ObjectiveTo observe the efficacy of parsplana vitrectomy (PPV) combined with 0.7 mg dexamethasone sustained-release Ozurdex intravitreal implantation in the treatment of children with ocular toxocariasis (OT). MethodsA retrospective clinical study. Fifty-three pediatric patients (53 eyes) diagnosed with OT and underwent PPV in Beijing Tongren Eye Center of Beijing Tongren hospital from March 2015 to December 2021 were included. There were 30 males and 23 females, with an average age of 7.07±3.45 (4-14) years; all were unilateral. Color Doppler imaging, fundus color photography, optical coherence tomography examinations were performed for patients who can cooperated with the examiners. Forty-three eyes were examined by best corrected visual acuity (BCVA); 47 eyes were examined by intraocular pressure; 29 eyes were examined by ultrasound biomicroscopy. According to the location of granuloma, OT was divided into posterior pole granulomatous type (posterior type), peripheral granulomatous type (peripheral type), and chronic endophthalmitis type. According to whether Ozurdex was implanted into the vitreous cavity after PPV, the children were divided into the oral glucocorticoid group after PPV (group A) and the PPV combined with vitreous cavity implantation of Ozurdex group (group B), 37 cases with 37 eyes and 16 cases with 16 eyes, respectively. There was no significant difference in age (t=0.432), sex composition ratio (χ2=0.117), BCVA (χ2=0.239), and clinical type (χ2=0.312) between the two groups (P>0.05). The follow-up time after surgery was ≥5 months. The intraocular pressure at 1 week and 1, 3, and 6 months after surgery, the changes of BCVA and the occurrence of complications such as concurrent cataract and epimacular membrane were observed at the last follow-up, and the incidence of obesity in the children during the follow-up period was recorded. The measurement data between groups was compared by independent sample t test; the enumeration data was compared by χ2 test. ResultsOne month after the operation, the intraocular pressure of group A and group B were 15.17±6.21 and 25.28±10.38 mm Hg (1 mm Hg=0.133 kPa) respectively; the intraocular pressure of group B was significantly higher than that of group A, the difference was statistically significant (t=0.141, P=0.043). At the last follow-up, there was no significant difference in the percentage of visual acuity improvement between the two groups (χ2=0.315, P=0.053); there was no significant difference in the incidence of concurrent cataract and epimacular membrane (χ2=0.621, P>0.05). Among the 37 cases in group A, 32 cases (86.5%, 32/37) developed obesity symptoms during the follow-up period. ConclusionPPV combined with intravitreal implantation of Ozurdex and oral glucocorticoid after PPV can effectively improve the visual acuity of the affected eye; the incidence of complications is similar, however, the incidence of obesity after oral glucocorticoid is higher.
ObjectiveTo observe the clinical outcome of minimally invasive vitrectomy for ocular toxocariasis (OT). MethodsThe clinical data of 37 eyes in 37 patients with OT who underwent 23-gauge vitrectomy were retrospectively reviewed. There were 27 male patients and 10 female patients. The age was from 9 months to 22 years, with the mean age of (7.90±4.47) years. Patients who can cooperate underwent non-contact tonometer examination, slit lamp examination, fundus photography, ultrasound examination, optical coherence tomography and ultrasound biomicroscopic examination. The visual acuity was from no light perception to 0.6. According to the clinical type of OT, 18 eyes had posterior granuloma, 13 eyes had peripheral granuloma, 4 eyes had endophthalmitis and 2 eyes had atypical presentation. Seventeen eyes had vitrectomy for tractional retinal detachment (TRD), 13 eyes for epiretinal membrane (ERM), 6 eyes for TRD combined with ERM and 1 eye for endophthalmitis. Twenty-five eyes had lens-sparing vitrectomy, 12 eyes had lensectomy with vitrectomy; five eyes had limbus incision and 32 eyes had pars plana incision. Five eyes (13.51%) had reoperation. Followed up from 6 months to 39 months, with the mean of (13.90±10.25) months. ResultsVision improved in 25 of 35 eyes (71.43%), was unchanged in 9 eyes (25.71%), and was declined in 1 eye (2.86%). Retina was reattached in 22 of 23 eyes that had TRD before surgery (95.65%); the rest one eye had redetachment (4.35%). Three eyes had cataract after surgery, which accounted for 12% in lens-sparing eyes. Among them, 2 eyes had lensectomy therefore. ERM was removed and had no recurrence in 18 of 19 eyes (94.74%). ConclusionMinimally invasive vitrectomy for OT patients can improve their vision and achieve retinal reattachment.
ObjectiveTo assess the diagnostic performance of serum anti-toxocara immunoglobulin G (anti-T-IgG) in ocular toxocariasis (OT) patients. MethodsA diagnostic tests. A total of 109 patients (109 eyes) with clinically-suspected OT who treated in Department of Ophthalmology of Xuzhou First People’s Hospital from June 2015 to December 2022 were included. Patients were divided into two groups, 76 with OT and 33 with non-OT, according to the clinical manifestations and Goldmann-Witmer coefficient. Paired serum and intraocular fluid samples from each patient were collected and analyzed for specific anti-T-IgG using enzyme linked immunosorbent assay. Mann-Whitney test was performed for comparison between groups. The area under the receiver operating characteristic curve (ROC) was used to assess the diagnostic performance of serum anti-T-IgG. Kappa analysis was performed to examine the consistency of serum or intraocular fluid anti-T-IgG positive rate with OT diagnostic result. Spearman’s rank correlation test was performed to assess the association. ResultsCompared with the non-OT group, the proportions of children and history of exposure to cats and dogs (χ2=9.785, 12.026) were significantly higher in OT group, and the differences were statistically significant (P<0.01). The positive rate (χ2=24.551) and U value (Z=−4.379) of serum anti-T-IgG in OT group were higher than those in non-OT group, and the differences were statistically significant (P<0.000 1). The recommended serum anti-T-IgG cut-off value of 11 U had 0.72 sensitivity, 0.79 specificity, 0.89 positive predictive value, 0.55 negative predictive value, and 0.77 area under the ROC with 95% confidence interval (CI) 0.669-0.860. Correlation analysis showed that serum anti-T-IgG was positively correlated with intraocular fluid anti-T-IgG (rs=0.520, 95%CI 0.363-0.648, P<0.000 1). The Kappa values of serum and intraocular fluid anti-T-IgG positive rate with OT diagnosis were 0.457 (95%CI 0.292-0.622) and 0.711 (95%CI 0.582-0.840), respectively. The Kappa value of serum anti-T-IgG positive rate with OT diagnosis was lower than that of intraocular fluid. ConclusionThe sensitivity and specificity of serum anti-T-IgG and the consistency between serum anti-T-IgG positive rate and OT diagnosis are low, suggesting that serum anti-T-IgG level cannot be used as a basis for OT diagnosis.
ObjectiveTo investigate the clinical characteristics of 40 patients with ocular toxocariasis (OT) on the first attendance. MethodsA total of 40 consecutive patients who were clinically and serologically diagnosed with OT were retrospectively reviewed. ResultsThe mean age of patients was (12.12±10.42) years. There were 29 males and 11 females. 29 cases presented with decreased vision, 4 children with leukocoria, 2 cases with strabismus and 5 cases was found abnormal during regular eye examination. Initially 8 eyes (20%) were misdiagnosed as retinoblastoma (1 eye), Coat's disease(1 eye), cataract (2 eyes), iridocyclitis (2 eyes) and retinal detachment (2 eyes). 23 eyes had retinal detachment, 19 eyes had cataract. OT was the initial diagnosis for 15 patients (37.5%). The best corrected visual acuity (BCVA) were NLP to 0.7. Ultrasound biomicroscopy (UBM) were performed in 29 eyes, and identified peripheral granulomas in 23 eyes and adjacent tractional retinal detachment in 12 eyes. We also identified 17 cases (68.0%) with elevated IgE level among 25 patients with positive serological antibody test. ConclusionsTractional retinal detachment, vitreous opacities and cataract are the common clinical findings at the first attendance of OT patients. The adjunctive test of serum total IgE level may be helpful for the diagnosis. The application of UBM and specific IgG detection in serum and intraocular fluid, can also improve the diagnosis.
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 observe the clinical characteristics and treatment prognosis of patients with ocular toxocariasis (OT). MethodsA retrospective clinical trial. From March 2018 to September 2021, 40 eyes of 40 OT patients diagnosed by ophthalmic examination in the First Affiliated Hospital of Zhengzhou University were included in the study. All patients underwent best corrected visual acuity (BCVA) and scanning laser ophthalmoscope (SLO) examination. Color Doppler ultrasound flow imaging (CDFI), fluorescein fundus angiography (FFA) and optical coherence tomography (OCT) were performed in 25, 26 and 26 eyes, respectively. Among the 40 patients, there were 23 males (57.5%, 23/40) and 17 females (42.5%, 17/40). All patients were monocular. Thirty patients (75.0%, 30/40) were younger than 18 years old, with the mean age of (9.60±0.60) years. Ten patients (25.0%, 10/40) were great than or equal to 18 years old, with the mean age of (34.60±4.52) years. Thirty-three patients (82.5%, 33/40) lived in rural areas for a long time. There were 27 patients (67.5%, 27/40) with a history of contact with dogs and cats. In 40 eyes, peripheral granuloma (peripheral type), posterior pole granuloma (posterior pole type), vitreous opacity similar to endophthalmitis (turbid type) and hybrid type were 18(45.0%, 18/40), 11(27.5%, 11/40), 6(15.0%, 6/40) ang 5(12.5%,5/40), respectively. All patients were treated with drugs and/or surgery after definite diagnosis. There were 28 eyes of peripheral type, posterior pole type and hybrid type, 17 eyes were treated with surgery and 11 eyes with drug treatment, respectively. Five eyes with turbid type were only treated with drugs. In 40 patients, 33 patients participated in follow-up. The follow-up time after treatment was (18.78±9.44) months. The improvement of BCVA was observed. The number of eyes with different BCVA before and after treatment was compared by χ2 test or Fisher's test. ResultsAt the first visit, the BCVA ranged from light perception to 0.6, including 20 eyes with BCVA <0.1, 13 eyes with BCVA 0.1-0.3, and 7 eyes with BCVA >0.3. The posterior vitreous anterior limiting membrane was thickened in 24 eyes (60.0%, 24/40). There were 27 eyes (67.5%, 27/40) with lamellar vitreous opacity and 22 eyes (55.0%, 22/40) with peripheral/posterior pole granulomas. Among 25 eyes examined by CDFI, 14 eyes (56.0%, 14/25) showed characteristic stratified or diffuse opacity in vitreous body. Of the 26 eyes examined by FFA, 15 eyes (57.7%, 15/26) had "fern-like" leakage of retinal capillaries, and the lesion had a patchy non-perfused area. In 26 eyes examined by OCT, epiretinal membrane, cystoid macular edema and vitreoretinal traction were 8 (30.8%, 8/26), 5 (19.2%, 5/26) and 2 (7.7%, 2/26) eyes, respectively. At the last follow-up, compared with before treatment, the BCVA of 5 eyes with turbid type increased, and the difference was statistically significant (P<0.05). In 28 eyes with peripheral type, posterior pole type and hybrid type, 17 eyes with surgical treatment improved BCVA, and the difference was statistically significant (χ2=6.258, P<0.05). In 11 eyes only treated with drugs, BCVA remained unchanged, and the difference was not statistically significant (χ2=0.594, P>0.05). ConclusionsOT patients are mostly children; retinal granulomas, gray-white hyperplastic membrane behind lens or vitreous stratified opacity are specific characteristics. OT is mainly treated by glucocorticoid drugs and vitrectomy.
ObjectiveTo evaluate the clinical value of detecting specific IgG against Toxocara canis in intraocular fluid for the diagnosis of ocular toxocariasis(OT). MethodsFifty patients diagnosed as having OT(OT group), 152 otolaryngology patients (serum control group) and 70 other oculopathy patients (intraocular fluid control group) were enrolled in the study. Intraocular fluids(28 aqueous humor and 22 vitreous humor) and serum samples of OT group were analyzed for specific IgG against Toxocara canis by enzymelinked immunosorbent assay, so were the intraocular fluids(46 aqueous humor and 24 vitreous humor) and 152 serum samples of two control group. Specific IgG level was compared between paired serum and intraocular fluids of OT group. Results68.00% serum samples of OT group were positive for specific IgG against Toxocara canis and the U value was 20.42±17.01. The positive rate was 88.00% and U value 25.72±23.04 in intraocular fluids. In serum control group, it was 2.63% and 2.37±2.71 respectively. The intraocular fluids were negative and U value 0.69±0.34 in intraocular fluid control group. The difference of specific IgG level was proved significant between OT group and control group in both serum and intraocular fluid (Z=8.962, 8.120; P=0.000, 0.000). Twenty-eight patients (56.00%) were positive for specific IgG in both serum and intraocular fluid. Six patients (12.00%) were positive only in serum, and 16 patients (32.00%) only in intraocular fluid. The positive rate was significantly higher in intraocular fluid than in serum (χ2=4.720, P=0.028). Moreover, 64.00% intraocular fluid showed higher specific IgG level than pared serum. ConclusionThe complementary detection of intraocular specific IgG have referential value in diagnosing ocular toxocariasis.