The therapeutic effect of anti-vascular endothelial growth factor (VEGF) for neovascular age-related macular degeneration (nAMD) was determined by a number of factors. Comprehensive thorough analysis of clinical features, imaging results and treatment response can predict the potential efficacy and possible vision recovery for the patient, and also can optimize the treatment regime to make a personalized therapy plan. Precise medicine with data from genomics, proteomics and metabolomics study will provide more objective and accurate biology basis for individual precise treatment. The future research should focus on comprehensive assessment of factors affecting the efficacy of anti-VEGF therapy, to achieve individualized precise diagnosis and treatment, to improve the therapeutic outcome of nAMD.
ObjectiveTo observe the longterm effect of suramin on the inhibition of proliferation of human retinal pigment epithelial (RPE) cells in vitro. MethodsRPE cells grown in 9 pieces of 96well plate (12 wells each plate) were divided into experimental and control group, with 6 wells in each group. The concentration of 0.1 ml RPE cells in each well is 5×104 cells/ml. After the change of the medium, RPE cells were treated with suramin (250 μg/ml) in experimental group while treated with nothing in the control group. The medium of the 2 groups were changed to the normal medium after 4 days. At the 1st, 2nd, and 4thday after the addition of suramin and at the 1st, 2nd, 3rd, 5th, 6th, 7th, 9th , 11th and 13th day after removing suramin, 1 plate was randomly selected to stop culturing, and the proliferation of RPE cells were detected by methyl thiazolyl tetrazolium (MTT) assay. ResultsUnder reversed microscope, RPE cells in control group were fused completely at the 7th day after inoculation. The extracellular space of RPE cells in experimental groups was larger than that in the control group, and remained unfused at the 13th day after inoculation. The inhibitory rate of proliferation of RPE cells at the first day after treated with suramin was 14.85% and increased to the highest 25.79% at the 4th day. The first day after the suramincontaining media was removed, the inhibitory rate decreased to 12.35%, and then raised gradually to over 20% at the 3rd to 5th day. Finally, the rate drop to 14.71%. ConclusionSuramin has the long-term effect on the inhibition of RPE cells induced by serum, especially the inhibitive effect after the remove of suramin, which indicates the specific double-peak inhibition during the whole process.(Chin J Ocul Fundus Dis, 2005,21:25-27)
For choroidal neovascularization (CNV) secondary to pathological myopia, intravitreal injection of anti-VEGF has been widely used in clinic and achieved good outcome. However, due to the differences in the demographic characteristics, stages of disease progression and treatment procedure of CNV, the prognosis of the disease is variable. Complete ellipsoid band, smaller baseline choroidal neovascularization and better baseline vision are important predictors of good outcome of anti-vascular endothelial growth factor treatment. Chorioretinal atrophy or complications related to pathologic myopia indicate a poor prognosis. The influence of age, race, previous photodynamic therapy and early treatment on the prognosis of treatment need to be further studied.
Integrins is a family of multi-functional cell-adhesion molecules, heterodimeric receptors that connect extracellular matrix to actin cytoskeleton in the cell cortex, thus regulating various physiological and pathological processes. Risuteganib (Luminate®) is a novel broad-spectrum integrin inhibitor. Based on multiple biological functions of anti-angiogenesis, vitreolysis, and neuroprotection, risuteganib is hopeful in treating several fundus diseases such as diabetic macular edema, vitreomacular traction, and non-exudative age-related macular degeneration. By far, risuteganib has successfully met the endpoints for three phase 2 studies and is preparing to enter the phase 3 of diabetic macular edema clinical trials. Overall the risuteganib is safe with no serious ocular or systemic adverse events. Given the unique mechanism of action and longer duration of efficacy, intravitreal injection of risuteganib has the potential to serve as a primary therapy, or adjunctive therapy to anti-VEGF agents.
ObjectiveTo observe the effect of preoperative intravitreal ranibizumab injection (IVR) on the operation duration of vitrectomy and postoperative vision for the treatment of proliferative diabetic retinopathy (PDR). MethodsA prospective study was carried out with the 90 PDR patients (90 eyes) who underwent vitrectomy. The 90 patients(90 eyes)were assigned to the vitrectomy only group(43 eyes) and the IVR combined with vitrectomy group (47 eyes). The IVR was performed 5-13 days prior to vitrectomy in the IVR combined with vitrectomy group. There were 15 eyes with fibrous proliferation PDR (FPDR), 16 eyes with advanced PDR (APDR) without involving the macular and 16 eyes with APDR involving the macular in the vitrectomy only group. There were 14 eyes with FPDR, 15 eyes with APDR without involving the macular and 14 eyes with APDR involving the macular patients in the IVR combined with vitrectomy group. All the eyes in the two groups were regularly operated by the same doctor to complete the vitrectomy. The start and end time of vitrectomy were recorded. The average follow-up time was 10 months. The changes of best corrected visual acuity (BCVA) before and 1, 3 and 6 months after surgery were compared between the two groups. ResultsThe duration of operation of the FPDR type (t=-8.300) and the APDR involving the macular type (t=-2.418) in the IVR combined with vitrectomy group was shorter than vitrectomy only group (P < 0.05). The comparison of duration of operation of the APDR without involving the macular type in the two groups has no statistically significant difference (t=-1.685, P > 0.05). At 1 month after surgery, the comparison of BCVA of the IVR combined vitrectomy group and the vitrectomy only group in APDR involving the macular type has no statistically significant difference (t=0.126, P > 0.05). At 3, 6 months after surgery, the BCVA of the IVR combined vitrectomy group in APDR involving the macular type was significantly better than the BCVA of the vitrectomy only group (t=8.014, 7.808; P < 0.05). At 1, 3, and 6 months after surgery, the BCVA of the IVR combined vitrectomy group in FPDR type (t=3.809, 1.831, 0.600) and APDR without involving the macular type (t=0.003, 1.092, 3.931) compared with pre-treatment, the difference were not statistically significant (P > 0.05); the BCVA in APDR without involving the macular type compared with pre-treatment, the difference was distinctly statistically significant (t=2.940, 4.162, 6.446; P < 0.05); the BCVA in APDR involving the macular type (t=0.953, 1.682, 1.835) compared with pre-treatment, the difference were not statistically significant (P > 0.05). ConclusionPreoperative IVR of PDR can shorten the operation duration and improve the BCVA of APDR involving the macular type.
Fundus disease is a kind of common ophthalmic disease with high blindness rate and great harm. Although great breakthroughs have been made in medical treatment, laser photocoagulation, radiotherapy and gene therapy of fundus disease, with the further understanding of the essence of fundus disease, there are higher requirements for the treatment of fundus disease. To strengthen scientific research on the etiology, pathological mechanism and clinical treatment of fundus diseases, to control the quality of research, to develop reasonable treatment plans and explore new treatment methods under the guidance of evidence-based medicine theory, to further improve the level of medical treatment and benefit patients with fundus diseases will still be a formidable challenge in the future.
Thanks to the treatment of retinoblastoma (RB) having improved significantly in recent years, there is an increasing trend to use conservative treatment modalities that aim to preserve the globe as well as vision with minimum mortality. RB therapy is a long-term systemic treatment in clinical practice. Although there are many treatment options for RB therapy, such as cryotherapy, photocoagulation, systemic chemotherapy, enucleation and ophthalmic chemotherapy, it is recommended to consider in accordance with the following key points in gaining a reasonable treatment strategies: to make sure that RB is an intraocular period; to determine whether the intraocular RB to be treated with eye preservation or enucleation; what is the case of eye preservation therapy combined with chemotherapy and how to arrange the follow-up of RB patients. It's more complicated to choice the therapeutic measures for RB in clinical practice. So, the patient's condition, economic capability and medical condition should be evaluated comprehensively. The principle of RB treatment should be followed, which is protecting eyeball and visual function without life damage.