1.Analysis on molecular typing and clinical characteristics of Staphylococcus aureus in ICUs and general wards
Xing YIN ; Zhijun WENG ; Haiqing HU ; Xianfeng CHEN ; Yaoting LIU ; Shanshan HOU ; Tingyin ZHOU ; Lin ZHOU
International Journal of Laboratory Medicine 2017;38(7):933-935
Objective To conduct the molecular epidemiologic analysis of Staphylococcus aureus (S.aureus) in the intensive care units(ICUs) and general wards and to compare their clinical characteristics.Methods Ninety-six clinically isolated strains of S.aureus(43 strains from the emergency intensive care unit(EICU) and neurosurgical intensive care unit(NICU) and 53 strains from the general wards) collected from Sepetember 2015 to April 2016 were performed the bacterial identification and antibiotic susceptibility test.The molecular typing was performed by adopting staphylococcal protein A (spa) typing method.Results Among 96 strains of S.aureus,the detection rate of methicillin-resistant S.aureus(MRSA) was 40.6%(39/96),which among 43 strains in ICU was 62.8%(27/43) and which among 53 strains in the general words was 22.6%(12/53).The resistance rates of strains from ICUs to gentamicin,levofloxacin,clindamycin,fosfomycin and minocycline were 23.3%,48.8%,46.5%,32.6% and 32.5% respectively,while which from the general wards were 7.5%,24.5%,18.9%,2.1% and 0% respectively.The Spa typing results showed that the main types of ICUs were t002,t091 and t311.The major epidemic strain was t002(n=16,37.2%) and mainly isolated from EICUs(12 strains),26 spa types were identified among the general wards trains,mainly were t189,t377,t571,t034,t091,t127.Conclusion The detection rate of MRSA in ICUs is higher than that in the general wards,these strains have high resistant rate to routine antibacterial drugs.t002 is the major epidemic strain.The general wards have more spa types with higher genetic diversity.
2.Effection of HDAC1 deacetylase inhibition on gastric cancer stem cells
Xilu HOU ; Jun TANG ; Bin ZHU ; Hezhong YAN ; Senyuan YU ; Yan HE ; Haiqing LI ; Jiaoxue WANG ; Wei LIU
Chongqing Medicine 2016;45(17):2319-2322
Objective To explore the effect of HDAC1 deacetylase inhibition on the proliferation differentiation and invasion in human gastric cancer stem cells (GCSCs) .Methods The GCSCs were selected as CD44 marker by using flow cytometry .RT-qPCR and Western Blot were used to detect the expression of HDAC 1 in GCSCs and non GCSCs .The effect of proliferation and in-vasion in GCSCs were observed by CCK-8 assay ,colony formation and transwell assay after the cells were treated with TSA .The expression of proteins related apoptosis ,differentiation and invasion were detected by using RT-qPCR and Western blot .Results The expression of HDAC1 in GCSCs was higher than that in non GCSCs .The capacities of proliferation and invasion in experimen-tal group were attenuated compared to the control group .The proteins related differentiation was down regulated ,and epithelial mesenchymal transition was mediated .Conclusion After the deacetylation of HDAC1 was inhibited ,the proliferation ,differentia-tion and invasion of GCSCs were reduced .
3.Experimental study and clinical significance of intravascular angiography in vivo
Kun CHENG ; Na SU ; Qiuyao LI ; Xiaofei GAO ; Kun FENG ; Zhicheng YANG ; Haiqing HOU ; Yuchun LI ; Jianmin LI ; Guanghui WANG
Chinese Journal of Orthopaedics 2022;42(8):482-491
Objective:To study the method of intravascular angiography in vivo, analyze the clinical significance, and supply the basis of diagnosis and treatment of related orthopaedic diseases.Methods:The development was realized by improving the developer to increase the local concentration. Based on the study of Lijianmin-Chengkun Complexes and using the theory of magnetic microspheres, Fe 3O 4 magnetic microspheres with amino (negatively charged) shell are used to adsorb the aggregated ionic developer meglumine diatrizoate (positively charged diatrizoate). That is, by improving the method of developer, the magnetic microspheres can carry the developer to make new nanoparticles magnetic imaging composite particles. Under the action of external magnetic field, the magnetic imaging composite particles brought by blood circulation continue to stay and gather in the blood vessels in the magnetic field area, and the developer carried by the magnetic microspheres in the blood vessels in the magnetic field area is concentrated to reach the imaging concentration, so as to realize in vivo intravascular vascular imaging. By adjusting the ratio of the two reagents, the charge can be neutralized and condensed into small groups to improve the development efficiency. Thus, the electron microscope experiment, CT in vivo experiment, rabbit imaging experiment, experimental rabbit tissue picture confirmation, CT in vivo human body (the author is a volunteer) imaging experiment were carried out step by step. Results:Electron microscope experiment: meglumine diatrizoate, scanning electron microscope, the particle diameter is about 20 nm. Scanning electron microscope showed that the diameter of the magnetic microspheres was about 100 nm and the distribution was uniform. After the two reagents are mixed in a certain proportion, the neutralizing charge condenses into small groups, but it still has magnetohydrodynamic properties and strong paramagnetism. In vivo rabbit imaging experiment: the ideal intraosseous vascular imaging of the proximal tibia was captured. The tissue pictures of experimental rabbits confirmed that the distribution of Fe 3O 4 was obviously visible in the blood vessels in the proximal tibia on the side with magnetic field, but not on the side without magnetic field. In vivo human imaging experiment: the ideal intraosseous vascular imaging of the proximal fibula was captured. Conclusion:Through the preparation of new reagent of magnetic imaging composite particles (magnetic microspheres + meglumine diatrizoate), the concentration of in vivo bone developer can be achieved under the action of external magnetic field, and the in vivo external diameter ≥ 0.5mm can be achieved under CT thin-layer scanning.