AIM:To compare the surgical outcomes of glaucoma drainage device implantation(GDI)and trans-scleral neodymium:YAG cyclophotocoagulation(CPC)in the management of refractory glaucoma after Descemetstripping automated en...AIM:To compare the surgical outcomes of glaucoma drainage device implantation(GDI)and trans-scleral neodymium:YAG cyclophotocoagulation(CPC)in the management of refractory glaucoma after Descemetstripping automated endothelial keratoplasty(DSAEK).METHODS:This retrospective study on observational case series enrolled 29 patients who underwent DSAEK and posterior anti-glaucoma surgery(15 with GDI and 14 with CPC).The main outcome measures were intraocular pressure(IOP),glaucoma surgery success rate(defined as IOP of 6–21 mm Hg without additional anti-glaucoma operation),number of glaucoma medications,endothelial graft status,and best-corrected visual acuity(BCVA).RESULTS:The mean follow-up time was 34.1 and 21.0mo for DSAEK or glaucoma surgeries,both for the GDI and CPC groups.Both groups showed significant IOP reduction after glaucoma surgery.The GDI group presented a significantly higher success rate in IOP control than the CPC group(60%vs 21.4%,P=0.03).Both procedures significantly decreased the number of glaucoma medications(P=0.03).Forty percent and 57%of cases in the GDI and the CPC group,respectively,experienced endothelial graft failure during follow-up(P=0.36).Significantly worse BCVA after surgery was observed in the CPC group but not in the GDI group.CONCLUSION:Both GDI and CPC significantly decrease IOP in eyes with glaucoma after DSAEK.GDI is preferable to CPC in refractory glaucoma cases after DSAEK,as it manifests a significantly higher success rate for IOP control,similar endothelial graft failure rate,and relatively preserves BCVA than CPC.展开更多
AIM:To investigate the phototoxic effect of long-term excessive narrow-band blue light in staurosporine-induced differentiated retinal ganglion cells-5(SSRGC-5).METHODS:SSRGC-5 cells were divided into two groups,blue ...AIM:To investigate the phototoxic effect of long-term excessive narrow-band blue light in staurosporine-induced differentiated retinal ganglion cells-5(SSRGC-5).METHODS:SSRGC-5 cells were divided into two groups,blue light group(BL group)and control group.Cell viability was assessed by using CCK-8 assay.Metabolic profile analysis was performed by using Seahorse extracellular flux analyzer.Mitochondria ultrastructure were studied via transmission electron microscope(TEM).Mitochondria contents and oxidative stress was evaluated by flow cytometry.Western blotting was performed to monitor the changes in mitogen-activated protein kinases(MAPK)pathway and PI3 K/AKT pathway.RESULTS:Blue light caused morphological changes of SSRGC-5 cells.The cell viability was significantly decreased from 3 h in BL group.Intercellular ROS and mitochondrial superoxide levels were increased following blue light exposure.Metabolic profiling identified blue light induced SSRGC-5 cells to have severely compromised mitochondrial function.This was accompanied by impaired mitochondrial ultrastructure and remodeling,increased expression of the mitochondrial related proteins,and increased glycolysis as compensation.Moreover,the results showed that blue light induced higher expression of p-p38,p38,p-JNK,p-ERK,p-cJun,c-Jun,and p-AKT.CONCLUSION:These findings indicate that excessive narrow-band blue light induces oxidative stress and mitochondrial metabolic remodeling dysregulate in SSRGC-5 cells.Activated MAPK and AKT signaling pathways are involved in this process.展开更多
文摘AIM:To compare the surgical outcomes of glaucoma drainage device implantation(GDI)and trans-scleral neodymium:YAG cyclophotocoagulation(CPC)in the management of refractory glaucoma after Descemetstripping automated endothelial keratoplasty(DSAEK).METHODS:This retrospective study on observational case series enrolled 29 patients who underwent DSAEK and posterior anti-glaucoma surgery(15 with GDI and 14 with CPC).The main outcome measures were intraocular pressure(IOP),glaucoma surgery success rate(defined as IOP of 6–21 mm Hg without additional anti-glaucoma operation),number of glaucoma medications,endothelial graft status,and best-corrected visual acuity(BCVA).RESULTS:The mean follow-up time was 34.1 and 21.0mo for DSAEK or glaucoma surgeries,both for the GDI and CPC groups.Both groups showed significant IOP reduction after glaucoma surgery.The GDI group presented a significantly higher success rate in IOP control than the CPC group(60%vs 21.4%,P=0.03).Both procedures significantly decreased the number of glaucoma medications(P=0.03).Forty percent and 57%of cases in the GDI and the CPC group,respectively,experienced endothelial graft failure during follow-up(P=0.36).Significantly worse BCVA after surgery was observed in the CPC group but not in the GDI group.CONCLUSION:Both GDI and CPC significantly decrease IOP in eyes with glaucoma after DSAEK.GDI is preferable to CPC in refractory glaucoma cases after DSAEK,as it manifests a significantly higher success rate for IOP control,similar endothelial graft failure rate,and relatively preserves BCVA than CPC.
基金Supported by the National Natural Science Foundation of China(No.81670821,No.81400440)。
文摘AIM:To investigate the phototoxic effect of long-term excessive narrow-band blue light in staurosporine-induced differentiated retinal ganglion cells-5(SSRGC-5).METHODS:SSRGC-5 cells were divided into two groups,blue light group(BL group)and control group.Cell viability was assessed by using CCK-8 assay.Metabolic profile analysis was performed by using Seahorse extracellular flux analyzer.Mitochondria ultrastructure were studied via transmission electron microscope(TEM).Mitochondria contents and oxidative stress was evaluated by flow cytometry.Western blotting was performed to monitor the changes in mitogen-activated protein kinases(MAPK)pathway and PI3 K/AKT pathway.RESULTS:Blue light caused morphological changes of SSRGC-5 cells.The cell viability was significantly decreased from 3 h in BL group.Intercellular ROS and mitochondrial superoxide levels were increased following blue light exposure.Metabolic profiling identified blue light induced SSRGC-5 cells to have severely compromised mitochondrial function.This was accompanied by impaired mitochondrial ultrastructure and remodeling,increased expression of the mitochondrial related proteins,and increased glycolysis as compensation.Moreover,the results showed that blue light induced higher expression of p-p38,p38,p-JNK,p-ERK,p-cJun,c-Jun,and p-AKT.CONCLUSION:These findings indicate that excessive narrow-band blue light induces oxidative stress and mitochondrial metabolic remodeling dysregulate in SSRGC-5 cells.Activated MAPK and AKT signaling pathways are involved in this process.