Objective To detect the levels of vascular endoth elial growth factor (VEGF) in aqueous humor and vitreous of patients with neovascular glaucoma (NVG) and infer their possible effect on the development of neovascularization of iris. Methods The concentration of VEGF in 22 samples of ocular fluid of aqueous humor and vitreous respectively obtained from 11 patients with NVG undergone intraocular surgery were measured by using enzyme linked immunosobent assay (ELISA) for quantitative analysis. As control, 12 samples of ocular fluid of 6 patients with macular hole were detected by the same methods. Results The mean [AKx-]plusmn;s VEGF concentrations in aqueous humor and vitreous from patients with NVG were [(1.451plusmn;0.247)、(1.610plusmn;0.125) ng/ml] higher than those in the cotrol group [(0.189plusmn;0.038)、(0.201plusmn;0.055) ng/ml], there was a significant difference between the two groups statistically (t=12.007,Plt;0001;t=26.0 57,Plt;0.001). Conclusion The patients with NVG have significantly increased level of VEGF in ocular fluid, and VEGF might fill the role in mediating active iris neovascularization. (Chin J Ocul Fundus Dis, 2001,17:305-306)
Objective To observe the expression of vascular endothelial growth factor (VEGF) in aqueous humor and vitreous body in eyes with proliferative vitreo-retinal diseases, and to investigate the role of VEGF plays in the pathoge nesis of proliferative vitreo-retinal diseases. Methods The concentration of VEGF in aqueous humor and vitreous body in eyes with proliferative vitreoretinopathy (PVR), retinal vein occlusion (RVO), proliferative diabetic retinopathy (PDR), and neovascular glaucoma (NVG) were measured by double antibodies sandwich enzyme-linked immunosorbent assay (ELISA). Results The concentration of VEGF in aqueous humor and vitreous body in eyes with PVR, RVO, PDR and NVG were obviously higher than that in the control group (Plt;0.05), respectively. Among all of the diseases, the concentration of VEGF in aqueous humor and vitreous body decreased orderly in NVG, PDR, RVO and PVR (Plt;0.05). The concentration of VEGF in vitreous body in eyes with PVR, RVO, PDR and in the control group were much higher than that in aqueous humor in corresponding groups (Plt;0.05). There was a negative correlation between the disease history and content of VEGF in aqueous humor and vitreous body in patients with PVR (r=-0.819, -0.823;Plt;0.05). The disease history positi vely correlated with the concentration of VEGF in aqueous humor and vitreous body in patients with RVO (r=0.913, 0.929;Plt;0.05), and the time of vitreous hemorrhage positively correlated with the concentration of VEGF in aqueous humor and vitreous body in patients with PDR (r=0.905, 0.920;Plt;0.05). Conclusion The concentration of VEGF in aqueous humor and vitreous body in patients with proliferative vitreo-retinal diseases significantly increases, and VEGF may play an important role in the pathoge nesis of proliferative vitreo-retinal diseases. (Chin J Ocul Fundus Dis, 2006, 22: 313-316)
The fundus lesions caused by high myopia (HM) often lead to irreversible visual impairment or even blindness. However, the pathogenesis of HM and its fundus lesions is still unclear, the intraocular fluid detection technology of micro samples has brought new prospects for the early diagnosis, monitoring and intervention of the fundus lesions. The molecules associated with HM are various and functionally diverse, intermolecular interactions are staggered and the specific mechanism is complex. With the development of intraocular fluid detection technology, while gradually revealing the role of each molecule in the pathogenesis of HM, it is expected to successfully assist clinical work in the future, providing outpost markers for the progress of myopia and targets for early intervention, or providing a new therapy choice for HM fundus lesions at the molecular level targeting pathogenesis, which is expected to provide more accurate and effective treatment for HM patients in the future.
Objective To detect the concentration of vascular endothelial growth factor (VEGF) in plasma and intraocular liquid (aqueous humor and vitreous body) in patients with deabetic retinopathy (DR) and the role VEGF plays in the development of DR. Methods The concentrations of VEGF in plasma, aqueous humor and vitreous body in DR and normal group were detected by ELISA. Results The concentration of VEGF in plasma was (34.47plusmn;1.76) pg/ml in non-DR group, (53.93plusmn;3.08) pg/ml in single DR group, (53.36plusmn;3.28) pg/ml in proliferative DR group, and (178.30plusmn;10.13) pg/ml in control group. There was no significant difference in the normal and the experimental groups (P<0.05). The concentration of VEGF in aqueous humor was (184.8plusmn;12.60) pg/ml in proliferative DR group and (90.06plusmn;8.32) pg/ml in the control group, and there was significant difference between them (P<0.05). The concentration of VEGF in vitreous body was (741.70plusmn;92.02) pg/ml in proliferative DR group and (94.38plusmn;21.21) pg/ml in the control group, and there was significantdifference between them (P<0.05). There was no correlation of VEGF concentration in plasma and that in aqueous humor and vitreous respectively(P>0.05), and positive correlation of VEGF concentration was found in vitreous body and HbA1c (r=0.9067,P<0.01). Conclusions Concentration of VEGF in plasma in patients with DR is lower than that in the normal persons,but not correlated with the concentration of VEGF in aqueous humor and vitreousbody. The concentration of VEGF in aqueous humor and vitreous body increase in patients with proliferative DR, and the increase in vitreous body and the value of HbA1c of the patients correlate. (Chin J Ocul Fundus Dis,2004,20:343-345)
Objective To review the distribution and shifting trends of cultured bacteria from the aqueous humor and the vitreous body. Methods A retrospective analysis on distribution of Gram′s stain, the distribution and change of isolates was performed in 522 specimens (aqueous humor,261 and vitreous body,261) of patients with suspected endophthalmitis during a 10-year period (1989-1998). Results The positive cultures were 119 (aqueous humor,44 and vitreous body,75) of 522 specimens. The average positive rate was 22.8%. Gram-positive cocci constituting 45.4%(54) of total isolates followed by Gram-negative bacilli,34.5%(41);Gram-positive bacilli, 20.2%(24). In the positive bacterial cultures, enterobacteriaceae was the most common isolate, 18.5%, and the next was micrococcus, 16.0%; coagulase-negative staphylococcus,12.6%; and pseudomonas,10.9%.Comparing the data from 1989 through 1993 with the data from 1994 through 1998, the frequency of Gram-positive cocci had no significant change, while the frequency of Gram-positive bacilli was decreased and the percentage of Gram′s-negative bacilli was increased. Conclusions Gram-positive cocci and Gram-negative bacilli are the predominant pathogens of bacterial endophthalmitis. The percentage of Gram′s-negative bacilli has increased for 5 years. It is very important to comprehend the distribution and shifting trends of these pathogenic bacteria for diagnosis, prevention and treatment of bacterial endophthalmitis. (Chin J Ocul Fundus Dis, 2002, 18: 104-105)
ObjectiveTo observe the safety and efficacy of regime that based on aqueous cytomegalovirus-DNA (CMV-DNA) load and IL-8 determination for therapeutic monitoring and local treatment cessation of cytomegalovirus retinitis (CMVR) patients after allogeneic hematopoietic stem cell transplantation (HSCT).MethodsA prospective case series study. A total of 14 CMVR patients (22 eyes) after allogeneic HSCT diagnosed in Ophthalmology Department of Peking University People's Hospital between January 2016 and December 2018 were involved in this study. All patients were CMV-DNA seronegative at baseline and were treated with intravitreous injection of ganciclovir (IVG, 3 mg in 0.05 ml) twice per week for 4 times in the induction stage and once a week in the maintenance stage. Aqueous humor sample was collected during the first time of IVG every week. CMV-DNA and the level of IL-8 were measured by real time quantitative PCR and ELISA, respectively. During follow-up, negative CMV-DNA (<103/ml) or level of IL-8<30 pg/ml in aqueous sample was set as local treatment cessation. Then patients were followed every 2 weeks for at least 6 months. BCVA, intraocular pressure and fundus examination were taken for each visit. The BCVA examination was performed using the international standard visual acuity chart, which was converted into logMAR visual acuity. BCVA and intraocular pressure at the baseline and the last follow-up were compared by the Student t matching test.ResultsOf the 14 CMVR patients (22 eyes) after allogeneic HSCT, 8 patients (16 eyes) were bilateral, 6 patients (6 eyes) were unilateral. At the baseline, the mean logMAR BCVA was 0.814±0.563, the intraocular pressure was 17.2±7.8 mmHg (1 mmHg=0.133 kPa), the mean aqueous CMV-DNA load was (3.43±4.96)×105/ml, the mean level of IL-8 was 518±541 pg/ml. At cessation of local treatment, the median number of intravitreal injections was 5 times. Nine eyes showed negative CMV-DNA in aqueous humor, of which, 7 eyes showed negative IL-8 in aqueous. CMV-DNA could still be detected in 13 eyes, while IL-8 was negative. Only one eye’s retinal lesion was completely quiet. Six months after local treatment cessation, the mean logMAR BCVA was 0.812±0.691, the intraocular pressure was 14.8±5.4 mmHg; which was not significantly different from baseline (t=-0.107, 1.517; P=0.916, 0.137). Recurrence of CMVR happened in only 1 eye because of systemic EB virus infection. Retinal lesions progressively improved and became completely quiet in all the remaining 20 eyes. In 22 eyes, iatrogenic vitreous hemorrhage occurred due to low platelet count during treatment (<30×109/ml) in 4 eyes. When the treatment was terminated for 6 months, the fundus of hematoma absorption was clearly visible. At the time of CMVR diagnosis, there were 2 eyes (9%) with posterior subcapsular opacity, which may be caused by systemic glucocorticoid therapy after allogeneic HSCT.ConclusionAqueous CMV-DNA load and level of IL-8 could be used as quantitative variables for monitoring the therapeutic effect and determining time for local treatment cessation for CMVR after HSCT safely and efficiently.
There are many types of fundus diseases and their causes are complex. They can be caused by metabolic factors or inflammatory factors. Fundus examination and imaging examination tools are the main methods for diagnosing fundus diseases. However, in terms of determining the cause and early diagnosis, if the intraocular fluid detection technology can be reasonably combined, the advantages will be greater. Intraocular fluid is the general term for fluid in the eyeball, including aqueous humor, vitreous humor, etc. The molecular components that can be tested include DNA, RNA, antigens, antibodies, and cytokines. With the advancement of molecular testing technology and equipment, intraocular fluid testing as an evidence-based method has gradually been incorporated into the consensus and guidelines of more fundus disease experts, and is mainly used for infectious fundus diseases and camouflage syndromes. Reasonable use of intraocular fluid testing can help improve the personalized diagnosis and treatment of fundus diseases and reduce unnecessary drug overuse. However, it is worth noting that intraocular fluid detection is only one of many tools and cannot replace other examinations and clinical experience. Excessive intraocular fluid testing not only increases the risk of clinical infections because of invasiveness, but also increases the burden on patients.