Objective To explore the effect of compound Xueshuantong capsule Dendrobium luminous pill combined with amiotide eye drops in the treatment of vitreous opacity.Methods According to the digital table, 120 patients with vitreous opacity were divided into two groups,60 cases in each group.The control group was given conventional amiotide eye drops treatment,and the observation group was given compound Xueshuantong capsule Den-drobium luminous pill for treatment on the basis of conventional therapy.The clinical effect was observed and com-pared after treatment.Results The total effective rate in the observation group was 66.67%,which was significantly higher than 38.33% of the control group(χ2 =9.09,P <0.05).The total effective rate of young patients in the obser-vation group was 78.79%,which was significantly higher than 51.85% of the elderly patients(χ2 =8.24,P <0.05). The vitreous opacities total effective rate of the observation group after treatment within two years was 58.33%,which was significantly higher than 28.33% of the control group(χ2 =11.67,P <0.05).Conclusion Compound Xue-shuantong capsule Dendrobium luminous pill combined with ammonia iodine peptide drop has a positive effect in the treatment of ocular fluid of vitreous opacity,improve the clinical total effective rate,recovery of affected vision,and avoid the recurrence of vitreous opacity after operation,has the advantages of safety,effectiveness,which should be widely applied in clinic.

Objective To explore the predictive value of soluble growth STimulation expressed gene 2(sST2) on major adverse cardiovascular events(MACE) of acute myocardial infarction (AMI) after percutaneous coronary intervention (PCI).Methods The study included 148 patients with first episode of AMI admitted from January 2015 to May 2016 in the heart center of the First Hospital of Lanzhou University.Serum sST2 level before PCI was tested and all patients were followed up clinically for 6 months after PCI.Results 1.MACEs were found in 23 patients during follow up.The sST2 leveles were significantly higher in patients with MACEs than the non-MACE group [(44.50 ±5.32) ng/ml vs.(23.59±1.15) ng/ml, P=0.001].Pearson correlation analysis showed that serum sST2 were positively correlated with MACE and type Ⅲ procollagen amine terminal peptide (PⅢNP) but was not correlated with NT-proBNP.2.Serum sST2 found to be correlated with the body mass index, blood pressure, triglycerides, aspartate aminotransferase, left ventricular end-systolic volume (LVESV) and left ventricular ejection fraction (LVEF).3.The area under the ROC curve of sST2 to predict the occurrence of MACE after PCI was 0.787 which was higher than that of NT-proBNP.The area under curve of sST2 combined with NT-proBNP was 0.820.4.The survival rate of patients with serum sST2 level ≤29 ng/ml was higher than patients with sST2>29 ng/ml in 6 months after PCI.Conclusions sST2 is affected by a variety of factors.sST2 combined with NT-proBNP can improve the predictive value of MACE after PCI, and higher the level of sST2, higher the mortality rate in 6 months after PCI.

Microbial Engineering is a practical and applied course, it is therefore an indispensable part of teaching to let the students practice in the production line of an enterprise. However, lack of internship resources has always been a bottleneck hampering the high-level internship training during teaching the Microbial Engineering course. A virtual production line developed based on information technology enables students to learn the theoretical knowledge of the complex production system. Moreover, it enables students to perform complex virtual operations, thereby improving students' practicing and innovation abilities. In order to let the virtual simulation experiments project play a great role in undergraduate teaching, this article summarizes the progress, characteristics, and value of the virtual simulation experiments for Microbial Engineering. In addition, the main challenges that limit its shared application are also discussed, with potential solutions prospected.
Computer Simulation ; Curriculum ; Humans ; Learning ; Students

Objective:To effectively express the receptor binding domain (RBD) of SARS-CoV-2 spike protein in Pichia pastoris and to evaluate its immunogenicity. Methods:The gene encoding the RBD protein was synthesized and cloned into the pPICZαA plasmid. After linearization, the plasmid was transferred and integrated into the genome of Pichia pastoris. The expressed RBD protein in culture supernatant was analyzed by Western blot and Biolayer interferometry. After screening, a single clone expressing the RBD protein was selected. The high-level expression of RBD protein was achieved by optimizing the fermentation process, including the salt concentration adjusting of the medium and induction condition optimization (pH, temperature and duration). The immunogenicity of the expressed RBD protein was evaluated in a mouse model. Results:A single clone with a high expression level of RBD protein was obtained and named RBD-X33. The expression level of RBD protein in the fermentation supernatant reached up to 240 mg/L after optimization of the induction condition (HBSM medium, pH=6.5±0.3, 22℃ and 120 h). In the mouse experiment, the recombinant RBD protein was formulated with Alum+ CpG dual adjuvant and injected into mice. The binding IgG antibody levels were up to 2.7×10 6 tested by ELISA and the neutralizing antibody levels were up to 726.8 tested by live virus neutralizing antibody assay (prototype). Conclusions:The RBD protein could be efficiently expressed in Pichia pastoris and induce stronger immune response in animals. This study suggested that the recombinant SARS-CoV-2 RBD protein expressed in Pichia pastoris could serve as a candidate antigen in the development of SARS-CoV-2 vaccine.

Osteoporosis （OP） is a systemic metabolic bone disease. Amid population aging， OP has become a major health problem for the middle-aged and the elderly in China. Aging， iron load， and estrogen deficiency break the balance between oxidation and antioxidant systems， and the increase of reactive oxygen species mediates oxidative stress to damage DNA， lipids， proteins and other macromolecules， thus accelerating cell apoptosis and inducing OP， obesity， and neurodegenerative disorders. It has been found that oxidative stress is of great significance in the pathogenesis of OP. Oxidative stress regulates the signaling pathways， cytokines， and proteins related to the mesenchymal stem cells， osteoblasts， and osteoclasts， thereby weakening the osteogenic differentiation of mesenchymal stem cells， inhibiting osteoblast mineralization， and promoting the activation， proliferation， and maturation of osteoclasts. As a result， the dynamic imbalance between bone resorption and bone formation occurs， influencing bone remodeling and promoting the progression of OP. At the moment， anti-bone resorption drugs， bone formation-promoting drugs， and hormones are mainly used in clinical settings in western medicine. However， due to the long treatment cycle and the occurrence of serious gastrointestinal reactions， hypocalcemia， osteonecrosis， and others， patients show poor compliance and thus the effect is not as expected. Traditional Chinese medicine （TCM） demonstrates remarkable effect on OP attributing to the multi-pathway and multi-target characteristics. With low price and few adverse reactions， TCM is widely applied in clinical practice in comparison with western medicine. TCM has unique advantages in the treatment of OP by regulating oxidative stress. It exerts the therapeutic effect on OP by modulating different signaling pathways， providing new mindset for the treatment of this disease. Therefore， through literature research， this study summarized the research on mechanism of oxidative stress in OP and the treatment by TCM， which is expected to lay a foundation for further research.

Idiopathic pulmonary fibrosis （IPF）， as a progressive lung disease， has a poor prognosis and no reliable and effective therapies. IPF is mainly treated by organ transplantation and administration of chemical drugs， which are ineffective and induce side effects， failing to meet the clinical needs. Therefore， developing safer and more effective drugs has become an urgent task， which necessitates clear understanding of the pathogenesis of IPF. The available studies about the pathogenesis of IPF mainly focus on macrophage polarization， epithelial-mesenchymal transition （EMT）， oxidative stress， and autophagy， while few studies systematically explain the principles and links of the pathogeneses. According to the traditional Chinese medicine theory， Qi deficiency and blood stasis and Qi-Yang deficiency are the key pathogeneses of IPF. Therefore， the Chinese medicines or compound prescriptions with the effects of replenishing Qi and activating blood， warming Yang and tonifying Qi， and eliminating stasis and resolving phlegm are often used to treat IPF. Modern pharmacological studies have shown that such medicines play a positive role in inhibiting macrophage polarization， restoring redox balance， inhibiting EMT， and regulating cell autophagy. However， few studies report how Chinese medicines regulate the pathways in the treatment of IPF. By reviewing the latest articles in this field， we elaborate on the pathogenesis of IPF and provide a comprehensive overview of the mechanism of the active ingredients or compound prescriptions of Chinese medicines in regulating IPF. Combining the pathogenesis of IPF with the modulating effects of Chinese medicines， we focus on exploring systemic treatment options for IPF， with a view to providing new ideas for the in-depth study of IPF and the research and development of related drugs.