Exploring mechanism of hidden,steep obliquely inclined bedding landslides using a 3DEC model:A case study of the Shanyang landslide in Shaanxi Province,China

Catastrophic geological disasters frequently occur on slopes with obliquely inclined bedding structures(also referred to as obliquely inclined bedding slopes),where the apparent dip sliding is not readily visible.This phenomenon has become a focal point in landslide research.Yet,there is a lack of studies on the failure modes and mechanisms of hidden,steep obliquely inclined bedding slopes.This study investigated the Shanyang landslide in Shaanxi Province,China.Using field investigations,laboratory tests of geotechnical parameters,and the 3DEC software,this study developed a numerical model of the landslide to analyze the failure process of such slopes.The findings indicate that the Shanyang landslide primarily crept along a weak interlayer under the action of gravity.The landslide,initially following a dip angle with the support of a stable inclined rock mass,shifted direction under the influence of argillization in the weak interlayer,moving towards the apparent dip angle.The slide resistance effect of the karstic dissolution zone was increasingly significant during this process,with lateral friction being the primary resistance force.A reduction in the lateral friction due to karstic dissolution made the apparent dip sliding characteristics of the Shanyang landslide more pronounced.Notably,deformations such as bending and uplift at the slope’s foot suggest that the main slide resistance shifts from lateral friction within the karstic dissolution zone to the slope foot’s resistance force,leading to the eventual buckling failure of the landslide.This study unveils a novel failure mode of apparent dip creep-buckling in the Shanyang landslide,highlighting the critical role of lateral friction from the karstic dissolution zone in its failure mechanism.These insights offer a valuable reference for mitigating risks and preventing disasters related to obliquely inclined bedding landslides.

Electrospun Semiconductor-Based Nano-Heterostructures for Photocatalytic Energy Conversion and Environmental Remediation:Opportunities and Challenges

Harvesting solar energy to drive the semiconductor photocatalysis offers a promising tactic to address ever-growing challenges of both energy shortage and environmental pollution.Design and synthesis of nano-heterostructure photocatalysts with controllable components and morphologies are the key factors for achieving highly efficient photocatalytic processes.Onedimensional(1D)semiconductor nanofibers produced by electrospinning possess a large ratio of length to diameter,high ratio of surface to volume,small grain sizes,and high porosity,which are ideally suited for photocatalytic reactions from the viewpoint of structure advantage.After the secondary treatment of these nanofibers through the solvothermal,gas reduction,in situ doping,or assembly methods,the multi-component nanofibers with hierarchical nano-heterostructures can be obtained to further enhance their light absorption and charge carrier separation during the photocatalytic processes.In recent years,the electrospun semiconductorbased nano-heterostructures have become a“hot topic”in the fields of photocatalytic energy conversion and environmental remediation.This review article summarizes the recent progress in electrospinning synthesis of various kinds of high-performance semiconductor-based nano-heterostructure photocatalysts for H2 production,CO_(2) reduction,and decomposition of pollutants.The future perspectives of these materials are also discussed.

Dosimetric comparison of different multileaf collimators in volumetric modulated arc therapy for malignant pleural mesothelioma

Objective The aiom of the study was to compare the impacts of two types of multileaf collimators(MLC) [standard MLC with a width of 10 mm(s MLC) and micro-MLC with a width of 5 mm(m MLC)] on volumetric modulated arc therapy(VMAT) planning for malignant pleural mesothelioma. Methods VMAT for ten patients with inoperable malignant pleural mesotheliomas was retrospectively planned with the s MLC and m MLC. Histogram-based dose-volume parameters of the planning target volume(PTV) [conformity index(CI) and homogeneous index(HI)] and organs-at-risk were compared for VMAT plans with s MLC(s MLC-VMAT) and m MLC(m MLC-VMAT). Results The m MLC-VMAT plans were more efficient(average delivery time: 2.67±1.49 min) than the s MLC-VMAT plans(average delivery time: 4.21 ± 2.03 min; P < 0.05). Moreover, compared to the s MLC plans, the m MLC plans demonstrated advantages in the dose coverage of the PTV(CI 0.75 ± 0.08 vs 0.73 ± 0.09; HI 1.09 ± 0.02 vs 1.10 ± 0.02), although the difference was not statistically significant(P > 0.05). In addition, significant dose sparing in the fraction of the ipsilateral lung volume receiving > 20 Gy(V20; 54.72 ± 27.08 vs 58.52 ± 29.30) and > 30 Gy(V30; 42.74 ± 27.86 vs 46.86 ± 31.49) radiation, respectively, was observed for the m MLC plans(P < 0.05). Conclusion Comparing s MLC-VMAT and m MLC-VMAT not only demonstrated the higher efficiency and better optimal target coverage of m MLC-VMAT, but also considerably improved the dose sparing of the ipsilateral lung in the VMAT plans for malignant pleural mesothelioma.

Activated and deactivated functional brain areas in the Deqi state: A functional MRI study

We compared the activities of functional regions of the brain in the Deqi versus non-Deqi state, as reported by physicians and subjects cludng acupuncture, Twelve healthy volunteers received sham and true needling at the Waiguan （TE5） acupoint. Real-time cerebral functional MRI showed that compared with non-sensation after sham needling, true needling activated Brodmann areas 3, 6, 8, 9, 10, 11, 13, 20, 21, 37, 39, 40, 43, and 47, the head of the caudate nucleus, the parahippocampal gyrus, thalamus and red nucleus. True needling also deactivated Brodmann areas 1,2, 3, 4, 5, 6, 7, 9. 10. 18.24.31.40 and 46.

Evaluation of trans-ferulic acid degradation by dielectric barrier discharge plasma combined with ozone in wastewater with different water quality conditions

In this study, dielectric barrier discharge plasma and ozone(O_3) were combined to synergistically degrade trans-ferulic acid(FA), and the effect of water quality on FA degradation was studied. The results showed that 96.9% of FA was degraded after 40 min treatment by the plasma/O_3 process. FA degradation efficiency increased with the p H values. The presence of suspended solid and humic acid inhibited FA degradation. FA degradation efficiency increased as the water temperature increased to 30 °C. However, the further increase in water temperature was adverse for FA degradation. Effects of common inorganic ions on FA degradation were also investigated. The addition of Cl^- inhibited the FA degradation, whileCO_3^(2-) had both negative and positive influences on FA degradation.NO_3^- andSO_4^(2-) did not have significant effect on FA degradation. Fe^(3+)and Cu^(2+)benefited FA degradation through the Fenton-like and catalytic ozonation reactions.

One-step hydrothermal synthesis of S-defect-controlled ZnIn_(2)S_(4) microflowers with improved kinetics process of charge-carriers for photocatalytic H_(2) evolution

Engineering lattice defects in two-dimensional(2 D) sulfide semiconductors has been accepted as an effective strategy to enhance the efficiency of the solar-to-fuels conversion.Although many researches have proven the lattice defect-mediated photocatalytic activity of ZnIn_(2)S_(4),the artificial control of Sdefects for optimizing the charge-carrier kinetics process in ZnIn_(2)S_(4) has long been a challenging task.Herein,we report a facile one-step method to modulate the lattice S-content of ZnIn_(2)S_(4) microflowers(MFs) only through adjusting the used amount of S-precursor in the hydrothermal solution that contains the metal precursors with a fixed Zn/In stoichiometric ratio at 1:2.We also demonstrated that the Svacancies at the In facets were the main type of lattice defects in the formed ZnIn_(2)S_(4) MFs,which could enhance both the separation and migration processes of the photoinduced charge-carriers due to the existence of discrete defect energy-levels(DELs) and the reduced effective mass of electrons,as evidenced by the first-principles calculations and the electron spectra analyses.The ZnIn_(2)S_(4) MFs with the optimal content of S-vacancy obtained by a hydrothermal treatment of the precursors with the Zn/In/S stoichiometric ratio of 1:2:8 possessed the long-lived photoinduced electron(~94.64 ns) for contributing to the photo-physical and-chemical processes.Thus,upon visible light irradiation,the H_(2)-evolution rate of this sample reached ~2.40 mmol h^(-1) g^(-1) with an apparent quantum efficiency of ~0.16% at 420 nm even though only using 5 mg of photocatalysts without any cocatalysts.

The relationship between groundwater and natural vegetation in Qaidam Basin

To accurately evaluate ecological risks trigged by groundwater exploitation,it must be clarified the relationship between vegetation and groundwater.Based on remote sensing data sets MOD13Q1,groundwater table depth(WTD)and total dissolved solids(TDS),the relationship between groundwater and natural vegetation was analyzed statistically in the main plain areas of Qaidam Basin.The results indicate that natural vegetation is groundwater-dependent in areas where WTD is less than 5.5 m and TDS is less than 7.5 g/L.Aquatic vegetation,hygrophytic vegetation and hygrophytic saline-alkali tolerant vegetation are mainly distributed in areas with WTD<1.1 m.Salt-tolerant and mesophytic vegetation mainly occur in areas with WTD of 1.4-3.5 m,while the xerophytic vegetation isprimarily present in areas where WTD ranges from 1.4 m to 5.5 m.Natural vegetation does not necessarily depend on groundwater in areas with WTD>5.5 m.For natural vegetation,the most suitable water TDS is less than 1.5 g/L,the moderately suitable TDS is 1.5-5.0 g/L,the basically suitable TDS is 5.0-7.5 g/L,and the unsuitable TDS is more than 7.5 g/L.

A dosimetric evaluation of flattening filter-free volumetric modulated arc therapy for postoperative treatment of cervical cancer

Objective The aim of the study was to compare flattening filter-free(FFF) beams and conventional flattening filter(FF) beams in volumetric modulated arc therapy(VMAT) for cervical cancer after surgery, through a retrospective planning study.Methods VMAT plans of FFF beams and normal FF beams were designed for a cohort of 15 patients. The prescribed dose was 45 Gy to 1.8 Gy per fraction, and at least 95% of the planning target volume received this dose. Doses were computed with a commercially available treatment planning system using a Monte Carlo(MC) algorithm. Plans were compared according to dose-volume histogram analysis in terms of planning target volume homogeneity and conformity indices(HI and CI), as well as organs at risk(OAR) dose and volume parameters. Results FFF-VMAT was similar to FF-VMAT in terms of CI, but inferior to FF-VMAT considering HI. No statistically differences were observed between FFF-VMAT and FF-VMAT in following organ at risks including pelvic bone marrow, small bowel, bladder, rectum, and normal tissue(NT)..Conclusion For patients with cervical cancer after hysterectomy, the FFF beam achieved target and OAR dose distribution similar to that of the FF beam. Reduction of beam-on time in cervical cancer is beneficial.

食管鳞癌患者根治性放疗预后列线图模型的构建—泛京津冀多中心回顾分析(3JECROG R-03A)

目的:构建列线图(nomogram)模型以预测食管鳞癌患者的预后情况,指导个体化治疗。方法:回顾性分析2002年1月至2016年12月国内10家放疗中心(泛京津冀食管癌协作组-3JECROG)收治的2680例根治性放疗食管鳞癌患者资料,随机分为训练组和验证组,根据训练组的预后因素构建nomogram模型,并进行训练组内部和验证组外部验证。分别以nomogram模型与AJCC/UICC分期评估两组患者预后及临床获益。结果:全组1、3、5年生存率分别为69.0%、37.7%、31.0%。多因素分析肿瘤部位、TNM分期、原发肿瘤体积和是否同步化疗是影响食管癌的独立预后因素(均P<0.05)。在训练组和验证组中nomogram模型的一致性指数(C-index)、AUC值均高于AJCC/UICC分期(均P<0.001)。基于nomogram模型分为低、中、高风险亚组与AJCC/UICC分期比较,nomogram模型的生存曲线之间具有显著性差异(P<0.001),且1、3、5年的总生存临床决策曲线(decision curve analysis,DCA)下面积均具有显著性差异。结论:本研究构建的nomogram模型较AJCC/UICC分期具有更好的预测能力,有助于食管癌患者的预后判断及指导个体化治疗。

Automatic delineation of organs at risk in non-small cell lung cancer radiotherapy based on deep learning networks

Objective To introduce an end-to-end automatic segmentation method for organs at risk(OARs)in chest computed tomography(CT)images based on dense connection deep learning and to provide an accurate auto-segmentation model to reduce the workload on radiation oncologists.Methods CT images of 36 lung cancer cases were included in this study.Of these,27 cases were randomly selected as the training set,six cases as the validation set,and nine cases as the testing set.The left and right lungs,cord,and heart were auto-segmented,and the training time was set to approximately 5 h.The testing set was evaluated using geometric metrics including the Dice similarity coefficient(DSC),95%Hausdorff distance(HD95),and average surface distance(ASD).Thereafter,two sets of treatment plans were optimized based on manually contoured OARs and automatically contoured OARs,respectively.Dosimetric parameters including Dmax and Vx of the OARs were obtained and compared.Results The proposed model was superior to U-Net in terms of the DSC,HD95,and ASD,although there was no significant difference in the segmentation results yielded by both networks(P>0.05).Compared to manual segmentation,auto-segmentation significantly reduced the segmentation time by nearly 40.7%(P<0.05).Moreover,the differences in dose-volume parameters between the two sets of plans were not statistically significant(P>0.05).Conclusion The bilateral lung,cord,and heart could be accurately delineated using the DenseNet-based deep learning method.Thus,feature map reuse can be a novel approach to medical image auto-segmentation.

Evaluation on a double-chamber gas-liquid phase discharge reactor for benzene degradation

A double-chamber gas-liquid phase DBD reactor(GLDR), consisting of a gas-phase discharge chamber and a gas-liquid discharge chamber in series, was designed to enhance the degradation of benzene and the emission of NOx. The performance of the GLDR on discharge characteristics,reactive species production and benzene degradation was compared to that of the single-chamber gas phase DBD reactor(GPDR). The effects of discharge gap, applied voltage, initial benzene concentration, gas flow rate and solution conductivity on the degradation and energy yield of benzene in the GLDR were investigated. The GLDR presents a higher discharge power, higher benzene degradation and higher energy yield than that of the GPDR. NO2 emission was remarkably inhibited in the GLDR, possibly due to the dissolution of NO2 in water. The benzene degradation efficiency increased with the applied voltage, but decreased with the initial concentration, gas flow rate, and gas discharge gap, while the solution conductivity presented less influence on benzene degradation. The benzene degradation efficiency and the energy yield reached 61.11% and 1.45 g k Wh-1 at 4 mm total gas discharge gap, 15 k V applied voltage, 200 ppm benzene concentration,0.2 L min-1 gas flow rate and 721 μS cm-1 water conductivity. The intermediates and byproducts during benzene degradation were detected by FT-IR, GC-MS and LC-MS primarily, and phenols,COx, and other aromatic substitutes, O3, NOx, etc, were determined as the main intermediates.According to these detected byproducts, a possible benzene degradation mechanism was proposed.

Computed tomography perfusion imaging evaluation of angiogenesis in patients with pancreatic adenocarcinoma

BACKGROUND Pancreatic adenocarcinoma is one of the most common malignant tumors of the digestive system.More than 80%of patients with pancreatic adenocarcinoma are not diagnosed until late stage and have distant or local metastases.AIM To investigate the value of computed tomography(CT)perfusion imaging in the evaluation of angiogenesis in pancreatic adenocarcinoma patients.METHODS This is a retrospective cohort study.Patients with pancreatic adenocarcinoma and volunteers without pancreatic diseases underwent CT perfusion imaging from December 2014 to August 2017 in Huashan Hospital,Fudan University Shanghai,China.RESULTS A total number of 35 pancreatic adenocarcinoma patients and 33 volunteers were enrolled.The relative blood flow(r BF),and relative blood volume(r BV)were significantly lower in patients with pancreatic adenocarcinoma than in the control group(P<0.05).Conversely,the relative permeability in patients with pancreatic adenocarcinoma was significantly higher than that in controls(P<0.05).In addition,r BF,r BV,and the vascular maturity index(VMI)were significantly lower in gradeⅢ-Ⅳpancreatic adenocarcinoma than in gradeⅠ-Ⅱpancreatic adenocarcinoma(P<0.05).Vascular endothelial growth factor(VEGF),CD105-MVD,CD34-MVD,and angiogenesis rate(AR)were significantly higher in gradeⅢ-Ⅳpancreatic adenocarcinoma than in gradeⅠ-Ⅱpancreatic adenocarcinoma(P<0.05).Significant correlations between r BF and VEGF,CD105-MVD,AR,and VMI(P<0.01)were observed.Moreover,the levels of r BV were statistically significantly correlated with those of VEGF,CD105-MVD,CD34-MVD,and VMI(P<0.01).CONCLUSION Perfusion CT imaging may be an appropriate approach for quantitative assessment of tumor angiogenesis in pancreatic adenocarcinoma.

The eco-innovation mode in China and its impact on carbon emissions:From the exploration/exploitation perspective

The exploration/exploitation perspective is a well-known concept in the strategic management field;however,it has seldom been used to explore and analyze strategy at a national level.This study utilizes this perspective to analyze China's eco-innovation mode in response to climate change.By categorizing eco-innovation into radical and incremental eco-innovation,we examine the relationship between these concepts using Y02 patents as a proxy and panel data from 30 Chinese provinces from 2004 to 2015.The results show that eco-innovation as a whole as well as both radical and incremental innovations are drivers for reducing carbon emissions.Furthermore,contradictory to most previous empirical results related to the complementarity hypothesis,we find a complementary relationship between radical and incremental eco-innovation.These results collectively represent China's unique eco-innovation mode,confirming the assumed diversity of eco-innovation models in different contexts.The results also show the significant positive effects of economic development,urbanization level,industrial structure,and China's opening up on carbon emissions,indicating that economic and social development have not yet been completely dissociated from carbon emissions in China.

Dosimetric analysis of tomotherapy-based intensity-modulated radiotherapy with and without bone marrow sparing for the treatment of cervical cancer

Objective The aim of the study was to compare tomotherapy-based bone marrow-sparing intensity-modulated radiotherapy(BMS-IMRT) with intensity-modulated radiotherapy(IMRT) without entering the pelvic bone marrow as a planning constraint in the treatment of cervical cancer after hysterectomy. Methods BMS-IMRT and IMRT plans were designed for a cohort of nine patients. The prescribed dose was 45 Gy in 1.8 Gy daily fractions, and 95% of the planned target volume received this dose. The doses were computed using a commercially available treatment planning system with the convolution/superposition algorithm. Plans were compared according to dose-volume histogram analysis in terms of planning target volume homogeneity and conformity indices(HI and CI) as well as organ at risk dose and volume parameters. Results BMS-IMRT had advantages over IMRT in terms of CI, but was equivalent to the latter in HI. V5, V10, V20, V30, and V40 of pelvic bone marrow in BMS-IMRT decreased by 0.06%, 17.33%, 22.19%, 13.85%, and 16.46%, respectively, compared with IMRT. Except for V30 of the small bowel and V30 and V40 of the bladder, no statistically significant differences were found between BMS-IMRT and IMRT in the small bowel, bladder, and rectum. Conclusion For cervical cancer patients receiving tomotherapy-based radiotherapy after hysterectomy, BMS-IMRT reduced pelvic bone marrow volume receiving low-dose radiation, and it may be conducive to preventing acute hematologic toxicity.

多组分纳米纤维体系中载流子动力学的有效级联调制及其高效光催化产氢性能研究

利用半导体作为催化剂,将水光催化还原为H_(2),为缓解全球能源危机以及环境污染问题提供了一种经济环保的途径。优化调控载流子动力学行为对提高半导体光催化分解水还原为绿色燃料-H_(2)的活性具有十分重要的意义。目前,基于半导体异质结效应或局域表面等离激元共振的敏化过程来设计和调控半导体基异质结构体系已成为调控载流子动力学行为的一种经典策略。然而,通过精细设计异质结构,合理耦合上述敏化过程,实现载流子动力学的级联调制,从而获得高效的光催化产H_(2)活性仍然任重道远。在本文中,我们通过原位氧化(g-C_(3)N_(4)的剥离和Ag_(2)S)和还原(Ag)反应,将等离激元Ag纳米颗粒(NPs)和两种不同的半导体Ag_(2)SNPs和g-C_(3)N_(4)纳米片(NSs)组装在电纺TiO_(2)纳米纤维(NFs)中,形成了一种新型四元异质组分纳米纤维(HNFs)体系。结合时间分辨光致发光光谱,3D时域有限差分模拟以及对照实验,我们证明了等离激元AgNPs和g-C_(3)N_(4)NSs由于吸收光谱重叠可以诱导从AgNPs到与其相邻的g-C_(3)N_(4)NSs上的等离激元共振能量转移,从而促进上述四元HNFs体系中g-C_(3)N_(4)上光生载流子的产生。同时,由Ag NPs产生的等离激元热电子能够进一步转移到与其相接触的TiO_(2)、g-C_(3)N_(4)、以及Ag_(2)S组分上,促进体系中光生载流子的产生和分离。而且,g-C_(3)N_(4)/TiO_(2)异质界面处的能带结构属于“II型”异质结,而TiO_(2)/Ag_(2)S异质界面处的能带结构属于“I型”异质结。这样可以在gC_(3)N_(4)/TiO_(2)/Ag_(2)S异质界面构建连续的“能带阶梯”,使光生电子从g-C_(3)N_(4)跨越TiO_(2)转移到Ag_(2)S上,从而促进光生电荷-载流子的分离和迁移。因此,将等离激元共振能量转移,热电子转移过程和连续的“能带阶梯”诱导的载流子分离过程合理地整合在所制备的四元Ag/Ag_(2)S/g-C_(3)N_(4)/TiO_(2)HNFs中,从而实现了光生载流子产生、分离和迁移的有效级联调制。因此,在模拟太阳光的照射下,最优的Ag/Ag_(2)S/g-C_(3)N_(4)/TiO_(2)HNFs光催化产H_(2)速率与等比例随机机械混合的TiO_(2)NFs、gC_(3)N_(4)NSs、AgNPs和Ag_(2)SNPs光催化产H_(2)速率相比高~9倍。这种新颖的载流子动力学级联调制为开发高光活性半导体基异质结构体系,实现太阳能-燃料转换提供了一条崭新的途径。

Prussian Blue/Cellulose Acetate Thin Film Composite Nanofiltration Membrane for Molecular Sieving and Catalytic Fouling Resistance

Nanofiltration(NF)membranes as high selective separators are appealing for molecular sieving,which still remains a great challenge for the mixed dyes with same charge.In this study,cellulose acetate(CA)membranes were firstly aminated by ethylene imine polymer(PEI),and then the thin film of metal organic frameworks(MOFs)were constructed onto aminated CA membrane through forward-diffusion,slow crystallization and in situ growth of Fe Co-Prussian blue(FeCo-PB)crystallization layers.The designed PB@CA composite NF membrane shows an ideal rejection for Congo red(CR)/methyl orange(MO)mixture solution,with 99.7%±0.2%for CR and 33.5%±2%for MO.In addition,the composite NF membrane demonstrated good efficiency for photocatalytic degradation of organic fouling(permeability recovery ratio was up to 92%)due to the active FeCo-PB micro-cubes.Thus,this work provides a practical strategy to prepare MOFs mediated thin film composite nanofiltration membrane for precise molecular sieving and catalytic antifouling performances.

Generation of air discharge plasma in the cavities of porous catalysts:a modeling study

A study of the behaviors of air discharge plasma inside a catalyst’s pores is important to understand the plasma catalysis mechanism;however,few articles have reported the generation characteristics of air plasma in the pores of catalysts.The production of air microdischarge in a pore was studied by a two-dimensional fluid model,mainly focusing on the effect of pore size and applied voltage.The results show that an increase in the pore size in the range of 20–100μm facilitates the occurrence of microdischarge in the pore.In addition,at an applied voltage of 9 kV,the ionization of air mainly occurs near the topside of the pore when the pore diameter is less than 20μm,leading to a low plasma density in the pore,but the time-averaged plasma density in the pore reaches a maximum value at a 70μm pore diameter.Moreover,the applied voltage also has an important effect on the production of air microdischarge in the pore.The existence of a pore of 80μm diameter on the dielectric has no obvious influence on the plasma density in the pore at 2 kV applied voltage,but the plasma density in the pore begins to sharply rise when the voltage exceeds 3 kV due to the enhanced air ionization at higher applied voltage.The study indicates that microdischarge can be generated in a pore with a size of tens of micrometers,and the microdischarge in porous catalysts will affect the catalytic degradation efficacy of gaseous pollutants.

Apolipoprotein C1 promotes tumor progression in gastric cancer

Background:Gastric cancer(GC)is a malignancy with the worst prognosis that seriously threatens human health,especially in East Asia.Apolipoprotein C1(apoc1)belongs to the apolipoprotein family.In addition,apoc1 has been associated with various tumors.However,its role in GC remains unclear.Methods:Firstly,we quantified its expression in GC and adjacent tumor tissues,using The Cancer Genome Atlas(TCGA).Next,we assessed cell invasion and migration abilities.Finally,we revealed the role of apoc1 in the tumor microenvironment(TME),immune cell infiltration and drug sensitivity.Results:Firstly,in TCGA database,it has been shown that elevated expression of apoc1 was identified in various cancers,including GC,then we found that high expression of apoc1 was significantly correlated with poor prognosis in GC.Histologically,apoc1 expression is proportional to grade,cancer stage,and T stage.The experimental results showed that apoc1 promoted cell invasion and migration.Then GO,KEGG,and GSEA pathway analyses indicated that apoc1 may be involved in the WNT pathway and immune regulation.Furthermore,we found out the tumor-infiltrating immune cells related to apoc1 in the tumor microenvironment(TME)using TIMER.Finally,we investigated the correlation between apoc1 expression and drug sensitivity,PD-1 and CTLA-4 therapy.Conclusions:These results suggest that apoc1 participates in the evolution of GC,and may represent a potential target for detection and immunotherapy in GC.

镁合金AZ31表面层层组装壳聚糖/聚谷氨酸涂层的体外耐蚀与抗菌性能（英文）

镁合金表面功能化需要获得具有良好耐蚀性和抗菌性的表面。基于壳聚糖与聚谷氨酸之间的静电吸附作用,利用层层组装方法在镁合金AZ31表面获得一种既耐蚀又抗菌的涂层。利用高分辨扫描电子显微镜、傅里叶红外光谱仪以及电化学测试对这种功能涂层进行了表面形貌、化学成分以及耐蚀性能表征。通过平板计数法评定该涂层耐金黄葡萄球菌的性能。结果表明,该涂层具有良好的耐蚀性与抗菌性。

Eubacterium coprostanoligenes alleviates chemotherapy-induced intestinal mucositis by enhancing intestinal mucus barrier

Chemotherapy-induced mucositis represents a severe adverse outcome of cancer treatment,significantly curtailing the efficacy of these treatments and,in some cases,resulting in fatal conse-quences.Despite identifying intestinal epithelial cell damage as a key factor in chemotherapy-induced mucositis,the paucity of effective treatments for such damage is evident.In our study,we discovered that Eubacterium coprostanoligenes promotes mucin secretion by goblet cells,thereby fortifying the integrity of the intestinal mucus barrier.This enhanced barrier function serves to resist microbial invasion and sub-sequently reduces the inflammatory response.Importantly,this effect remains unobtrusive to the anti-tumor efficacy of chemotherapy drugs.Mechanistically,E.copr up-regulates the expression of AUF1,leading to the stabilization of Muc2 mRNA and an increase in mucin synthesis in goblet cells.An espe-cially significant finding is that E.copr activates the AhR pathway,thereby promoting the expression of AUF1.In summary,our results strongly indicate that E.copr enhances the intestinal mucus barrier,effec-tively alleviating chemotherapy-induced intestinal mucositis by activating the AhR/AUFl pathway,consequently enhancing Muc2 mRNA stability.