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Objective:To observe the effect of Nodal on the biological behavior of retinal vascular endothelial cells (RF/6A cells) in monkeys with high glucose.Methods:RF/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.Results:Compared 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). Conclusions:Silencing 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.
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Objective:To observe the effect of high expression of polypyrimidine tract-binding protein-associated splicing factor (PSF) on low concentration of 4-hydroxynonenal (4-HNE) induced human retinal microvascular endothelial cells (HRMECs), and explore the possible mechanism.Methods:The HRMECs cultured in vitro were divided into 4-HNE treated group, PSF overexpression group combined with 4-HNE group (PSF+4-HNE group), PSF overexpression+ML385 treatment combined with 4-HNE group (PSF+ML385+4-HNE group), and 4-HNE induced PSF overexpression group with LY294002 pretreatment (LY294002+4-HNE+PSF group). Cell culture medium containing 10 μmmol/L 4-HNE was added into 4-HNE treatment group, PSF+4-HNE group, PSF+ML385+4-HNE group for 12 hours to stimulate oxidative stress. 1.0 μg of pcDNA-PSF eukaryotic expression plasmid were transfected into PSF+4-HNE group and PSF+ML385+4-HNE group to achieve the overexpression of PSF. Also cells were pretreated with ML385 (5 μmol/L) for 48 hours in the PSF+ML385+4-HNE group, meanwhile within the LY294002+4-HNE+PSF group, after pretreatment with LY294002, cells were treated with plasmid transfection and 4-HNE induction. Transwell detects the migration ability of PSF to HRMECs. The effect of PSF on the lumen formation of HRMECs was detected by using Matrigel in vitro three-dimensional molding method. Flow cytometer was used to detect the effect of PSF overexpression on reactive oxygen (ROS) level in HRMECs. Protein immunoblotting was used to detect the relative expression of PSF, nuclear factor E2 related factor 2 (Nrf2), heme oxygenase-1 (HO-1) protein, and phosphoserine threonine protein kinase (pAkt) protein. The comparison between the two groups was performed using a t-test. Results:The number of live cells, migrating cells, and intact lumen formation in the 4-HNE treatment group and the PSF+4-HNE group were 1.70±0.06, 0.80±0.13, 24.00±0.58, 10.00±0.67, and 725.00±5.77, 318.7±12.13, respectively. There were significant differences in the number of live cells, migrating cells, and intact lumen formation between the two groups ( t=12.311, 15.643, 17.346; P<0.001). The results of flow cytometry showed that the ROS levels in the 4-HNE treatment group, PSF+4-HNE group, and PSF+ML385+4-HNE group were 816.70±16.67, 416.70±15.44, and 783.30±17.41, respectively. There were statistically significant differences between the two groups ( t=16.311, 14.833, 18.442; P<0.001). Western blot analysis showed that the relative expression levels of pAkt, Nrf2, and HO-1 proteins in HRMECs in the 4-HNE treatment group, PSF+4-HNE group and LY294002+4-HNE+PSF group were 0.08±0.01, 0.57±0.04, 0.35±0.09, 0.17±0.03, 1.10±0.06, 0.08±0.11 and 0.80±0.14, 2.50±0.07, 0.50±0.05, respectively. Compared with the PSF+4-HNE group, the relative expression of pAkt, Nrf2, and HO-1 proteins in the LY294002+4-HNE+PSF group decreased significantly, with significant differences ( t=17.342, 16.813, 18.794; P<0.001). Conclusion:PSF upregulates the expression of HO-1 by activating the phosphatidylinositol 3 kinase/Akt pathway and inhibits cell proliferation, migration, and lumen formation induced by low concentrations of 4-HNE.
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Objective:To observe the effects of p21 activated kinase 4 (PAK4) on the mitochondrial function and biological behavior in retinal vascular endothelial cells.Methods:The 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. Results:In 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). Conclusion:Over-expression of PAK4 impairs mitochondrial function and significantly promotes leukocyte adhesion and migration in retinal vascular endothelial cells.
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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.Methods:Experimental 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.Results:In 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. Conclusion:Met can down regulate the expression of NLRP3 inflammatory body related factors in hRMEC and inhibit pyroptosis.
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Objective:To observe the effects of overexpression of polypyrimidine tract binding protein-associated splicing factor (PSF) on the endoplasmic reticulum (ER) oxidative stress damage of human retinal microvascular endothelial cells (hRMEC) under high concentration of 4-hydroxynonenal (4-HNE).Methods:The logarithmic growth phase hRMEC cultured in vitro was divided into normal group, simple 4-HNE treatment group (simple 4-HNE group), empty plasmid combined with 4-HNE treatment group (Vec+4-HNE group), and PSF high expression combined with 4-HNE treatment group (PSF+4-HNE group). In 4-HNE group, Vec+4-HNE group, and PSF+4-HNE group cell culture medium, 10 μmol/L 4-HNE was added and stimulated for 12 hours. Subsequently, the Vec+4-HNE group and PSF+4-HNE group were transfected with transfection reagent liposome 2000 into pcDNA empty bodies and pcDNA-PSF eukaryotic expression plasmids, respectively, for 24 hours. Flow cytometry was used to detect the effects of 4-HNE and PSF on cell apoptosis. The effect of PSF overexpression on the expression of reactive oxygen species (ROS) in hRMEC was detected by 2', 7'-dichlorodihydrofluorescein double Acetate probe. Western blot was used to detect ER oxide protein 1 (Ero-1), protein disulfide isomerase (PDI), C/EBP homologous transcription factor (CHOP), glucose regulatory protein (GRP) 78, protein kinase R-like ER kinase (PERK)/phosphorylated PERK (p-PERK), and Eukaryotic initiation factor (eIF) 2α/the relative expression levels of phosphorylated eIF (peIF) and activated transcription factor 4 (ATF4) proteins in hRMEC of normal group, 4-HNE group, Vec+4-HNE group, and PSF+4-HNE group. Single factor analysis of variance was performed for inter group comparison.Results:The apoptosis rates of the simple 4-HNE group, Vec+4-HNE group, and PSF+4-HNE group were (22.50±0.58)%, (26.93±0.55)%, and (11.70±0.17)%, respectively. The intracellular ROS expression levels were 0.23±0.03, 1.60±0.06, and 0.50±0.06, respectively. The difference in cell apoptosis rate among the three groups was statistically significant ( F=24.531, P<0.05). The expression level of ROS in the Vec+4-HNE group was significantly higher than that in the simple 4-HNE group and the PSF+4-HNE group, with a statistically significant difference ( F=37.274, P<0.05). The relative expression levels of ER Ero-1 and PDI proteins in the normal group, simple 4-HNE group, Vec+4-HNE group, and PSF+4-HNE group were 1.25±0.03, 0.45±0.03, 0.63±0.03, 1.13±0.09, and 1.00±0.10, 0.27±0.10, 0.31±0.05, and 0.80±0.06, respectively. The relative expression levels of CHOP and GRP78 proteins were 0.55±0.06, 1.13±0.09, 0.90±0.06, 0.48±0.04 and 0.48±0.04, 1.25±0.03, 1.03±0.09, 0.50±0.06, respectively. The relative expression levels of Ero-1 ( F=43.164), PDI ( F=36.643), CHOP ( F=42.855), and GRP78 ( F=45.275) proteins in four groups were compared, and the differences were statistically significant ( P<0.05). Four groups of cells ER p-pERK/pERK ( F=35.755), peIF2 α/ The relative expression levels of eIF ( F=38.643) and ATF4 ( F=31.275) proteins were compared, and the differences were statistically significant ( P<0.05). Conclusion:PSF can inhibit cell apoptosis and ROS production induced by high concentration of 4-HNE, and its mechanism is closely related to restoring the homeostasis of ER and down-regulating the activation level of PERK/eIF2α/ATF4 pathway.
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ObjectiveTo analyze the epidemic intensity and characteristics of influenza in Changzhou City, Jiangsu Province from 2019 to 2023, and to provide scientific evidence for the formulation of influenza prevention and control strategies. MethodsThe surveillance data of influenza surveillance sentinel hospitals in Changzhou City from April 2019 to March 2023 were collected through the China influenza surveillance information system. Influenza-like illness (ILI) cases before and after the pandemic of COVID-19 in Changzhou City were analyzed, and the differences among qualitative data were compared by using χ² test. ResultsFrom April 2019 to March 2023 the percentages of ILI cases’ medical visits in the four-influenza surveillance year were 2.57%, 1.84%, 5.38%, and 3.66%, respectively, and the positive detection rates of influenza virus were 25.71%, 0.44%, 22.78%, and 24.32%, respectively. The number of influenza outbreaks was 61, 1, 23, and 128, respectively. ILI cases were mainly among adolescent children aged 5‒14 years. The percentage of ILI cases in 2020‒2021 after the pandemic of COVID-19 was significantly lower than that in 2019‒2020 (χ2=737.342, P<0.001), and the percentage of ILI cases in 2021‒2023 was higher than that in 2019‒2020. Influenza viruses in 2019‒2021 were dominated by type B Victoria, and influenza A virus was the dominant strain in positive influenza virus detections in 2022‒2023. The number of influenza outbreaks in 2021‒2023 was significantly lower than that in 2019‒2020 (χ2=185.662, P<0.001). ConclusionThe epidemiological characteristics of influenza are different in different stages of COVID-19 prevention and control during 2019‒2023. In the dynamic clearance phase of COVID-19, ILI case’s medical visits showed low-level fluctuations without obvious seasonal fluctuations, and influenza virus was dominated by type B. In the high-intensity phase of the pandemic, the level of ILI case’s medical visits has reached the peak of the calendar year, and the positive detection of influenza virus was dominated by type A H3N2. In the "Category B B control" phase, the level of ILI case’s medical visits increased after a rapid decline, and the positive detection of influenza virus was dominated by type A H1N1. It is necessary to further strengthen the monitoring of influenza cases, pay close attention to the changes in influenza strains, actively promote influenza vaccination for key population group, and promote health behavior changes for the whole population.
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Objective To investigate the status quo of health literacy,motivation and self-management behaviours of patients with knee osteoarthritis(KOA),to explore the influence of health literacy and motivation on self-management behaviours to the patients with KOA,and to clarify the relationships among the three factors.Methods Convenience sampling method was used to select 169 KOA patients who were treated in 3 tertiary hospitals in Xianyang between September and December 2021.General status table,chronic disease health literacy scale,patient motivation scale and chronic disease self-management behaviour scale were employed in the on-the-spot survey.Pearson correlation was used to analyze the correlation of health literacy,motivation and self-management behaviour of patients with KOA.Results Total scores of health literacy,motivation and self-management behaviour of the patients with KOA were 79.66±11.91,54.97±9.95 and 23.75±8.89,respectively.It was found that health literacy and motivation of the patients were positively correlated with their self-management behaviour(r=0.872,r=0.822,both P<0.01).Health literacy of the patients was positively correlated with motivation of patients(r=0.877,P<0.01).Health literacy of the patients could be used to directly predict self-management behaviour of patients(β=0.708,95%CI:0.539-0.876),as well as to predict self-management behaviour of the patients through the mediating effect of patient motivation(β=0.228,95%CI:0.676-0.787).The mediating effect accounted for 24.36%of the total effect.Conclusions The health literacy,motivation and self-management behaviours of patients with KOA are all poor and they should be further improved.Patient motivation is the mediating variable in health literacy and self-management behaviour of the patients.It is suggested that nursing staff could encourage the motivation of patients hence to improve the self-management behaviour in the patients with KOA based on an improvement of health literacy.
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Objective:To investigate the effects of targeted regulation of SMAD9 expression by bone morphogenetic protein 4 (BMP4) on Müller cell migration, reactive oxygen species (ROS) generation and vascular endothelial growth factor (VEGF) expression.Methods:Müller cells cultured in vitro were divided into normal control group, BMP4 group, BMP4+ no-load plasmid group (BMP4+NC group) and BMP4+SMAD9 small interference plasmid group (BMP4+siSMAD9). Cells in BMP4 group, BMP4+NC group and BMP4+siSMAD9 group were induced by adding 100 ng/ml BMP4 into cell medium for 24 h. Subsequently, BMP4+NC group was transfected with empty plasmid. BMP4+siSMAD9 group was transfected with SMAD9 small interference plasmid for 48 h. The effect of BMP4 on Müller cell migration was determined by cell scratch test. The effect of BMP4 on the production of ROS in Müller cells was detected by flow cytometry. Western blots and real-time quantitative fluorescence polymerase chain reaction (qPCR) were used to detect the relative mRNA expression levels of glutamine synthetase (GS) and glial fibrinoacidic protein (GFAP) in Müller cells. VEGF expression in Müller cells was detected by immunofluorescence. One-way analysis of variance was used to compare groups.Results:The results of cell scratch test showed that the cell mobility of BMP4+siSMAD9 group was significantly lower than that of BMP4 and BMP4+NC group, and the difference was statistically significant ( F=68.319, P<0.001). Flow cytomethods showed that the level of ROS in BMP4+siSMAD9 group was significantly lower than that in BMP4 and BMP4+NC group, and the difference was statistically significant ( F=52.158, P<0.001). Western blot and qPCR results showed that the protein levels of GS and GFAP ( F=42.715, 36.618) and mRNA relative expression levels ( F=45.164, 43.165) in BMP4+siSMAD9 group were significantly lower than those in BMP4 and BMP4+NC group. The difference was statistically significant ( P<0.01). The results of immunofluorescence detection showed that the intracellular VEGF fluorescence intensity in BMP4 group and BMP4+NC group was significantly higher than that in BMP4+siSMAD9 group, and the difference was statistically significant ( F=46.384, P<0.05). Conclusion:Targeted regulation of SMAD9 expression by BMP4 can up-regulate VEGF expression and promote the migration and ROS production of Müller cells.
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Objective:To observe the effect of interleukin-8 (IL-8) on the adhesion and migration of retinal vascular endothelial cells (RCEC).Methods:A 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. Oneway analysis of variance was performed among the three groups. Results:Compared 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). Conclusion:IL-8 antagonist SB225002 may down-regulate hRCEC adhesion and migration by inhibiting ROS expression.
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Objective:To investigate the effect of Nodal protein on retinal neovascularization under hypoxia.Methods:In 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.Results:In 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). Conclusion:SB431542 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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The interventional therapy of vascular stent implantation is a popular treatment method for cardiovascular stenosis and blockage. However, traditional stent manufacturing methods such as laser cutting are complex and cannot easily manufacture complex structures such as bifurcated stents, while three-dimensional (3D) printing technology provides a new method for manufacturing stents with complex structure and personalized designs. In this paper, a cardiovascular stent was designed, and printed using selective laser melting technology and 316L stainless steel powder of 0-10 µm size. Electrolytic polishing was performed to improve the surface quality of the printed vascular stent, and the expansion behavior of the polished stent was assessed by balloon inflation. The results showed that the newly designed cardiovascular stent could be manufactured by 3D printing technology. Electrolytic polishing removed the attached powder and reduced the surface roughness Ra from 1.36 µm to 0.82 µm. The axial shortening rate of the polished bracket was 4.23% when the outside diameter was expanded from 2.42 mm to 3.63 mm under the pressure of the balloon, and the radial rebound rate was 2.48% after unloading. The radial force of polished stent was 8.32 N. The 3D printed vascular stent can remove the surface powder through electrolytic polishing to improve the surface quality, and show good dilatation performance and radial support performance, which provides a reference for the practical application of 3D printed vascular stent.
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Humanos , Aço Inoxidável , Pós , Sistema Cardiovascular , Constrição PatológicaRESUMO
Objective:To screening differentially expressed genes (DEGs) in proliferative diabetic retinopathy (DR) patients to provide new biological therapeutic targets for proliferative DR (PDR) therapy.Methods:A basic research. A total of 3 PDR patients (group PDR) and 3 non-diabetic patients (control group) were enrolled in the study in Tianjin Medical University Eye Hospital in October 2020. In addition, 40 cases of PDR and non-diabetic patients were selected and divided into PDR validation group and control validation group. Peripheral blood validation test was performed in PDR validation group and control validation group; RNA sequencing was performed in PDR group and control group. Transcriptomics (RNAseq) sequencing technology was used to screen DEG in PDR group and control group. The selected DEGs were analyzed by gene ontology (GO) function enrichment analysis, signal pathway enrichment analysis of Kyoto Encyclopedia of Genes and Genomes (KEGG) and protein-protein interaction network (PPI). The gene expression database was used to find the high-throughput data related to PDR, and multi queue comparison analysis was carried out. The target genes of differentially expressed miRNAs were predicted through targetscan platform, so as to clearly screen the correlation between DEG and PDR. Reverse transcription polymerase chain reaction and Western blot were used to verify the expression of DEG mRNA and protein related to PDR. The relative expression of PDR related DEG mRNA and protein between PDR validation group and control validation group were compared by paired t-test. Results:A total of 1 337 DEGs were screened by RNAseq sequencing in the peripheral blood of patients with PDR, of which 419 genes were up-regulated and 918 down-regulated. Among them, direct inhibitor of apoptosis protein-binding protein with low isoelectric point ( DIABLO), zinc finger and BTB domain containing 10 ( ZBTB10), polo-like kinases 3 ( PLK3), regulatory subunit 1 ( PIK3R1) and B cell translocation gene 3 (BTG3) were differentially expressed in PDR patients. The function of GO was enriched from the analysis of molecular function, biological process and cellular composition. The results showed that DIABLO, ZBTB10, PLK3, PIK3R1, BTG3 were involved in the pathological process related to PDR. KEGG enrichment analysis showed that glucose metabolic pathways such as extracellular matrix receptors, cytokine regulatory pathway, p53 signal pathway and galactose metabolism may be involved in the process of differential genes. The analysis of PPI protein interaction network showed that the larger the DEG-associated protein node, the greater the number of associated nodes. Among them, DIABLO, ZBTB10, PLK3, PIK3R1 and BTG3 played significant roles in the formation of the action network. By comparing and analyzing the existing high-throughput data related to diabetic retinopathy in Gene Expression Omnibus database and predicting by Targetscan platform, it was found that some significant differences in miRNA reported in aqueous humor, vitreous fluid and plasma of DR patients can be regulated by the differential genes found in this study. Compared with the control verification group, the relative expressions of DIABLO, ZBTB10, PLK3, PIK3R1 mRNA and protein in peripheral blood of the PDR verification group were up-regulated, and the relative expression of BTG3 mRNA and protein was down-regulated. Conclusion:DIABLO, ZBTB10, PLK3, PIK3R1 and BTG3 are DEGs in patients with PDR, and they can participate in the disease process by regulating the biological processes of cell proliferation, fibrosis and oxidative stress.
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Objective:To observe the effect of bone morphogenetic protein 4 (BMP4) on the proliferation and migration of human retinal microvascular endothelial cells (hRMEC) under oxidative stress.Methods:The hRMEC cultured in vitro were divided into control group, 4-hydroxynonenal (HNE) treatment group (4-HNE group), 4-HNE+BMP4 group (BMP4 group). Cell culture medium of 4-HNE treatment group was added with 10 μmmol/L 4-HNE; cell culture of BMP4 group was cultured with 10 μmmol/L 4-HNE, and after stimulation for 6 h, 100 ng/ml recombinant human BMP4 was added. The effects of 4-HNE and BMP4 on hRMEC viability was detected by thiazole blue colorimetric method. The effects of 4-HNE and BMP4 on cell migration was determined by cell scratch test. The relative expression of BMP4 mRNA in the cells of the control group and 4-HNE treatment group and the mRNA expression of the control group, the fibronectin (FN) of BMP4 group, laminin (Laminin), α-smooth muscle contractile protein (α-SMA), and collagen type Ⅰ (Collagen Ⅰ), vascular endothelial growth factor (VEGF), and connective tissue growth factor (CTGF) were detected by real-time quantitative polymerase chain reaction (qRT-PCR). Western blot was used to detect the relative expression of BMP4 protein in the control group and 4-HNE group. The control group and 4-HNE group were compared by t test. Results:Compared with the control group, cell viability ( t=12.73, 16.26, P=0.000 2, <0.000 1), cell migration rate ( t=28.17, 37.48, P<0.000 1, <0.000 1) in 4-HNE group and BMP4 group were significantly increased, and the difference was statistically significant; the relative expression of BMP4 mRNA and protein in the 4-HNE group was significantly increased, and the difference was statistically significant ( t=16.36, 69.35, P=0.000 1, <0.000 1). The qRT-PCR test results showed that compared with the control group, the relative expression of VEGF, FN, Laminin, α-SMA, Collagen Ⅰ, and CTGF mRNA in the cells of the BMP4 group was significantly increased, and the difference was statistically significant ( t=10.61, 17.00, 14.85, 7.78, 12.02, 10.61, P=0.0004, <0.000 1, 0.000 1, 0.001 5, 0.000 1, 0.000 4). Conclusion:BMP4 can induce the proliferation and migration of hRMEC; it can also regulate the expression of angiogenesis factors and fibrosis-related factors in hRMEC.
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Objective:To investigate the effects of interferon gene stimulating protein (STING) inhibitor (C176) on human retinal microvascular endothelial cells (hRMEC) under oxidative stress.Methods:An animal experimental study. In vivo experiment: 48 healthy male C57BL/6J mice were randomly divided into wild type mice group (WT group) and diabetes (DM) group, with 24 mice in each group. DM mice were induced by streptozotocin to establish DM model. After successful modeling, DM group was divided into DM+dimethyl sulfoxide (DMSO) group and DM+C176 group, with 12 mice in each group. The mice in the DM+DMSO group were intraperitoneally injected with DMSO at the dose of 50 mg/kg. Mice in DM+C176 group were intraperitoneally injected with STING inhibitor C176 750 nmol at the dose of 50 mg/kg. Four weeks after modeling, immunohistochemical staining, Western blot and real-time fluorescence quantitative polymerase chain reaction were used to detect the expression of STING in the retina of WT and DM mice. The leukocyte adhesion test was used to detect the number of leukocytes adhering to hRMEC in mice with WT, DM+DMSO and DM+C176 groups. In vitro experiment: hRMEC was randomly divided into conventional culture cell group (N group), dimethyl sulfoxide (DMSO) group (with DMSO intervention) and C176 group (with C176 intervention). The cells were induced by 150 μg/ml glycation end products for each group. In vitro leukocyte adhesion test combined with 4', 6-diamino-2-phenylindole staining was used to detect the number of leukocytes adhering to hRMEC. The adherent leukocytes were quantitatively analyzed by flow cytometry; H 2DCFDA/reactive oxygen species (ROS) fluorescence probe was used to detect ROS expression in cells; Seahorse XFe96 cell energy metabolism analyzer was used to measure the level of intracellular glycolysis. t-test was used to compare the two groups; single factor analysis of variance was used to compare the three groups. Results:In vivo experiment: compared with WT group, the expression level of STING ( t=73.248) and the relative expression amount of mRNA ( t=67.385) in the retina of DM group mice increased significantly ( P<0.05). Compared with WT group, the number of leukocytes adhering to the retinal vessels of mice in DM+DMSO group was significantly increased, while that in DM+C176 group was significantly decreased ( F=84.352, P<0.01). In vitro: compared with N group and DMSO group, the number of leukocyte adhesion on hRMEC in C176 group decreased significantly ( F=35.251, P<0.01). Compared with N group, the number of leukocytes adhering to hRMEC in DMSO group and C176 group decreased significantly ( F=26.374, P<0.01). The ROS level in hRMEC in C176 group was significantly lower than that in N group and C176 group ( F=41.362, P<0.01). Compared with N group and DMSO group, the glycolysis level of hRMEC in C176 group was significantly reduced, with a statistically significant difference ( F=68.741, P<0.01). Conclusion:Inhibiting the expression of STING in retinal vascular endothelial cells can improve the progress of DM by inhibiting leukocyte adhesion, ROS production and glycolysis level.
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Objective:To observe the expression of miRNA in retinal tissue of mice with oxygen-induced retinopathy (OIR), and screen miRNAs related to p21 and retinal neovascularization (RNV) formation.Methods:A experimental study. Forty healthy 7-day-old C57BL/6J mice were randomly divided into normal group and OIR group, with 20 mice in each group. The oxygen induced RNV model was constructed in the OIR group, and no treatment was performed in the normal group. At the age of 17 days, the mice were killed and the RNV of mice was observed by retinal fluorescence; the nuclei of vascular endothelium that broke through the inner limiting membrane of retina were counted under light microscope. The retinal tissues were taken for miRNA chip analysis to detect the differentially expressed miRNAs between the normal group and the OIR group. The resulting differential miRNA target genes were subjected to enrichment analysis based on gene annotation (GO) and Kyoto Encyclopedia of genes and genomes (KEGG); miRNAs and pathways that may be related to p21 were screened through Targetscan, MiRanda and MicroT-CDs database alignment. Independent sample t-test was used for pairwise comparison between groups. Results:Compared with the normal group, the area of nonperfusion area, RNV and the number of vascular endothelial nuclei that broke through the inner limiting membrane of the retina in the OIR group increased significantly, differences were statistically significant ( t=18.800, 9.025; P<0.05). Compared with the normal group, there were 54 miRNAs that were statistically differentially expressed in the OIR group, of which 47 were up-regulated and 7 were down-regulated. A total of 13 miRNAs related to p21 were screened from the alignment results of the three databases with the obtained differential miRNAs. According to the difference multiples, they were miR-7218-5p, miR-322-5p, miR-224-5p, miR-335-5p, miR-329-3p, miR-362-3p, miR-532-5p, miR-20b-5p, miR-20a-5p, miR-195a-5p, miR-423-5p, miR-497a-5p, and miR-129-5p. Differential miRNA target gene enrichment analysis yielded 1 112 go entries and 50 KEGG pathways, of which 50 go entries and 13 KEGG pathways were related to p21. Conclusion:13 miRNAs related to p21 were screened out in the OIR model.
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Objective:To observe the expression of miRNA in retinal tissue of mice with oxygen-induced retinopathy (OIR), and screen miRNAs related to p21 and retinal neovascularization (RNV) formation.Methods:A experimental study. Forty healthy 7-day-old C57BL/6J mice were randomly divided into normal group and OIR group, with 20 mice in each group. The oxygen induced RNV model was constructed in the OIR group, and no treatment was performed in the normal group. At the age of 17 days, the mice were killed and the RNV of mice was observed by retinal fluorescence; the nuclei of vascular endothelium that broke through the inner limiting membrane of retina were counted under light microscope. The retinal tissues were taken for miRNA chip analysis to detect the differentially expressed miRNAs between the normal group and the OIR group. The resulting differential miRNA target genes were subjected to enrichment analysis based on gene annotation (GO) and Kyoto Encyclopedia of genes and genomes (KEGG); miRNAs and pathways that may be related to p21 were screened through Targetscan, MiRanda and MicroT-CDs database alignment. Independent sample t-test was used for pairwise comparison between groups. Results:Compared with the normal group, the area of nonperfusion area, RNV and the number of vascular endothelial nuclei that broke through the inner limiting membrane of the retina in the OIR group increased significantly, differences were statistically significant ( t=18.800, 9.025; P<0.05). Compared with the normal group, there were 54 miRNAs that were statistically differentially expressed in the OIR group, of which 47 were up-regulated and 7 were down-regulated. A total of 13 miRNAs related to p21 were screened from the alignment results of the three databases with the obtained differential miRNAs. According to the difference multiples, they were miR-7218-5p, miR-322-5p, miR-224-5p, miR-335-5p, miR-329-3p, miR-362-3p, miR-532-5p, miR-20b-5p, miR-20a-5p, miR-195a-5p, miR-423-5p, miR-497a-5p, and miR-129-5p. Differential miRNA target gene enrichment analysis yielded 1 112 go entries and 50 KEGG pathways, of which 50 go entries and 13 KEGG pathways were related to p21. Conclusion:13 miRNAs related to p21 were screened out in the OIR model.
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Objective To evaluate the effect of "health education mobile classroom " in the outpatient department of children's hospital, and to analyze the needs of the outpatient and family members on health education. Methods Through the retrospective analysis of the information of the outpatient and emergency patients in the children's specialist hospital to determine the content, the venue and the time period of the "health education mobile classroom". Selection and training the health educator to implement the health education. At the same time, push the training content through the mobile APP to the patient's family, to expand the education audience. To compare and analyze the patient satisfaction of the hospital and the satisfaction with the dimensions of the project. In the evaluation of the effect of health education and the influencing factors, the relationship between income, occupation and children is positively related, and age is negatively related to it. Results After the implement of this project, the satisfaction of the patient had increased for 3.65%(P=0.001). Overall assessment of the audience was very satisfied with (3.94 ± 0.25) points. In each dimension analysis, the satisfaction of the "training method"was the highest, at (3.94 ± 0.26) points. Satisfied with the attitude of the trainers and comprehensive ability were more than 3.80 points. Conclusions The "health education mobile classroom" can improve patient satisfaction in the outpatient department and emergency of children's specialist hospital. Audience has a certain degree of acceptance and satisfaction with this health education mode.
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Objective To evaluate the effect of dexmedetomidine on cell apoptosis during spinal cord ischemia-reperfusion(I∕R)in rats. Methods Forty-eight adult male Wister rats, weighing 200-260 g, were divided into 4 groups(n=12 each)using a random number table: sham operation group (Sham group), I∕R group, prophylactic dexmedetomidine use group(DPro group)and dexmedetomidine postconditioning group(DPost group). The model of spinal cord I∕R was established by temporary occlu-sion of the abdominal aorta using the modified Zivin′s method. Dexmedetomidine 5 μg·kg-1·h-1was in-travenously infused at 1 h before occlusion of the abdominal aorta in group DPro. Dexmedetomidine 5 μg·kg-1·h-1was intravenously infused for 1 h starting from the time point immediately after beginning of reperfusion in group DPost. The equal volume of normal saline was given instead in Sham and I∕R groups. The motor nerve function of the hindlimb was assessed and scored at 4, 12 and 24 h of reperfusion. The rats were sacrificed at 24 h of reperfusion, and L2-5segments of the spinal cords were removed for microscopic examination and for determination of Bcl-2 and Bax positive cells(by immuno-histochemistry)and cell ap-optosis(by flow cytometry). The apoptosis rate was calculated. Results Compared with group Sham, motor nerve function scores were significantly decreased at 4-12 h of reperfusion, and the apoptosis rate of nerve cells and Bcl-2 and Bax positive cells were increased in group I∕R, and motor nerve function scores were significantly decreased at 4 h of reperfusion, and the apoptosis rate of nerve cells and Bcl-2 and Bax positive cells were increased in DPro and DPost groups(P<005 or 001). Motor nerve function scores were significantly higher, and the apoptosis rate of nerve cells was lower, Bcl-2 positive cells were higher, and Bcl-2 and Bax positive cells were lower in DPro and DPost groups than in group I∕R(P<005 or 001). Conclusion The mechanism by which dexmedetomidine reduces spinal cord I∕R injury is related to inhibiting cell apoptosis in rats.
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Objective To investigate the expression of CXCR4 and CXCL12 in the labial gland of patients with primary Sj?gren's syndrome (pSS), and to explore their role in the pathogenesis of pSS. Methods The expression of CXCR4 and CXCL12 in labial gland tissues was detected by immunohistochemistry in 32 cases of newly diagnosed pSS and 30 cases of oral mucosa cysts or trauma patients. The expression level, intensity and location were analyzed and compared statistically. χ2 test and Spearman correlation analysis were used for statistical analysis. Results The positive rate of CXCR4 in the test group was 91%(n=29), which was significantly higher than that in the control group (33%, n=10, χ2=21.77, P=0.001). The positive rate of CXCL12 in the test group was 97%(n=31), which was significantly higher than that in the control group 40%(n=12), and the difference was statistically significant ( χ2=23.57, P=0.001). Conclusion CXCR4 and CXCL12 are highly expressed in labial gland of pSS patients, this suggests that they participate in the pathological process of pSS local inflammatory response and play an important role in pSS pathogenesis.
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There are several main topics in acute myelogenous leukemia at the 57th American Society of Hematology annual meeting, including the optimization about induction and consolidation chemotherapy for AML, the investigation of targeted drugs in AML first line therapy, the marker for AML MRD monitoring, the differentiation drugs, such as tamibarotene in APL, the definition about refractory AML, the induction therapy for blastic plasmacytoid dendritic cell neoplasm (BPDCN). This article reviewed the research progress of AML in the 57th ASH annual meeting.