ObjectiveTo construct a stable monoclonal human embryonic kidney 293 （HEK293） cell line expressing recombinant human coagulation factor Ⅶ （rhFⅦ） and evaluate the expression level and procoagulant bioactivity of rhFⅦ. MethodsThe plasmid pCDNA3.1-EGFP-FⅦ was transfected into HEK293 cells to verify the effectiveness of the transfection system. The plasmid pCDNA3.1-FⅦ was transfected into HEK293 cells， and monoclonal stable transfected cell lines were selected using geneticin （G418）. The transcription of the FⅦ gene was identified by reverse transcription polymerase chain reaction （RT-PCR）. The expression level of rhFⅦ in the supernatant of the monoclonal stable transfected cell line was detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blot. The concentration of rhFⅦ was determined by enzyme-linked immunosorbent assay （ELISA）， and the procoagulant activity of rhFⅦ was measured by human coagulation factor Ⅶ potency assay. ResultsHEK293 cells transfected with pcDNA3.1-EGFP-FⅦ showed green fluorescence， indicating that rhFⅦ was successfully expressed in the supernatant of HEK293 cells after transient transfection with pcDNA3.1-FⅦ. The monoclonal stable transfected cell line was obtained by G418 screening. RT-PCR identified that the FⅦ gene was integrated into the genome of the monoclonal stable transfected cell line. The cell viability was good as detected by Cell Counting Kit-8， and a single band of rhFⅦ was obtained by purification of the cell supernatant. The highest rhFⅦ expression was （1.27±0.09） mg/L， and the highest procoagulant activity was （380.29±13.80）%. ConclusionThe monoclonal HEK293 cell lines which can express rhFⅦ protein efficiently and stably with excellent procoagulant bioactivity is successfully screened.

Objective To compare the periodontally accelerated osteogenic orthodontics(PAOO)effects of corticotomy with full mu-coperiosteal flap(flapped corticotomy)and corticotomy-only on accelerating orthodontic tooth movement.Methods A total of 60 healthy male SD rats(weighing 180-200 g)were selected and randomly divided into three groups.There were 20 rats each in the flapped corticotomy group,the corticotomy-only group,and the control group.After applying orthodontic instruments,5 rats each in the surgical group and the control group were killed by excessive anesthesia on 0,1,3,and 7 days after tooth movement.The tooth move-ment distances of the rats in the control group and the experimental group were counted,and immunohistochemical staining was per-formed to observe the corresponding molecular biological changes.Results There was no significant difference in accelerating ortho-dontic tooth movement between the flapped corticotomy group and the corticotomy-only group.Compared with traditional orthodontic tooth movement,both the flapped corticotomygroup and the corticotomy-only group could bring an increase in the expression of RANKL on the pressed periodontal side while there was no significant difference between the two experimental groups.Both the flapped corticot-omy and non-flapped corticotomy could enlarge the area of tissue formation in the periodontal tension zone,and still there was no signif-icant difference between the two surgical methods.Compared with traditional orthodontic tooth movement,both the flapped corticotomy group and the corticotomy-only group could lead to an increase in ALP,OCN and OPN expression on the periodontal tension zone.Conclusion Both flapped corticotomy and corticotomy play a significant role in accelerating orthodontic tooth movement and promoting alveolar bone formation in the early stage.Both surgical methods of PAOO can provide more efficient and stable biological support for orthodontic treatment.

By integrating existing research,this paper systematically analyzes the impact of exercise training in low-temperature environments on immune regulation and infection defense,in order to explore its potential benefits and risks.Strictly following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses:2020(PRISMA 2020)guidelines,multiple databases were systematically reviewed,to include original studies on the impact of exercise training in low-temperature environments on immune regulation and infection defense,and to evaluate the quality of the studies.The 25 included literature indicated that moderate-intensity exercise training in low-temperature environments could cause an increase in white blood cell count,neutrophils and natural killer cells,changes in both pro-inflammatory and anti-inflammatory factors,and predominant upregulation of most mucosal immunity level,as well as accelerated infection recovery in several studies.High-intensity exercise training in low-temperature environments has shown an immunosuppressive trend in individual studies,and physiological indicators such as body temperature,heart rate and metabolism have also been affected to varying degrees.This suggests that moderate-intensity exercise training in a low-temperature environment is conducive to enhancing immunity and preventing infection,which is of great significance for health management and occupational protection in cold climates.Reasonable control of exercise intensity and duration in a low-temperature environment is crucial for preventing immunosuppression.

By integrating existing research,this paper systematically analyzes the impact of exercise training in low-temperature environments on immune regulation and infection defense,in order to explore its potential benefits and risks.Strictly following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses:2020(PRISMA 2020)guidelines,multiple databases were systematically reviewed,to include original studies on the impact of exercise training in low-temperature environments on immune regulation and infection defense,and to evaluate the quality of the studies.The 25 included literature indicated that moderate-intensity exercise training in low-temperature environments could cause an increase in white blood cell count,neutrophils and natural killer cells,changes in both pro-inflammatory and anti-inflammatory factors,and predominant upregulation of most mucosal immunity level,as well as accelerated infection recovery in several studies.High-intensity exercise training in low-temperature environments has shown an immunosuppressive trend in individual studies,and physiological indicators such as body temperature,heart rate and metabolism have also been affected to varying degrees.This suggests that moderate-intensity exercise training in a low-temperature environment is conducive to enhancing immunity and preventing infection,which is of great significance for health management and occupational protection in cold climates.Reasonable control of exercise intensity and duration in a low-temperature environment is crucial for preventing immunosuppression.

Objective:To analyze by bioinformatics the association between the expression of membrane-associated tyrosine/threonine protein kinase 1(PKMYT1)in glioma with its prognostic value,biological function,drug sensitivity,gene mutation,and immune infiltration.Methods:The differential expression of PKMYT1 was analyzed based on the Chinese Glioma Genome Atlas database(CGGA)and the Cancer Genome Atlas database(TCGA).Pathways likely to be enriched for PKMYT1 were predicted by gene ontology analysis(GO)and gene set enrichment analysis(GSEA).PKMYT1 was subjected to Pearson correlation and gene set variation analysis(GSVA)with cell cycle-related genes and gene sets.The survival prognosis,gene mutation,drug sensitivity and immune infiltration were further analyzed for PKMYT1 high and low expression groups of glioma patients.Results:PKMYT1 was significantly highly expressed in WHO high-grade glioma(P<0.000 1),IDH wild-type glioma(P<0.05),and glioblastoma(P<0.000 1).Overall survival(OS)of patients in the PKMYT1 low expression group was significantly higher than that of the high expression group(P<0.05).Cox regression analysis showed that PKMYT1 expression level was an independent prognostic factor for OS(P<0.05).GO and GSEA analyses showed that the gene sets co-expressed with PKMYT1 were mainly enriched in signaling pathways such as cell cycle,DNA replication and DNA damage repair.Pearson correlation and GSVA analyses showed that the expression of PKMYT1 was significantly and positively correlated with the cell cycle-related genes,gene sets and cell cycle checkpoint genes(P<0.01).Drug sensitivity analysis revealed that patients in the PKMYT1 high expression group had high sensitivity osimertinib,dabrafenib,carmustine and cediranib(P<0.05).Mutation analysis revealed that the IDH1 gene had a higher mutation frequency in the PKMYT1 low expression group.The results of immune infiltration analysis showed that PKMYT1 expression was significantly positively correlated with glioma stroma score(r=0.13,P<0.001),immune score(r=0.11,P<0.01)and ESTIMATE score(r=0.13,P<0.001);and was significantly positively correlated with immune cell infiltration level of regulatory T(Treg)cells and M2-type macrophages(P<0.05).Conclusion:Patients with high PKMYT1 expression have a poorer prognosis,and the mechanism may be related to tumor immune infiltration and cell cycle regulation.PKMYT1 is expected to be a potential target for the diagnosis and treatment of glioma.

Objective To compare the periodontally accelerated osteogenic orthodontics(PAOO)effects of corticotomy with full mu-coperiosteal flap(flapped corticotomy)and corticotomy-only on accelerating orthodontic tooth movement.Methods A total of 60 healthy male SD rats(weighing 180-200 g)were selected and randomly divided into three groups.There were 20 rats each in the flapped corticotomy group,the corticotomy-only group,and the control group.After applying orthodontic instruments,5 rats each in the surgical group and the control group were killed by excessive anesthesia on 0,1,3,and 7 days after tooth movement.The tooth move-ment distances of the rats in the control group and the experimental group were counted,and immunohistochemical staining was per-formed to observe the corresponding molecular biological changes.Results There was no significant difference in accelerating ortho-dontic tooth movement between the flapped corticotomy group and the corticotomy-only group.Compared with traditional orthodontic tooth movement,both the flapped corticotomygroup and the corticotomy-only group could bring an increase in the expression of RANKL on the pressed periodontal side while there was no significant difference between the two experimental groups.Both the flapped corticot-omy and non-flapped corticotomy could enlarge the area of tissue formation in the periodontal tension zone,and still there was no signif-icant difference between the two surgical methods.Compared with traditional orthodontic tooth movement,both the flapped corticotomy group and the corticotomy-only group could lead to an increase in ALP,OCN and OPN expression on the periodontal tension zone.Conclusion Both flapped corticotomy and corticotomy play a significant role in accelerating orthodontic tooth movement and promoting alveolar bone formation in the early stage.Both surgical methods of PAOO can provide more efficient and stable biological support for orthodontic treatment.

Objective: To explore the impact of five-flavor Sophora flavescens enteric-coated capsules (FSEC) on the intestinal flora of rats with ulcerative colitis (UC), so as to provide the reference for the mechanism of FSEC in treating UC. Methods: Forty SPF-grade Wistar rats were randomly divided into the control group, the model group, the mesalazine group and the FSEC group. Except the control group (0.9% sodium chloride solution), the other 3 groups used 3% dextran sulfate sodium (DSS) for 7 days to establish UC model. After successful modeling, the control group and the model group were given 2 mL/kgbw of 0.9% sodium chloride solution by gavage for 2 weeks, while the mesalazine group and the FSEC group were given 2 mL/kgbw of mesalazine suspension (0.2 g/kg) and FSEC granule suspension (2.16 g/kg), respectively. Pathological changes of colon tissue were observed after hematoxylin-eosin (HE) staining. Rat fecal samples were collected, and 16S rDNA high-throughput sequencing and bioinformatics analysis were performed on intestinal flora. The α and β diversity of intestinal flora among the four groups were compared, and the dominant flora was screened using LEfSe analysis. Results: Compared with the control group, the model group showed a significant loss of colonic crypts and a large infiltration of inflammatory cells. Compared with the model group, the mesalazine group and the FSEC group exhibited a slight loss of colonic crypts, a small amount or an absence inflammatory cell infiltration, and improved tissue damage. The α-diversity analysis showed that compared with the control group, the Chao1 and Shannon indices in the model group increased, while the Simpson index decreased; compared with the model group, the Chao1 and Shannon indices in the mesalazine group and the FSEC group decreased, and the Simpson index increased（all P<0.05）. The β-diversity analysis showed that the sample distance between the FSEC group and the control group were more closer than that between the model group and the control group. LEfSe analysis results showed that the dominant bacteria in the model group were mainly from the Alistipes and Oscillospira. In the FSEC group, the dominant bacteria were from the Ruminococcus and Prevotella. Conclusion FSEC can improve the structures of intestinal flora, increase the abundance of beneficial bacteria such as Ruminococcus and Prevotella, reduce the abundance of pathogenic bacteria such as Alistipes, and alleviate the inflammatory response in UC rats.

OBJECTIVE: To study the development of surgical robots at home and abroad in recent years. METHODS: Through a large number of literature review and analysis, the qualification approval and technical function characteristics of domestic and foreign surgical robots from January 2019 to July 2022 were analyzed. RESULTS: The related situations of 39 surgical robots were analyzed and reported, and the shortcomings and future development direction of the current surgical robots were summarized. CONCLUSIONS The development of surgical robots in China is now in a rapid development stage. At present, surgical robots generally have the disadvantages of high cost, lack of tactile feedback (force feedback), large size, large space occupation and difficult to move. In the future, it will develop towards intelligent, miniaturized, remote, open and low-cost.
China ; Robotics ; Robotic Surgical Procedures

Objective:To investigate the application of multiscale low-rank plus sparsity (MLRS) modeling in fast ultra-high-field intracranial 4D Flow imaging.Methods:Ten healthy volunteers, 5 males and 5 females, aged 23-35 (29±4) years old, recruited from October 2022 to January 2023 at Huashan Hospital of Fudan University, were prospectively collected. A MLRS model acceleration algorithm was proposed according to the characteristics of 4D Flow data based on the multiscale low-rank (MLR) model. Firstly, full sampling brain 4D Flow scans were performed on healthy volunteers using 7.0 T MR, and the acquired data were under-sampled with Gaussian distributions at different acceleration rates (R of 4, 8, 12, and 16, respectively). The root mean square error (RMSE) and peak signal-to-noise ratio (PSNR) of the compressed sensing algorithm (CS), low-rank plus sparse algorithm (L+S), MLR, and MLRS model were calculated at different acceleration rates, with fully sampled data as reference. And the comparison of models was performed using the paired-samples t-test or Wilcoxon signed rank test. Pearson′s test was used to assess the correlation between hemodynamic parameters of the 4 algorithms and the fully sampled reference values at different acceleration rates, and the correlation coefficients were compared using Wilcoxon signed rank test. Results:The RMSE under the same acceleration rates was MLRS, MLR, L+S, and CS models in ascending order, and the RMSE of the MLRS model was significantly lower than that of the MLR, L+S, and CS models ( P<0.05); the PSNR was MLRS, MLR, L+S, and CS models in descending order, and the PSNR of the MLRS model was significantly higher than that of the MLR, L+S, and CS model ( P<0.05). The correlation coefficients between the blood flow velocity measured by the MLRS model and the reference value were significantly higher than those of the MLR, L+S, and CS models for different acceleration rates ( P<0.05). Conclusion:The proposed MLRS algorithm is capable of accelerating ultra-high-field 4D Flow MR imaging of the brain while guaranteeing the image quality, and the MLRS model has higher reconstruction accuracy compared with conventional acceleration models at the same acceleration rate.

Objective:To investigate the effect of homocysteine (Hcy) on cerebral perfusion and cognitive function in patients with arteriosclerotic cerebral small vessel disease (aCSVD).Methods:A total of 117 patients with aCSVD who visited the First Affiliated Hospital of Anhui Medical University from June 2020 to September 2022 were enrolled and divided into the aCSVD cognitive impairment group (aCSVD-CI, n=57) and aCSVD non-cognitive impairment group (aCSVD-NCI, n=60) according to the Montreal Cognitive Assessment score. Serum Hcy measurement, cognitive function assessment, and three-dimensional pseudo-continuous arterial spin labeling perfusion imaging scan were performed in all patients, and multivariate Logistic regression analysis was used to explore risk factors for cognitive impairment in patients with aCSVD. The cerebral blood flow and perfusion differential brain regions of the whole brain, grey matter, and white matter were compared between the two groups. Partial correlation analyses were performed between the serum Hcy, overall cognitive function scores and cerebral blood flow in grey matter, as well as between the cerebral blood flow in the perfusion differential brain area and cognitive function scores. The mediating effect model was used to analyze the role of grey matter blood flow in the relationship between serum Hcy and overall cognition. Results:The serum Hcy level in the CSVD-CI group was higher than that in the CSVD-NCI group [16.38(14.02, 18.58) μmol/L vs 14.40 (11.93, 15.73) μmol/L, Z=-3.81, P<0.001]. In terms of cerebral perfusion, compared with the aCSVD-NCI group, the aCSVD-CI group had significantly lower cerebral blood flow in grey matter ( Z=-3.22, P=0.001), left middle frontal gyrus ( t=-4.91, P<0.05), right middle frontal gyrus ( t=-5.14, P<0.05), and right orbital medial frontal lobe ( t=-4.38, P<0.05). In contrast, the left hippocampus ( t=4.58, P<0.05) had increased cerebral blood flow. Multivariate Logistic regression analysis showed that serum Hcy level was independent risk factor for cognitive impairment in aCSVD after controlling for multiple risk factors. Partial correlation analysis showed that left middle frontal gyrus blood flow ( r=-0.39, P=0.006), right middle frontal gyrus blood flow ( r=-0.44, P=0.002), and right orbital medial frontal lobe cerebral blood flow ( r=-0.43, P=0.002) were negatively correlated with the Stroop Color Word Test-C results. Left hippocampal cerebral blood flow was negatively correlated with Auditory Word Learning Test-long-delayed recall ( r=-0.43, P=0.002). Further mediation analysis showed that the effect of Hcy on cognitive function was partly mediated by grey matter cerebral blood flow (indirect effect=-0.11, P<0.001). Conclusion:Hcy is an independent risk factor for cognitive impairment in aCSVD, and part of the effect of elevated Hcy on cognitive impairment in aCSVD may be mediated by decreased gray matter cerebral perfusion.