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find Keyword "Retinal vascular" 8 results
  • Research progress and clinical application of retinal vascular diameter measurement

    Retinal blood vessels are the only circulatory system that can be observed under non-invasive conditions. By observing the morphological changes of retinal blood vessels, the changes of blood circulation can be indirectly reflected. The occurrence, development and evolution of different diseases can be discovered. With the development of new detection technologies, especially the wide application of fundus photography and optical coherence tomography, a more intuitive and non-invasive quantitative index is provided for retinal vascular measurement. It is important for the diagnosis, guiding treatment and follow-up of related vascular diseases. This article reviews the development of retinal vessel diameter measurement methods and related applications in clinical diagnosis and treatment.

    Release date:2020-12-18 07:08 Export PDF Favorites Scan
  • Up-regulation of p21 activated kinase 4 expression in the retina of diabetes mice and its effects on the behavior and mitochondrial function in retinal vascular endothelial cells

    ObjectiveTo observe the effects of p21 activated kinase 4 (PAK4) on the mitochondrial function and biological behavior in retinal vascular endothelial cells. MethodsThe experimental study was divided into two parts: in vivo animal experiment and in vitro cell experiment. In vivo animal experiments: 12 healthy C57BL/6J male mice were randomly divided into normal control group and diabetes group, with 6 mice in each group. Diabetes mice were induced by streptozotocin to establish diabetes model. Eight weeks after modeling, quantitative real-time polymerase chain reaction and Western blots were performed to detect the expression of PAK4 in diabetic retinas. In vitro cell experiments: the human retinal microvascular endothelial cells (hRMEC) were divided into three groups: conventional cultured cells group (N group), empty vector transfected (Vector group); pcDNA-PAK4 eukaryotic expression plasmid transfected group (PAK4 group). WB and qPCR were used to detect transfection efficiency, while scratching assay, cell scratch test was used to detect cell migration in hRMEC of each group. In vitro white blood cell adhesion experiment combined with 4 ', 6-diamino-2-phenylindole staining was used to detect the number of white blood cells adhering to hRMEC in each group. The Seahorse XFe96 cell energy metabolism analyzer measures intracellular mitochondrial basal respiration, adenosine triphosphate (ATP) production, maximum respiration, and reserve respiration capacity. The t-test was used for comparison between the two groups. Single factor analysis of variance was used for comparison among the three groups. ResultsIn vivo animal experiments: compared with normal control group, the relative expression levels of PAK4 mRNA and protein in retina of diabetic mice were significantly increased, with statistical significance (t=25.372, 22.419, 25.372; P<0.05). In vitro cell experiment: compared with the N group and Vector group, the PAK4 protein, mRNA relative expression and cell mobility in the hRMEC of PAK4 group were significantly increased, with statistical significance (F=36.821, 38.692, 29.421; P<0.05). Flow cytometry showed that the adhesion number of leukocytes on hRMEC in PAK4 group was significantly increased, and the difference was statistically significant (F=39.649, P<0.01). Mitochondrial pressure measurement results showed that the capacity of mitochondrial basic respiration, ATP production, maximum respiration and reserve respiration in hRMEC in PAK4 group was significantly decreased, with statistical significance (F=27.472, 22.315, 31.147, 27.472; P<0.05). ConclusionOver-expression of PAK4 impairs mitochondrial function and significantly promotes leukocyte adhesion and migration in retinal vascular endothelial cells.

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  • Metformin inhibiting the activation of NLRP3 inflammasome and pyroptosis in diabetic retinal vascular endothelial cells

    Objective To observe the effect of metformin (Met) on inflammatory bodies and focal death in human retinal microvascular endothelial cells (hRMEC) in diabetes mellitus (DM) microenvironment. MethodsExperimental research was divided into in vivo animal experiment and in vitro cell experiment. In vivo animal experiments: 9 healthy C57BL/6J male mice were randomly divided into DM group, normal control group, and DM+Met group, with 3 mice in each group. DM group and DM+Met group mice were induced by streptozotocin to establish DM model, and DM+Met group was given Met 400 mg/ (kg · d) intervention. Eight weeks after modeling, the expression of NLRP3, cleaved-membrane perforating protein D (GSDMD) and cleaved-Caspase-1 in the retina of mice in the normal control group, DM group and DM+Met group were observed by immunohistochemical staining. In vitro cell experiments: hRMEC was divided into conventional culture cell group (N group), advanced glycation end products (AGE) group, and AGE+Met group. Joining the AGE, AGE+Met groups cells were induced by 150 μg/ml of glycation end products, and 2.0 mmol/L Met was added to the AGE+Met group. Pyroptosis was detected by flow cytometry; 2',7'-dichlorofluorescein diacetate (DCFH-DA) fluorescent probe was used to detect the expression of reactive oxygen species (ROS) in cells of each group. Real-time fluorescence quantitative polymerase chain reaction and Western blot were used to detect the relative mRNA and protein expression levels of NLRP3, cleaved-GSDMD, cleaved-Caspase-1 in each group of cells. Single factor analysis of variance was used for comparison among the three groups. ResultsIn vivo animal experiments: compared with the DM group, the expression of NLRP3, cleaved-GSDMD, and cleaved-Caspase-1 in the retina of normal control group and DM+Met group mice was significantly reduced, with significant difference among the 3 groups (F=43.478, 36.643, 24.464; P<0.01). In vitro cell experiment and flow cytometry showed that the pyroptosis rate of AGE group was significantly higher than that of N group and AGE+Met group (F=32.598, P<0.01). The DCFH-DA detection results showed that the intracellular ROS levels in the N group and AGE+Met group were significantly lower than those in the AGE group, with the significant difference (F=47.267, P<0.01). The mRNA (F=51.563, 32.192, 44.473; P<0.01) and protein levels (F=63.372, 54.463, 48.412; P<0.01) of NLRP3, cleaved-GSDMD, and cleaved-Caspase-1 in hRMEC of the AGE+Met group were significantly reduced compared to the N group. ConclusionMet can down regulate the expression of NLRP3 inflammatory body related factors in hRMEC and inhibit pyroptosis.

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  • Changes in retinal vascular geometry in young myopic subjects

    Objective To investigate the effect of myopia on retinal vascular geometry in young subjects. Methods A retrospective cross-sectional study. From June 2018 to December 2018, 235 participants (235 eyes) who took part in routine physical examination in Huadong Sanatorium were included . There were 94 males and 141 females; age was (34.89±6.15) years old; equivalent spherical refraction (SE) was (-3.78±3.25) D. 59 (25.11%, 59/235) were divided into high myopia group (SE≤-6.0 D), along with 131 (55.74%, 131/235) low to moderate myopia group (-0.5 D>SE>-6.0 D), and 45 (19.15%, 45/235) emmetropia group (0.5 D≥SE≥-0.5 D). Retinal vascular geometric measurements, including central retinal arteriolar equivalent (CRAE), central retinal venular equivalent (CRVE), fractal dimension arteriole (FDa), fractal dimension venule (FDv), curvature tortuosity arteriole (CTORTa), curvature tortuosity venule, branch angle arteriole (BAa), branch angle venule, branch coefficient arteriole and branching coefficient venule, were extracted by using a validated computer program. One-way analysis of variance and analysis of covariance were performed to compare the measurements across the high myopia, low to moderate myopia, and emmetropia groups. Linear regression analysis was used to explore the relationship between SE and retinal vascular geometric parameters. ResultsThe differences in CRAE (F=65.11), CRVE (F=61.52), FDa (F=14.26), FDv (F=8.31), CTORTa (F=5.07) and BAa (F=6.51) among eys of high myopia group, low to moderate myopia group and emmetropia group remained significant (P<0.05) after adjusting for age, glycosylated hemoglobin, mean arterial pressure, body mass index, and intraocular pressure. CRAE and CRVE were linearly correlated with the SE (P<0.05). FDa, FDv, cTORTa and BAa decreased with the decrease of SE in high myopia (P<0.05). ConclusionsMyopia is associated with the change of the retinal vascular geometric characteristics. With the deepening of myopia, the change of retinal vascular geometric characteristics gradually worsens.

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  • Interleukin-8 antagonist down regulates the adhesion and migration of retinal vascular endothelial cells by inhibiting the production of reactive oxygen species

    ObjectiveTo observe the effect of interleukin-8 (IL-8) on the adhesion and migration of retinal vascular endothelial cells (RCEC). MethodsA cell experiment. Human RCEC (hRCEC) was divided into normal control group (N group), advanced glycation end product (AGE) treatment group (AGE group), and AGE-induced combined IL-8 antagonist SB225002 treatment group (AGE+SB group). The effect of AGE on IL-8 expression in hRCEC was observed by Western blot. The effect of SB225002 on hRCEC migration was observed by cell scratch assay. The effects of SB225002 on leukocyte adhesion and reactive oxygen species (ROS) on hRCEC were detected by flow cytometry. Student-t test was performed between the two groups. One-way analysis of variance was performed among the three groups. ResultsCompared with group N, the expression level of IL-8 in cells of AGE group was significantly increased, with statistical significance (t=25.661, P<0.001). Compared with N group and AGE+SB group, cell mobility in AGE group was significantly increased (F=29.776), leukocyte adhesion number was significantly increased (F=38.159, 38.556), ROS expression level was significantly increased (F=22.336), and the differences were statistically significant (P<0.05). ConclusionIL-8 antagonist SB225002 may down-regulate hRCEC adhesion and migration by inhibiting ROS expression.

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  • Effect of SB431542 on retinal vascular endothelial cells under hypoxia

    Objective To investigate the effect of Nodal protein on retinal neovascularization under hypoxia. MethodsIn vivo animal experiment: 48 healthy C57BL/6J mice were randomly divided into normal group, oxygen-induced retinopathy (OIR) group, OIR+dimethyl sulfoxide (DMSO) group and OIR+SB431542 group, with 12 mice in each group. Retinal neovascularization was observed in mice at 17 days of age by retina flat mount. Counts exceeded the number of vascular endothelial nuclei in the retinal inner boundary membrane (ILM) by hematoxylin eosin staining. In vivo cell experiment: human retinal microvascular endothelial cells (hRMEC) were divided into normal group, hypoxia group, hypoxia+DMSO group and hypoxia +SB431542 group. The cell proliferation was detected by thiazolyl blue colorimetry (MTT). The effect of SB431542 on hRMEC lumen formation was detected by Matrigel three-dimensional in vitro molding method. Cell migration in hRMEC was detected by cell scratch assay. The Seahorse XFe96 Cell Energy Metabolism analyzer measured extracellular acidification rate (ECAR) of intracellular glycolysis, glycolysis reserve, and glycolysis capacity. One-way analysis of variance was used to compare groups. ResultsIn vivo animal experiment: compared with normal group, the neovascularization increased in OIR group (t=41.621, P<0.001). Compared with OIR group, the number of vascular endothelial nuclei breaking through ILM in OIR+SB431542 group was significantly reduced, and the difference was statistically significant (F=36.183, P<0.001). MTT test results showed that compared with normal group and hypoxia+SB431542 group, the cell proliferation of hypoxia group and hypoxia+DMSO group was significantly increased, and the difference was statistically significant (F=39.316, P<0.01). The cell proliferation of hypoxia+SB431542 group was significantly lower than that of hypoxia+DMSO group, and the difference was statistically significant (t=26.182, P<0.001). The number of intact lumen formation and migration cells in normal group, hypoxia group, hypoxia+DMSO group and hypoxia+SB431542 group were statistically significant (F=34.513, 41.862; P<0.001, <0.01). Compared with the hypoxia+DMSO group, the number of intact lumen formation and migrating cells in the hypoxia+SB431542 group decreased significantly, and the differences were statistically significant (t=44.723, 31.178; P<0.001, <0.01). The results of cell energy metabolism showed that compared with the hypoxia +DMSO group, the ECAR of intracellular glycolysis and glycolysis reserve in the hypoxia +SB431542 group was decreased, and the ECAR of glycolysis capacity was increased, with statistical significance (t=26.175, 33.623, 37.276; P<0.05). ConclusionSB431542 can inhibit the proliferation, migration and the ability to form lumens, reduce the level of glycolysis of hRMECs cells induced by hypoxia.

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  • Silencing Nodal inhibits the biological behavior of retinal vascular endothelial cells under high glucose conditions

    Objective To observe the effect of Nodal on the biological behavior of retinal vascular endothelial cells (RF/6A cells) in monkeys with high glucose. MethodsRF/6A cells were divided into normal group, mannitol group, high glucose group, high glucose combined with non-specific small interfering RNA treatment group (HG+NC group), high glucose combined with small interfering Nodal treatment group (HG+siNodal group). The transfection efficiency of siNodal was observed by real-time fluorescence quantitative PCR and western blot protein immunoblotting. The effect of Nodal on the proliferation of RF/6A cells was detected by thiazole blue colorimetry. The effect of Nodal on migration ability of RF/6A cells was detected by cell scratch assay. The effect of Nodal on the formation of RF/6A cell lumen was measured by Matrigel three-dimensional in vitro. The expression of extracellular signal phosphorylated regulated kinase 1/2 (pERK1/2) in RF/6A cells was detected by western blot protein immunoblotting. One-way analysis of variance was used to compare groups. ResultsCompared with HG+NC group, Nodal protein (F=33.469) and mRNA relative expression levels (F=38.191) in HG+siNodal group were significantly decreased, cell proliferation was significantly decreased (F=28.548), and cell migration ability was significantly decreased (F=24.182). The number of cell lumen formation was significantly decreased (F=52.643), and the differences were statistically significant (P<0.05). Compared with HG+NC group, the relative expression of pERK1/2 protein in HG+siNodal group was significantly decreased, and the difference was statistically significant (F=44.462, P<0.01). ConclusionsSilencing Nodal expression can inhibit proliferation, migration and tube formation of RF/6A cells induced by high glucose. It may act by inhibiting pERK1/2 expression.

    Release date:2024-03-06 03:23 Export PDF Favorites Scan
  • The effect of NDRG1 gene on the angiogenesis ability of retinal endothelial cells in vitro

    ObjectiveTo observe the effects of NDRG1 on proliferation, migration and lumen formation of retinal vascular endothelial cells (RF/6A cells) in monkeys under high glucose condition. MethodsRF/6A cells were divided into normal group, mannitol group, high glucose group, small interfering RNA (siRNA) negative control group without target gene (siRNA group), 30 nmol/L siRNA down-regulated NDRG1 genome (siNDRG1 group) and 50 nmol/L siNDRG1 group. Normal group cells were cultured conventionally. The mannitol group was added with 25 mmol/L mannitol, and the high-glucose group was added with 25 mmol/L glucose. In the siRNA group, 25 mmol/L glucose was added, and then blank siRNA was added for induction. The 30 and 50 nmol/L siNDRG1 groups were added with 25 mmol/L glucose and induced with 30 and 50 nmol/L siRNDRG1, respectively. All cells were incubated for 24 h for follow-up experiments. Cell proliferation was observed by 4', 6-diaminidine 2-phenylindole staining. Cell counting kit-8 staining was used to detect cell activity. The expression level of NDRG1 mRNA and protein was detected by Western blot and real-time quantitative polymerase chain reaction. Cell migration was observed by cell scratch assay. Cell lumen formation assay was used to detect lumen formation. The two-tailed Student t test was used to compare the two groups. One-way analysis of variance was used to compare groups. ResultsThere were significant differences in cell proliferation rate (t=36.659, 57.645) mobility rate (t=24.745, 33.638) and lumen formation number (t=41.276, 22.867) between high glucose group and normal group and mannitol group (P<0.01). Compared with normal group and mannitol group, the relative expression levels of NDRG1gene mRNA and protein in high glucose group were significantly decreased, with statistical significance (t=46.145, 21.541, 36.738, 32.976; P<0.001). Compared with the siRNA negative group, the relative expression levels of NDRG1gene mRNA and protein in 30 nmol/L siNDRG1 group and 50 nmol/L siNDRG1 group were significantly decreased, and the differences were statistically significant (t=44.275, 40.7577, 57.167, 25.877; P<0.01). Compared with normal group and siRNA group, cell mobility in 30 nmol/LsiNDRG1 group was increased, and the difference was statistically significant (t=57.562, 49.522; P<0.01). Compared with normal group and siRNA group, the number of cell lumen formation in 30 nmol/LsiNDRG1 group was significantly increased in the same field of vision, and the difference was statistically significant (t=63.446, 42.742; P<0.01). ConclusionDown-regulation of NDRG1 gene can improve the activity, migration and lumen formation of RF/6A cells under hyperglycemia.

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