BACKGROUND:The healing of mandibular fractures after rigid internal fixation is influenced by many factors,including the material of the bone plate,fracture site,and bone density of the patient.However,there are relatively few studies on the relationship between the stability of mandibular fracture fixation in different bone qualities and they lack a scientific basis. OBJECTIVE:To analyze the stability of fixation of mandibular fractures with different bone qualities with bioabsorbable plates and miniature titanium plates by finite element analysis. METHODS:Three-dimensional finite element models of class Ⅰ-Ⅳ mandibular fractures were developed according to the bone quality classification method proposed by ZARB and LEKHOLM.The fractures at the median mandibular symphysis,mandibular body,and mandibular angle were simulated under different bone qualities.Bioabsorbable bone grafting plates(or miniature titanium plates)were placed at each fracture site for fixation and to simulate the state of healthy side occlusion.Finite element analysis on the model was used to analyze the relative displacement of the fracture segments and the stress distribution of fixators. RESULTS AND CONCLUSION:(1)The maximum stress value during fixation with titanium plates increased gradually with the increase of bone class,in which the maximum stress value of titanium plates was the highest in the mandibular body class Ⅳ bone group,which was 382.74 MPa and 96.11 MPa in the miniature titanium plate and bioabsorbable plate groups.The results for mandibles of the same bone type showed that the maximum stress value of titanium plates was much higher than that of bioabsorbable plates.(2)For fractures of the median middle of the mandible in types Ⅲ and Ⅳ,the displacement of the fracture breaks at the fixation site was large and exceeded the limiting value of bone healing(>150 μm),regardless of whether the fixation was performed with a miniature titanium plate or a bioabsorbable plate.For type Ⅳ mandibular fractures,the fracture end displacement in the bioabsorbable plate group exceeded the healing limit value,and the fracture end displacement in the miniature titanium plate group was close to the healing limit value.Under the same bone quality and fracture site,the fracture displacement of the miniature titanium plate group was smaller than that of the bioabsorbable plate group.(3)The results showed that the strength and stiffness of the two internal fixations were sufficient to support bone healing of fractures at three sites of the types Ⅰ-Ⅳ mandible,and the fixation stability of the bioabsorbable plate was almost the same as that of the miniature titanium plate,which could provide early healing conditions for fractures.Mandibular bone type should be taken into consideration in the treatment of mandibular fracture.The higher the mandibular bone grade,the worse the stability of fracture fixation,and the more likely the complications such as poor bone healing will occur after surgery.

Objective To design a mobile personnel radiation protection equipment for operation in environments with high radiation such as spent fuel reprocessing plants, to achieve simultaneous protection against γ radiation, neutron radiation, and radioactive aerosol, to reduce the internal and external exposure dose of radioactive workers, and to meet the requirement of operation for two hours. Methods The core parts of the mobile personnel radiation protection equipment included a shielding chamber and a respiratory maintenance system. An automated chassis was used for the movement and lifting of the shielding chamber. MCNP software was used to simulate and calculate the protective effects of shielding chamber made of different materials and material thicknesses. Experimental verification of the shielding chamber design was conducted. Mathematical models were established to describe the variations in the content of various gases in the chamber with personnel operation time. A respiratory maintenance system, a harmful gas absorption device, and an automated mobile chassis were designed. Results The shielding chamber made of polyethylene with a thickness of 80 mm achieved an 80% neutron shielding rate. The respiratory maintenance system could support workers for 2 hours of operation inside the equipment. The mobile chassis allowed operation of the equipment with one person. Conclusion This mobile personnel radiation protection equipment can solve the problem in simultaneous protection against γ radiation, neutron radiation, and radioactive aerosol. The equipment can provide radiation protection for radioactive workers, reduce exposure dose, and reduce personnel burden. This system provides technical means for the operation and maintenance of equipment in high-radiation sites such as spent fuel reprocessing plants.

Objective Nowadays, radioactive xenon isotopes, including ^131mXe, ^133mXe, ¹³³Xe, and ¹³⁵Xe, are primarily released into the atmosphere through various reactor operation and major accidents of reactors. To improve the online monitoring capability of xenon in nuclear facilities and their gaseous effluents, a highly sensitive online xenon monitoring system was developed to monitor, warn, and alarm the activity concentration of radioactive xenon. Methods The online monitoring system for radioactive xenon gas in nuclear facilities was established using xenon membrane separation and concentration, xenon high-efficiency selective adsorption, and low-background gamma-ray spectrometry analysis methods. Results Under the operation mode of one-hour sampling and one-hour measuring, the minimum detectable activity concentration of the radioactive xenon online monitoring system for ¹³³Xe was approximately (1.43 ± 0.03) Bq/m³. Conclusion This system can be effectively used for online monitoring of xenon activity concentration in nuclear facilities such as nuclear power plants and isotope production reactors, as well as in gaseous effluents. It helps improve the safety level of personnel, the environment, and nuclear facilities.

Objective To address the radioactive contamination of wounds caused by transuranic nuclides, wound radiation imaging based on coded aperture imaging technology was investigated. Methods By simulating multiple source terms using Monte Carlo method, the differences in imaging performance between two image reconstruction algorithms under near-field conditions were compared. The effects of detector pixels and detection plane pixels on image resolution were investigated. Results The imaging system was simulated based on the designed dimensions. The simulated imaging field of view was 89.4 mm × 89.4 mm and the simulated angular resolution was 1.98°. Based on the comparison of the average width at half height of the reconstructed point sources under different conditions, it was found that increasing the number of pixels in the detector and detection plane optimized the angular resolution but significantly prolonged the Monte Carlo simulation time. Conclusion According to the simulation results, the parameters of the imaging system can be used to effectively image radioactive contamination. Our results provide methodological support for the measurement of wound contamination caused by transuranic nuclides, and lay the foundation for the development of wound contamination imaging detection systems in the future.

Objective To investigate the separation efficiency of three physical separation methods for gaseous ¹⁴C, namely membrane separation, adsorption separation, and low-temperature separation, to screen for the optimal separation method, and to provide a reference for the separation and enrichment of ¹⁴CO₂ in online monitoring of ¹⁴C. Methods The experimental plan was designed, and three devices were constructed for separation and purification experiments. The purity, recovery rate, and separation time of CO₂ separated by the three methods were analyzed. Results All the three methods achieved the separation of CO₂. Under certain conditions, 20 mL of sample gas was obtained. The separation time of membrane separation method was 0.5 hour, CO₂ gas with a sample purity of 0.0486%-0.0488%VOL was obtained, and the recovery rate was only 2.5%−12.7%. The separation time of MOF material adsorption separation method was 24−30 hours, CO₂ gas with a sample purity of 20.2%−47.5%VOL was obtained, and the recovery rate was 57.3%−63.2%. The separation time of low-temperature separation method was 3 hours, CO₂ gas with a sample purity of 96.0%−99.8%VOL was obtained, and the recovery rate was 81.5%−92.5%. Conclusion The purity and recovery rate of CO₂ with low-temperature separation method were higher compared to membrane separation method and MOF material adsorption separation method. The separation time of low-temperature separation method was moderate. The low-temperature separation method can provide a reference for the enrichment technology of ¹⁴C in the rapid measurement of gaseous ¹⁴C effluent.

Inflammatory bowel disease (IBD) is a formidable disease due to its complex pathogenesis. Macrophages, as a major immune cell population in IBD, are crucial for gut homeostasis. However, it is still unveiled how macrophages modulate IBD. Here, we found that LIM domain only 7 (LMO7) was downregulated in pro-inflammatory macrophages, and that LMO7 directly degraded 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase 3 (PFKFB3) through K48-mediated ubiquitination in macrophages. As an enzyme that regulates glycolysis, PFKFB3 degradation led to the glycolytic process inhibition in macrophages, which in turn inhibited macrophage activation and ultimately attenuated murine colitis. Moreover, we demonstrated that PFKFB3 was required for histone demethylase Jumonji domain-containing protein 3 (JMJD3) expression, thereby inhibiting the protein level of trimethylation of histone H3 on lysine 27 (H3K27me3). Overall, our results indicated the LMO7/PFKFB3/JMJD3 axis is essential for modulating macrophage function and IBD pathogenesis. Targeting LMO7 or macrophage metabolism could potentially be an effective strategy for treating inflammatory diseases.

Flavonoid glycosides are the main active constituents of Epimedii Folium and its related plants. They can be divided into polyglycosides and low glycosides according to the number of glycosyl group. The polyglycosides of Epimedii Folium can be transformed into low glycosides after biotransformation ；pharmacological activities of low glycosides in anti-tumor ，tonifying kidney yang and anti-osteoporosis are stronger than those of polyglycosides. In this paper ， the research progress about biotransformation technology of flavonoid glycosides of Epimedii Folium was reviewed. It was found that the main biotransformation pathway of flavonoid glycosides of Epimedii Folium was to obtain low glycosides by removing glycosyl group ； related methods were mainly enzymatic hydrolysis and microbial transformation ，and also included plant cell transformation ，acid hydrolysis method and synthesis method.

OBJECTIVE：To com pare the efficacy and safety of 5 direct antiviral agents in the treatment of chronic hepatitis C infection as glecaprevir （GLE）/pibrentasvir（PIB），ledipasvir（LDV）/sofosbuvir（SOF），SOF/velpatasvir（VEL），elbasvir（EBR）/ grazoprevir（GZR）compound preparation and danoprevir （DNV）+ peginterferon combined with ribavirin （P/R）. METHODS ： Retrieved from PubMed ，Embase，Cochrane Library ，Web of Science ，CNKI，VIP，Wanfang database and other databases ，RCTs about 5 direct antiviral agents in the treatment of chronic hepatitis C infection were collected during the inception to Jun. 2020. After literature screening and data extraction ，the quality of included literatures were evaluated with bias risk evaluation tool recommended by Cochrane system evaluator manual 5.1.0. Meta-analysis was performed by using Stata 15.0 software. RESULTS ： A total of 48 RCTs with 12 227 patients in trial group were included. Results of Meta-analysis showed that the descending order of sustained virological response （SVR）rate was GLE/PIB ＞LDV/SOF＞SOF/VEL＞EBR/GZR＞DNV+P/R；weighted SVR rates of GLE/PIB，LDV/SOF，SOF/VEL and EBR/GZ were more than 95％. The incidence of any severe adverse event and adverse event in ascending order was EBR/GZR ＜GLE/PIB＜SOF/VEL＜LDV/SOF＜DNV+P/R. The incidence of nausea/vomiting in ascending order was GLE/PIB ＜LDV/SOF＜EBR/GZR＜SOF/VEL＜DNV+P/R. The incidence of rash in ascending order was LDV/SOF ＜ GLE/PIB＜SOF/VEL＜EBR/GZR＜DNV + P/R. The incidence of insomnia from low to high was GLE/PIB ＜EBR/GZR＜SOF/ VEL＜LDV/SOF＜DNV+P/R. CONCLUSIONS ：GLE/PIB，LDV/SOF，SOF/VEL and EBR/GZR have higher and similar effective rates in the treatment of chronic hepatitis C ，especially the weighted SVR rate of GLE/PIB is the best ，and the safety of EBR/GZR and GLE/PIB is relatively better.

Objective To investigate application value and significance of mixed reality technology in surgical treatment and doctor-patient communication for vestibular schwannoma. Methods We selected randomly 13 vestibular schwannoma patients treated with surgical treatment. After the three-dimensional models were constructed, preoperative surgical planning and doctor-patient communication were performed with mixed reality technology. Craniotomy through retrosigmoid sinus approach, tumor resection and facial nerve protection were achieved intraoperatively with the assistance of mixed reality technology. Questionnaires were collected and facial nerve function of 13 patients was recorded one week after operation. Results Holographic model images of 13 cases were showed successfully using mixed reality technology. The locations of preoperative facial nerves reconstructed were completely consistent with actual locations in 10 cases (84.6%). After preoperative anatomic analysis, it was decided to remove partly the posterior wall of the internal auditory canal in 11 cases. The result of doctor-patient communication questionnaire showed that 13 patients and their family all had a thorough understanding of the condition, operative plan and risks, and expressed satisfaction with the preoperative conversation. With the assistance of mixed reality technology, the tumors were resected totally without injury of vein sinus in 13 cases. The facial nerve function was gradeⅠin 3 cases, gradeⅡin 6 cases, grade Ⅲ in 3 case and grade Ⅳ in 1 case based on House-Brackmann grading one week after surgery. Conclusion Mixed reality technology is quite helpful in individual surgical planning and preoperative doctor-patient communication. It helps reduce the side injuries of surgery and protect the function of facial nerve as a surgical assistant tool intraoperatively.

OBJECTIVE：To provide reference for the selection of more economical programmed death- 1（PD-1）/programmed death-ligand 1（PD-L1）inhibitors for National Medical Insurance List and the quality improvement of related economic evaluation. METHODS：Retrieved from CNKI ，VIP，Wanfang database ，PubMed，Web of Science and Ovid Embase ，economic evaluation studies including listed PD- 1/PD-L1 inhibitors of China were collected during the inception to Oct. 2020. CHEERS checklist was used to evaluate the quality of the included literatures ，and the methodological characteristics and economic evaluation results of the included studies were analyzed systematically. RESULTS ：A total of 14 literatures were included ，all of which were model-based and with moderate or high quality. However ，there were still some deficiencies in the included literatures ，mainly manifesting as the insufficient reports on the reasons for setting or selecting model parameters ，as well as the great uncertainty of clinical effect data and utility value. Only 3 of the 8 PD-1/PD-L1 inhibitors listed in China were involved in the included literatures. Compared with chemotherapy or targeted therapy plan ，9 literatures（64.29％）showed that the therapy plan containing PD- 1/PD-L1 inhibitors was not cost-effective. CONCLUSIONS ：The economic evidence of domestic PD- 1/PD-L1 inhibitors is lacking ，the higher price of imported PD- 1/PD-L1 inhibitors lead to poor economic performance. The existing economic evaluations has some shortcomings in methodological application and parameter selection. Pharmaceutical enterprises should fill in the data gaps and adjust the pricing strategy，researchers should improve the standardization of research ，and medical insurance decision-making departments should improve the judgment on the quality of economic evidences ，so as to promote more economical drugs to be included in the National Medical Insurance List.