Objective:To understand the spatiotemporal distribution of pulmonary tuberculosis (TB) in Shaanxi Province from 2015 to 2023, and provide reference for the prevention and control of pulmonary TB in Shaanxi.Methods:The registration data of etiologically positive pulmonary TB cases in Shaanxi from 2015 to 2023 were collected from the tuberculosis subsystem of Chinese Disease Control and Prevention Information System. Descriptive method was used to analyze the basic characteristics of the etiologically positive pulmonary TB cases. Linear trend χ2 test was used to analyze trends in registration rate and pathogen positive rate. Software SPSS 25.0 was used for statistical analysis. Software ArcGIS 10.8 was used for global spatial autocorrelation and hotspot analysis to explore spatial clustering of the etiologically positive pulmonary TB cases. Software SaTScan 10.0 was used for spatiotemporal scan statistics, and software ArcGIS 10.8 was used to visualize the spatiotemporal clustering. Results:A total of 64 148 cases of etiologically positive pulmonary TB were registered in Shaanxi from 2015 to 2023, with an average annual registration rate of 18.33/100 000. The registration rate and pathgen positive rate all showed upward trends from 2015 to 2023, and the differences were significant (the trend χ2=4 555.18 and 19 330.43, both P<0.001). Global spatial autocorrelation and hotspot analysis showed that the registration rate of etiologically positive pulmonary TB in Shaanxi from 2017 to 2023 showed a spatial clustering. The hotspots were mainly in Zhenba and Xixiang counties of Hanzhong, six counties (districts) of Ankang, and Yanchuan and Yanchang counties of Yan'an. The coldspots were mainly in parts of the Guanzhong area, including Baoji, Xi'an, and Xianyang. A total of 4 spatiotemporal clustering areas were explored by spatiotemporal scanning analysis (all P<0.001), in which the first-level clustering areas covered 17 counties (districts), mainly Zhenping, Ziyang, Zhenba, in southern Shaanxi from 2019 to 2022, the second-level clustering areas covered 6 counties (districts), mainly Yanchuan, Yanchang, Qingjian, in northern Shaanxi from 2018 to 2021, the third-level clustering areas covered 14 counties (districts), mainly Yanta, Chang'an, Jingyang, in Guanzhong area from 2018 to 2019, and the fourth-level clustering areas covered 10 counties (districts) from 2019 to 2021. Conclusions:The registration rate of labortory confirmed pulmonary TB cases in Shaanxi showed an upward trend, with obvious differences in spatiotemporal clustering distribution. The clustering areas were mainly in southern Shaanxi, such as Zhenba, Zhenping, Hanbin, Langao, Pingli, Xunyang, Ziyang counties, and northern Shaanxi, such as Yanchuan and Yanchang counties, as well as in capital city, Xi'an and the adjacent Guanzhong area. It is necessary to develope targeted measures according to local conditions for the improvement of pulmonary TB prevention and control strategies in Shaanxi.

Objective:To understand the spatiotemporal distribution of pulmonary tuberculosis (TB) in Shaanxi Province from 2015 to 2023, and provide reference for the prevention and control of pulmonary TB in Shaanxi.Methods:The registration data of etiologically positive pulmonary TB cases in Shaanxi from 2015 to 2023 were collected from the tuberculosis subsystem of Chinese Disease Control and Prevention Information System. Descriptive method was used to analyze the basic characteristics of the etiologically positive pulmonary TB cases. Linear trend χ2 test was used to analyze trends in registration rate and pathogen positive rate. Software SPSS 25.0 was used for statistical analysis. Software ArcGIS 10.8 was used for global spatial autocorrelation and hotspot analysis to explore spatial clustering of the etiologically positive pulmonary TB cases. Software SaTScan 10.0 was used for spatiotemporal scan statistics, and software ArcGIS 10.8 was used to visualize the spatiotemporal clustering. Results:A total of 64 148 cases of etiologically positive pulmonary TB were registered in Shaanxi from 2015 to 2023, with an average annual registration rate of 18.33/100 000. The registration rate and pathgen positive rate all showed upward trends from 2015 to 2023, and the differences were significant (the trend χ2=4 555.18 and 19 330.43, both P<0.001). Global spatial autocorrelation and hotspot analysis showed that the registration rate of etiologically positive pulmonary TB in Shaanxi from 2017 to 2023 showed a spatial clustering. The hotspots were mainly in Zhenba and Xixiang counties of Hanzhong, six counties (districts) of Ankang, and Yanchuan and Yanchang counties of Yan'an. The coldspots were mainly in parts of the Guanzhong area, including Baoji, Xi'an, and Xianyang. A total of 4 spatiotemporal clustering areas were explored by spatiotemporal scanning analysis (all P<0.001), in which the first-level clustering areas covered 17 counties (districts), mainly Zhenping, Ziyang, Zhenba, in southern Shaanxi from 2019 to 2022, the second-level clustering areas covered 6 counties (districts), mainly Yanchuan, Yanchang, Qingjian, in northern Shaanxi from 2018 to 2021, the third-level clustering areas covered 14 counties (districts), mainly Yanta, Chang'an, Jingyang, in Guanzhong area from 2018 to 2019, and the fourth-level clustering areas covered 10 counties (districts) from 2019 to 2021. Conclusions:The registration rate of labortory confirmed pulmonary TB cases in Shaanxi showed an upward trend, with obvious differences in spatiotemporal clustering distribution. The clustering areas were mainly in southern Shaanxi, such as Zhenba, Zhenping, Hanbin, Langao, Pingli, Xunyang, Ziyang counties, and northern Shaanxi, such as Yanchuan and Yanchang counties, as well as in capital city, Xi'an and the adjacent Guanzhong area. It is necessary to develope targeted measures according to local conditions for the improvement of pulmonary TB prevention and control strategies in Shaanxi.

Objective To investigate the expression pattern of GFAP and VEGF after closed brain injury in rats,and to infer the time elapsed after brain injury,and then to provide reference for the inference of injury time.Methods Male rats were randomly divided into control group and experimental group,in which the experimental group was divided into 1 h,6 h,12 h,1 d,3 d,7 d and 14 d groups according to the different elapsed time after injury.Immunohistochemistry and ELISA were used to detect the expression of GFAP and VEGF in brain tissue and serum of rats after closed brain injury.Results(1)In each immunohistochemistry experimental group,GFAP was mainly expressed in the cytoplasm of astrocytes,with an obvious increase at 1 h after injury,a progressive increase of expression in 7 d,and a decrease of expression close to the level of the control group at 14 d after injury.While VEGF was mainly expressed in the cytoplasm of neurons,with an obvious increase at 1 d after injury,a peak at 3 d post-injury,and a decrease in expression at 14 d.(2)In each ELISA experimental group,the VEGF content in serum of each experimental group increased earlier than the VEGF expression in brain tissue,which began to increase significantly at 6 h after injury,and the content was the most at 3 d after injury,and was close to that of the control group at 14 d after injury.Conclusion(1)It has showed temporal changes in the expression of GFAP and VEGF,and both are expected to be biological markers for inferring the time of injury in forensic work.(2)GFAP and VEGF have high sensitivity and specificity and are important for the extrapolation of early craniocerebral injury time.

Objective To investigate the expression pattern of GFAP and VEGF after closed brain injury in rats,and to infer the time elapsed after brain injury,and then to provide reference for the inference of injury time.Methods Male rats were randomly divided into control group and experimental group,in which the experimental group was divided into 1 h,6 h,12 h,1 d,3 d,7 d and 14 d groups according to the different elapsed time after injury.Immunohistochemistry and ELISA were used to detect the expression of GFAP and VEGF in brain tissue and serum of rats after closed brain injury.Results(1)In each immunohistochemistry experimental group,GFAP was mainly expressed in the cytoplasm of astrocytes,with an obvious increase at 1 h after injury,a progressive increase of expression in 7 d,and a decrease of expression close to the level of the control group at 14 d after injury.While VEGF was mainly expressed in the cytoplasm of neurons,with an obvious increase at 1 d after injury,a peak at 3 d post-injury,and a decrease in expression at 14 d.(2)In each ELISA experimental group,the VEGF content in serum of each experimental group increased earlier than the VEGF expression in brain tissue,which began to increase significantly at 6 h after injury,and the content was the most at 3 d after injury,and was close to that of the control group at 14 d after injury.Conclusion(1)It has showed temporal changes in the expression of GFAP and VEGF,and both are expected to be biological markers for inferring the time of injury in forensic work.(2)GFAP and VEGF have high sensitivity and specificity and are important for the extrapolation of early craniocerebral injury time.

Lung diseases such as lung cancer and COVID-19 seriously endanger human health and life safety, so early screening and diagnosis are particularly important. computed tomography (CT) technology is one of the important ways to screen lung diseases, among which lung parenchyma segmentation based on CT images is the key step in screening lung diseases, and high-quality lung parenchyma segmentation can effectively improve the level of early diagnosis and treatment of lung diseases. Automatic, fast and accurate segmentation of lung parenchyma based on CT images can effectively compensate for the shortcomings of low efficiency and strong subjectivity of manual segmentation, and has become one of the research hotspots in this field. In this paper, the research progress in lung parenchyma segmentation is reviewed based on the related literatures published at domestic and abroad in recent years. The traditional machine learning methods and deep learning methods are compared and analyzed, and the research progress of improving the network structure of deep learning model is emphatically introduced. Some unsolved problems in lung parenchyma segmentation were discussed, and the development prospect was prospected, providing reference for researchers in related fields.
COVID-19 ; Humans ; Lung/diagnostic imaging* ; Machine Learning ; SARS-CoV-2 ; Tomography, X-Ray Computed

Objective To evaluate the efficacy and safety of combined use of ticagrelor and cilostazol for patients with acute coronary syndrome (ACS) complicated with upper digestive tract diseases following percutaneous coronary intervention ( PCI).Methods A total of 262 consecutive ACS patients complicated with upper digestive tract diseases followed-up for one-year after PCI were included in this study.The patients were allocated into control group (combined use of ticagrelor and aspirin , n＝184) and cilostazol group ( combined use of ticagrelor and cilostazol , n ＝78) for antiplatelet treatment.The basic characteristics of the patients , change of the treatment regimens , cardiovascular events and hemorrhagic events were compared between two groups .Results After one year of follow-up, 16.8%(31/184)patients in control group and 3.8%(3/78)in cilostazol group changed antiplatelet regimens (χ2＝8.200,P＝0.004).There was no statistical difference in use of statins and ACEI/ARB between two groups(P＞0.05).The rate of proton pump inhibitor use in control group was significantly higher than that in cilostazol group [82.1%(151/184) vs.52.6%(41/78), χ2＝24.35, P＝0.000].However, the dosage of β-blockers in cilostazol group was significantly higher than that in control group [(39.1 ±12.4) mg vs.(28.6 ±10.1) mg, t ＝7.174,P＝0.000].No statistical difference was found in total cardiovascular events between two groups [21.7%(40/184) vs.12.8%(10/78),χ2＝2.822,P＝0.121].The incidence of gastrointestinal hemorrhage in control group was significantly increased compared with cilostazol group [12.0%(22/184) vs.2.6%(2/78),χ2＝5.807,P ＝0.018], however, there was no significant difference in hemorrhagic events concerning the thrombolysis for myocardial infarction between two groups [17.4%(32/184) vs.9.0%(7/78), χ2＝3.063,P＝0.089].Conclusion Combined use of cilostazol and ticagrelor is effective and safe for ACS patients with gastrointestinal hemorrhage or a higher risk of hemorrhage .

Objective:To establish an LC-MS/MS method for the content determination of triptolide in Shenshe ointment.Methods:The chromatographic separation was performed on an Agilent TC-C18 (250 mm×4.6 mm,5 μm)column with the mobile phase consisting of methanol-0.1% formic acid solution (73∶27,v/v).The flow rate was 0.5 ml·min-1 and the column temperature was maintained at 35℃.An electrospray ionization (ESI) source was applied with multiple reaction monitoring (MRM) combined with a positive mode.Metronidazole was used as the internal standard.The mass transitions were 361.4→43.2 for triptolide and 172.1→128.0 for metronidazole,respectively.Results:The linear range was 10-500 ng·ml-1 with good correlation coefficient (r=0.999 9).The limit of quantification (LOQ) was 9.5 ng·ml-1.The intra-and inter-day RSDs of peak areas were all less than 3% and the average recovery was 96.87%(RSD=2.79,n=6).Conclusion:The established LC-MS/MS method is simple,efficient,sensitive and accurate in the quality control of Shenshe ointment.

PURPOSE: This study was conducted to investigate the small double-stranded RNA (dsRNA) mediated anti-tumor effects of p21(WAF1/ClP1) (p21) transcriptional activation in vitro in the human glioma SHG-44 cell line. MATERIALS AND METHODS: Human glioma SHG-44 cells were transfected with dsRNA using LipofectAMINE 2000 transfection reagent. Real-time PCR and Western blot analysis were conducted to detect p21 and survivin mRNA and protein levels, respectively. Cell proliferation was examined by MTT assay. Cell cycle distribution and apoptosis were detected by flow-cytometric analysis. RESULTS: We found that dsRNA targeting p21 promoter (dsP21) significantly induced the expression of p21 at transcription and protein levels, and reduced the expression of survivin. AS well, dsP21 transcription significantly inhibited human glioma SHG-44 cell proliferation. Analysis of cell cycle distribution revealed that dsP21 transfection increased accumulation of cells in the G0/G1 phase and reduced accumulation of cells in the S phase. Further analysis revealed that dsP21 transcription led to an increase in both early and late stages of apoptosis in human glioma SHG-44 cells. CONCLUSION: In the present study, P21 activation by RNA-induced gene activation (RNAa) induced anti-tumor activity in vitro in a human glioma SHG-44 cell line. The results suggested that RNAa could be used for human glioma treatment by targeted activation of tumor suppressor genes.
Apoptosis ; Blotting, Western ; Cell Cycle ; Cell Line* ; Cell Proliferation ; Genes, Tumor Suppressor ; Glioma* ; Humans* ; Methods ; Real-Time Polymerase Chain Reaction ; RNA, Double-Stranded* ; RNA, Messenger ; S Phase ; Transcriptional Activation* ; Transfection

ObjectiveTo compare liver pathology changes of patients with Budd-Chiari syndrome (BCS) and intrahepatic portal hypertension (IPH) after portosystemic shunt surgery. MethodsFrom January 2010 to December 2011,liverbiopsy was taken during shunt surgery (9 BCS patients,4 IPH patients),and 6-9 months after surgery on follow-up.Collagen type Ⅳ ( Col Ⅳ ),procollagen m (PC Ⅲ ),matrix metalloproteinase (MMP-1),tissue inhibitors of metalloproteinase(TIMP-1) were tested using SABC (immuonohistochemistry) method,and HE staining to observe the morphology of liver tissue.Free portal vein pressure before and after shunt was measured. ResultsIn BCS group,Col Ⅳ,PC 1Ⅲ and TIMP-1expression downregulated after surgery (127 ±15) vs.(137 ±16),t =4.896,P-0.013; (115.2 ± 10.6) vs.(127.3±9.5),t=4.877,P=0.003; (119.2±11.3) vs.(131.2±l9.6),t=2.841,P=0.023.MMP-1expression did not change ( P ＞ 0.05 ),while MMP-1/TIMP-1was not significantly correlated with liver fibrosis (0.95 ±0.16) vs.(0.98 ±0.15),t =-0.710,P =0.504.In IPH group,the expression of Col Ⅳ,PCⅢ,MMP-1,and MMP-1/TIMP-1did not change significantly after surgery (P ＞0.05).Compared with that in IPH group the expression of PC Ⅲ,Col Ⅳ and TIMP-1downregulated significantly in BCSgroup (127±15) vs.(150 ±12),U=3.000,P=0.038; (115.2 ±10.6) vs.(128.1±2.8),U=2.000,P=0.023; (119.2 ± 11.3) vs.(131.4 ±2.5),U=3.000,P =0.038.By HE staining in BCS group there was significant intrahepatic congestion which alleviated after surgery.While in PHT group liver pathology did not change significantly after surgery.FPP in BCS and IPH patients significantly decreased after shunt surgery (25 ±8) vs.(41±8) cmH20,t=17.816,P=0.000;(31±8) vs.(45 ±9) cmH20,t =5.745,P =0.010 ). Drop of FPP of BCS group plays a key role in reversal of liver fibrosis.ConclusionsIn BCS group liver pathology improved after shunt surgery probably by removing the intrahepatic obstruction,but in IPH group liver pathology remained unchanged after shunt.