 45 eyes and 16 females with 16 eye (male: female=2.81:1). Age were (6.93±2.50) years. The right eye and left eye were 29 and 32 eyes, respectively. Both eyes of the patient underwent two-dimensional ultrasound and CDFI examination. Two dimensional ultrasound was used to estimate the axial length (AL) of the affected eyes and healthy eyes on the opposite side. Among them, 52 cases were measured for AL using optical biometry and/or A-mode ultrasound. Vitreoretinal surgery was performed within one week after ultrasound examination. Two-dimensional ultrasound was used to observe the morphology of vitreous opacity, its connection to the eyeball wall, and whether posterior vitreous detachment and retinal detachment have occurred. CDFI examination was used to observe the presence of blood flow signals on the pathological membrane. The detection rates of different forms of vitreous opacity and traction retinal detachment were calculated. The location of proliferative lesions in the eye was analyzed. Paired t-test was performed to compare the AL of the affected eye and the healthy eye on the opposite side. Perform Kappa consistency test on the location of proliferative lesions was used during CDFI examination and vitreoretinal surgery. ResultsAll affected eyes have varying degrees of vitreous opacity. Among them, 23 eyes (37.7%, 23/61) showed typical "Christmas tree" like turbidity; 27 eyes (44.3%, 27/61) had clustered and striped echoes; 9 eyes (14.8%, 9/61) had weak punctate and strip echoes. Two eyes (3.3%, 2/61) showed a large amount of dense punctate and strip-shaped echoes. There were 50 eyes (82.0%, 50/61) with traction retinal detachment, of which 46 eyes (92.0%, 46/50) had visible blood flow signals on the detached retina, and the remaining 4 eyes (8.0%, 4/50) had no blood flow signals. During CDFI and surgery, there were 5 (8.2%, 5/61) and 4 (6.6%, 4/61) eyes with visible proliferative lesions in the periphery, respectively; 18 (29.5%, 18/61) and 14 (23.0%, 14/61) eyes were distributed in the posterior pole, respectively; there were 38 (62.3%, 38/61) and 43 (70.5%, 43/61) eyes with both peripheral and posterior polar regions, respectively. The consistency between CDFI and surgery in detecting the location of proliferative lesions was good (κ=0.832, 95% confidence interval 0.691-0.973, P<0.001). The two-dimensional ultrasound measurement results showed that the AL of the affected eye was shorter than that of the contralateral healthy eye in 46 cases (75.4%, 46/61). Among the 52 patients who underwent AL biometry, the AL of the affected eye was shorter than that of the contralateral healthy eye by (0.63±0.68) mm, and the difference was statistically significant (t=-6.738, P<0.05). ConclusionsCDFI can clearly display various intraocular lesions (vitreous opacity and traction retinal detachment) and eyeball sizes in children with OT. Vitreous opacity is often manifested as "Christmas tree" like, clustered, strip-shaped.
ObjectiveTo analyze the color Doppler flow imaging (CDFI) features of familial exudative vitreoretinopathy (FEVR) at different stages. MethodsA retrospective study. A total of 104 patients with 201 eyes from Department of Ophthalmology of Beijing Tongren Hospital who were hospitalized for fundus examination and diagnosed with FEVR from 2018 to 2022 were included. There were 69 male cases with 133 eyes and 35 female cases with 68 eyes. The age was ranged from 2 months to 11 years, with a mean age of 2.9 years. Fundus and CDFI examination were performed in both eyes. Fluorescein fundus angiography was performed in 72 cases (144 eyes). FEVR staging was conducted according to literature standards. The presence of avascular areas in the peripheral retina or abnormal retina neovascularization was stage 1; the presence of retinal neovascularization at the vitreoretinal interface in the avascular area was stage 2; partial retinal detachment without macula involvement was stage 3; partial retinal detachment involving the macula was stage 4; complete retinal detachment was stage 5. The CDFI ultrasound features of FEVR at different stages were analyzed. The CDFI image features of FEVR patients in different stages were observed. ResultsAmong the 104 patients, 97 (93.3%, 97/104) cases were binocular and 7 (6.7%, 7/104) cases were monocular. In 201 eyes, stages 1 to 5 of FEVR were 49 (24.4%, 49/201), 23 (11.4%, 23/201), 39 (19.4%, 39/201), 71 (35.3%, 71/201), and 19 (9.5%, 19/201) eyes, respectively. CDFI examination showed no abnormality or mild vitreous opacity in 49 eyes vitreous body at stage 1. Vitreous opacities were observed in all 23 eyes in stage 2, and the echo of the temporal ballwall was not smooth. In 39 eyes at stage 3, the anterior globular cluster echo in temporal peripheral eyes was observed in 17 eyes and partial retinal detachment was observed in 13 eyes. In 71 eyes at stage 4, 51 eyes had temporal or infratemporal retinal folds, and 20 eyes had temporal retinal detachment. All the 19 eyes in stage 5 had total retinal detachment, of which 15 eyes had closed "funnel-shaped" retinal detachment. Retinal folds were found in 51 eyes, 26 eyes in 13 cases. There were vitreous opacities in 25 eyes of 25 monocular cases, and the contralateral eye had different degrees or banded echoes in front of the temporal eye. Blood flow signals could be detected on the retinal folds with Doppler imaging. ConclusionsThe CDFI manifestations of FEVR patients at different stages have different characteristics. The possibility of FEVR should be considered when the temporal or infratemporal retinal folds of both eyes are present, as well as the retinal folds of one eye, the contralateral vitreous body opacity, or the anterior temporal peribulbar cluster echoes are present.
ObjectiveTo analyze the ultrasonographic features of adenoma of the nonpigmented ciliary epithelium (ANPCE). MethodsA retrospective series of case studies. From January 2014 to October 2021, 31 patients (31 eyes) with ANPCE (ANPCE group) were diagnosed in the eye center of Beijing Tongren Eye Center of Beijing Tongren Hospital, Capital Medical University, and 17 patients (17 eyes) with ciliary body melanoma (control group) diagnosed at the same time were selected as the control group. There was no significant difference in age (t=-0.564) and sex composition ratio (χ2=0.182) between the two groups (P=0.576, 0.670). All patients underwent ultrasound biomicroscopy to obtain the measurement parameters: tumor height, maximum basal diameter, maximum diameter, ratio of maximum diameter to basal diameter and ratio of maximum diameter to height; tumor location, shape, internal echogenicity intensity, echogenicity uniformity, degree of sound attenuation, invasion of iris, anterior displacement of the iris, lens subluxation were observed. The measurement parameters and observation indexes of the two groups were compared by independent sample t-test and χ2 test. Receiver operating characteristic (ROC) curve was drawn, area under the ROC curve (AUC) was determined, and parameter indicators with differential diagnosis value were screened. ResultsThe maximum diameter, height, maximum basal diameter, ratio of the maximum diameter to the maximum basal diameter, and the ratio of the maximum diameter to the height of the tumors in the ANPCE group and the control group were 5.64±0.98 mm, 4.24±0.59 mm, 3.66±0.71 mm, 1.58±0.34, 1.34±0.19 and 7.82±2.03 mm, 4.47±2.44 mm, 7.02±1.96 mm, 1.13±0.16, 2.09±1.06. The maximum diameter, the maximum basal diameter, and the ratio of the maximum diameter to the height of the tumor in the ANPCE group were all smaller than those of the control group, and the ratio of the maximum diameter to the maximum basal diameter was greater than that of the control group, and the differences were statistically significant (t=-4.159, -6.808,-2.924, 6.257; P<0.05). The tumors in the ANPCE group were mainly spherical (87.1%, 27/31), with no significant acoustic attenuation (77.4%, 24/31), less invading the root iris (77.4%, 24/31), and the tumors were mostly located in the ciliary body coronal (74.2%, 23/31); tumors in the control group were mainly hemispherical (47.1%, 8/17) or spherical (47.1%, 8/17), with significant sound attenuation (76.5%, 13/17), most of the tumors invaded the iris (70.6%, 12/17), and the tumors were mostly located from the pars plana to the coronal (76.5%, 13/17). There were statistically significant differences in the position, shape, sound attenuation degree, and whether it invaded the iris between the two groups of eyes (χ2=15.132, 19.767, 13.118, 10.581; P<0.05). The results of ROC curve analysis showed that the ratio of the largest diameter to the largest base diameter, the degree of sound attenuation and the AUC of whether the iris was violated were higher, which were 0.881, 0.769, and 0.740, respectively. ConclusionsUltrasound biomicroscopy is helpful in the diagnosis and differential diagnosis of ANPCE and ciliary body melanoma. The ratio of maximum diameter to maximum basal diameter, the degree of sound attenuation and whether it invades the root iris are important parameters to distinguish the two tumors.