Objective The aim of this study was to analyze the correlation between the levels of 12 cytokines in the cervical microenvironment and cervical intraepithelial neoplasia in patients with high-risk human papillomavirus...Objective The aim of this study was to analyze the correlation between the levels of 12 cytokines in the cervical microenvironment and cervical intraepithelial neoplasia in patients with high-risk human papillomavirus(HR-HPV)infection.Methods Female patients(n=73)with HR-HPV infection were enrolled and divided into a high-grade squamous intraepithelial lesion(HSIL)group(n=33)and a non-HSIL(N-HSIL)group(n=40),which include low-grade squamous intraepithelial lesions and inflammation.Healthy screening subjects(n=31)with negative HR-HPV results were enrolled as a control group.We examined contemporaneous plasma and secretory cytokines from 25 study subjects to investigate the difference between systemic cytokine profiles and the local microenvironment immunity using the Wilcoxon matched-pairs signed rank test.The 12 cytokines from cervical secretions were compared between the three groups using the Mann-Whitney test,and logistic regression was used to analyze HSIL and N-HSIL.Results There were statistical differences in eight cytokines(IL-2,IL-6,TNF-α,IFN-γ,IL-1β,IL-12p70,IFN-α,and IL-8)between cervical secretion and plasma of the same patient,and seven cytokines were statistically different between the control and other two groups.We selected four independent variables(TNF-α,IFN-γ,IL-12p70,and IFN-α)commonly identified by univariate regression analysis and non-parametric tests for multivariate logistic regression analysis.Based on this model,HSIL could be predicted in patients with HR-HPV infection,with the area under the curve being 0.76.Conclusion The systemic cytokine profile cannot reflect the local microenvironment immunity,and the occurrence of HSIL is related to the cytokine levels in the cervical microenvironment.展开更多
Scientific analysis of aeolian sand environments is fundamental for sustainable disaster mitigation along desert highways.However,significant regional variability in wind energy conditions complicates accurate charact...Scientific analysis of aeolian sand environments is fundamental for sustainable disaster mitigation along desert highways.However,significant regional variability in wind energy conditions complicates accurate characterization of wind regimes and introduces uncertainty in determining optimal monitoring timescales.Moreover,prevailing sand control measures often rely on standardized designs rather than site-specific adaptive strategies.To address these issues,this study proposes an integrated framework for aeolian environment analysis and develops targeted disaster mitigation strategies tailored for desert highways.The proposed framework employs wavelet transform to unravel the periodic characteristics of wind speed time series and integrates multi-source data(including ERA5 wind datasets,sand samples,ASTER GDEM,and multi-temporal remote sensing imagery)to enable a comprehensive aeolian environmental assessment.Concurrently,a suite of adaptive strategies is formulated to mitigate disaster risks along desert highways.Validated through a case study of the Tumushuk-Kunyu Desert Highway in Xinjiang,China,the framework exhibits high accuracy:predictions of annual aeolian sand transport activity show relative errors mostly below 7%against long-term reference sequences,and the calculated resultant drift direction exhibits a strong correlation with observed dune migration,yielding an R-squared value of 0.96.These findings confirm the framework’s reliability and provide a robust basis for designing adaptive,location-specific mitigation strategies,thereby enhancing the sustainability of desert highway infrastructure.展开更多
Highways are a vital component of global transportation infrastructure,but their environmental impact,particularly in terms of carbon emissions,poses significant challenges to achieving global sustainability and clima...Highways are a vital component of global transportation infrastructure,but their environmental impact,particularly in terms of carbon emissions,poses significant challenges to achieving global sustainability and climate goals.This literature review discusses the new area of low-carbon highways,including next-generation construction technologies and near-zero carbon operation strategies.It discusses the purpose of innovative materials,such as low-carbon cements,recycled asphalt,and geopolymers,and intelligent infrastructure solutions,including intelligent traffic control and electric vehicle charging systems.The article also explores the significance of Lifecycle Assessment(LCA)and carbon accounting in the measurement and minimization of the carbon footprint of highways.Even though a lot of progress has been made,there are still several technical,economic,and regulatory obstacles,among which are the prohibitive initial cost of low-carbon technologies and the non-standardization of policies.The future outlook indicates that to alleviate these challenges,a coordinated effort among the research,policy,industry,and communities is necessary.Low-carbon highways can help to have a robust,sustainable transport system that meets global climate goals by incorporating sustainable processes in highway design,construction,and operation.展开更多
Regarding the freezing damage of high-grade highway subgrade in seasonally frozen area,the thesis explores the effect on the dynamic behavior of subgrade soil under freeze–thaw cycles and draws the change law of para...Regarding the freezing damage of high-grade highway subgrade in seasonally frozen area,the thesis explores the effect on the dynamic behavior of subgrade soil under freeze–thaw cycles and draws the change law of parameters(including dynamic strength,dynamic cohesion,and internal friction angle;and dynamic elastic modulus)of high-grade highway-subgrade soil with the number of freeze–thaw cycles.It aims to provide the reference for operation and maintenance of a high-grade highway.Conclusions:(1)Dynamic strength tends to decline evidently after freeze–thaw cycles,with 60%~70%decline after three cycles,and remains stable after five to seven cycles.(2)With the number of freeze–thaw cycles increasing,the internal friction angle fluctuates within a certain range without an obvious change law,only presenting the tendency of dropping off.The dynamic cohesion declines obviously,about 20%~40%after seven freeze–thaw cycles,and then tends to be stable.(3)With the number of freeze-thaw cycles increasing,the dynamic elastic modulus and maximum dynamic elastic modulus are inclined to decrease distinctly.After five freeze–thaw cycles,the former declines 30%~40%and then remains stable.Meanwhile,the latter falls 20%~40%.展开更多
Located in the eastern margin of the Tibetan Plateau,the Gonghe-Yushu high-grade highway was the first of its kind in plateau permafrost regions.Most of the road sections along the high-grade highway are unstable or e...Located in the eastern margin of the Tibetan Plateau,the Gonghe-Yushu high-grade highway was the first of its kind in plateau permafrost regions.Most of the road sections along the high-grade highway are unstable or extremely unstable warm permafrost with an average annual ground temperature above−1℃,which is vulnerable to global warming and human engineering activities.This paper describes permafrost characteristics,roadbed design,and operation of the Gonghe-Yushu high-grade highway in detail.It is found that thaw settlement of warm and ice-rich permafrost is the main cause of subgrade subsidence in permafrost sections of this highway due to insufficient permafrost survey and drainage design.It is recommended that the interception and drainage system's design be optimized,and the permafrost upper limit and the variation of ground temperature be further investigated to provide essential data for the treatment of highway distress.It should be emphasized that protecting permafrost soil environment and optimized engineering design are crucial to successful high-grade highway engineering in permafrost regions.展开更多
The research shows that the selection of pavement type is very important for the thermal stability of high-grade highway embankment in permafrost regions because of the different solar absorption rates between asphalt...The research shows that the selection of pavement type is very important for the thermal stability of high-grade highway embankment in permafrost regions because of the different solar absorption rates between asphalt concrete and asphalt concrete pavement.In this paper,the common embankment of high-grade highway in permafrost regions is selected as the research object to study the influence of asphalt concrete and cement concrete pavement on the embankment temperature,freeze-thaw cycle process and the change law of the permafrost table,which provides a basis for the use of reasonable pavement materials in permafrost regions.展开更多
High-grade pancreatic intraepithelial neoplasia is a challenging diagnosis and itdoes not exhibit mass lesions. It is suspected based on changes in the mainpancreatic duct in magnetic resonance cholangiopancreatograph...High-grade pancreatic intraepithelial neoplasia is a challenging diagnosis and itdoes not exhibit mass lesions. It is suspected based on changes in the mainpancreatic duct in magnetic resonance cholangiopancreatography. Sometimesonly an unclear duct shows in magnetic resonance cholangiopancreatographywith no focal strictures and upstream dilatation of the main pancreatic duct. Serialpancreatic juice cytology is valuable in diagnosis of those patients.展开更多
Myofibroblastic sarcoma(MS)is a rare malignant soft tissue tumor characterized by myofibroblasts.It most commonly arises in the head and neck region,especially the tongue,with rare occurrences in the limbs.MS exhibits...Myofibroblastic sarcoma(MS)is a rare malignant soft tissue tumor characterized by myofibroblasts.It most commonly arises in the head and neck region,especially the tongue,with rare occurrences in the limbs.MS exhibits varying histopathology,ranging from low-to high-grade,with diverse subtypes showing different clinical behaviors and prognoses.This article reports the first case of high-grade MS in the hand,adding to the limited documentation of this rare condition.Here,we present the case of a 30-year-old healthy female with a year-long history of progressive shortening,mobility loss,and weakness in the first finger of the left hand.Left-hand imaging revealed a lytic,cottony tumor involving the entire first metacarpal.Following surgical resection,which included metatarsal grafting and joint reconstruction,a diagnosis of high-grade MS was confirmed based on histological manifestations and immunohistochemical staining,which was further classified as grade 2 according to the French Federation of Cancer Centers Sarcoma Group system.Postoperative radiotherapy was administered and the patient experienced a successful recovery without graft osteonecrosis.The patient regained 90%mobility and strength,without shortening,after surgical resection and radiotherapy.Six months post-surgery,the patient reported full hand functionality.MS is a rare tumor that infrequently affects bones and is often misdiagnosed owing to its controversial characteristics.The initial treatment should focus on complete resection with negative margins,followed by reconstructive surgery to preserve function.Further case studies are needed to establish standardized surgical treatment protocols.展开更多
Although with aggressive standards of care like surgical resection,chemotherapy,and radiation,high-grade gliomas(HGGs)and brain metastases(BM)treatment has remained challenging for more than two decades.However,techno...Although with aggressive standards of care like surgical resection,chemotherapy,and radiation,high-grade gliomas(HGGs)and brain metastases(BM)treatment has remained challenging for more than two decades.However,technological advances in this field and immunotherapeutic strategies have revolutionized the treatment of HGGs and BM.Immunotherapies like immune checkpoint inhibitors,CAR-T targeting,oncolytic virus-based therapy,bispecific antibody treatment,and vaccination approaches,etc.,are emerging as promising avenues offering new hope in refining patient’s survival benefits.However,selective trafficking across the blood-brain barrier(BBB),immunosuppressive tumor microenvironment(TME),metabolic alteration,and tumor heterogeneity limit the therapeutic efficacy of immunotherapy for HGGs and BM.Furthermore,to address this concern,the NanoBioTechnology-based bioinspired delivery system has been gaining tremendous attention in recent years.With technological advances such as Trojan horse targeting and infusing/camouflaging nanoparticles surface with biological molecules/cells like immunocytes,erythrocytes,platelets,glioma cell lysate and/or integrating these strategies to get hybrid membrane for homotypic recognition.These biomimetic nanotherapy offers advantages over conventional nanoparticles,focusing on greater target specificity,increased circulation stability,higher active loading capacity,BBB permeability(inherent inflammatory chemotaxis of neutrophils),decreased immunogenicity,efficient metabolism-based combinatorial effects,and prevention of tumor recurrence by induction of immunological memory,etc.provide new age of improved immunotherapies outcomes against HGGs and BM.In this review,we emphasize on neuro-immunotherapy and the versatility of these biomimetic nano-delivery strategies for precise targeting of hard-to-treat andmost lethal HGGs and BM.Moreover,the challenges impeding the clinical translatability of these approaches were addressed to unmet medical needs of brain cancers.展开更多
BACKGROUND Claudin-6(CLDN6),a tight junction protein typically restricted to embryonic tissues,is re-expressed in various cancers.However,its prognostic significance in high-grade endometrial carcinoma(HGEC)remains un...BACKGROUND Claudin-6(CLDN6),a tight junction protein typically restricted to embryonic tissues,is re-expressed in various cancers.However,its prognostic significance in high-grade endometrial carcinoma(HGEC)remains unclear.AIM To investigate the expression pattern of CLDN6 in HGEC and assess its correlation with clinicopathological parameters and patient survival.METHODS Immunohistochemical analysis of CLDN6 expression was performed on formalinfixed,paraffin-embedded tissues from 80 patients diagnosed with HGEC.Associations between CLDN6 expression and histological subtype,the International Federation of Gynecology and Obstetrics(FIGO)stage,depth of myometrial invasion,lymphovascular space invasion,recurrence,and survival outcomes were statistically analysed.Univariate and multivariate Cox regression models were used to identify independent prognostic factors.RESULTS High CLDN6 expression was detected in a subset of HGEC patients and was significantly associated with nonendometrioid histology(P=0.026),advanced FIGO stage(P=0.015),deep myometrial invasion(P=0.038),and recurrence(P=0.002).While Kaplan-Meier analysis did not reveal a statistically significant difference in disease-free survival or overall survival between the high CLDN6 expression group and the low CLDN6 expression group,multivariate Cox regression revealed that CLDN6 overexpression was an independent predictor of shorter disease-free survival[hazard ratio(HR)=68.98,P=0.022]and overall survival(HR=24.023,P=0.038).CONCLUSION CLDN6 overexpression is associated with aggressive tumor features and poor clinical outcomes in HGEC,suggesting its utility as a prognostic biomarker and potential therapeutic target.展开更多
The superconducting high gradient magnetic separation(S-HGMS)technology can be used to effectively extract silica from iron ore tailings(IOTs).However,particle agglomeration in strong magnetic fields poses a challenge...The superconducting high gradient magnetic separation(S-HGMS)technology can be used to effectively extract silica from iron ore tailings(IOTs).However,particle agglomeration in strong magnetic fields poses a challenge in achieving optimal performance.In this study,we investigated the agglomeration of IOT particles and the mechanisms for its inhibition through surface analysis,density functional theory(DFT),and extended Derjaguin-Landau-Verwey-Overbeek(EDLVO)theory.Hematite was found to exhibit the highest magnetic moment among the minerals present in IOTs,making it particularly prone to magnetic agglomeration.The addition of the dispersant SDSH into the slurry was essential in promoting the dispersion of IOT particles during the S-HGMS process.This dispersant hydrolyzed to form HPO_(4)^(2-)and RSO_(3)^(-)groups in the solution,which then chemically adsorbed onto the metal ions exposed on the surfaces of non-quartz particles,increasing interparticle electrostatic repulsion.Furthermore,the RSO_(3)^(-)groups physically adsorbed onto the surface of quartz particles,resulting in strong steric repulsion and enhancing the hydrophilicity of the particle surfaces,thereby inhibiting magnetic agglomeration between the particles.Under optimal conditions,the SiO_(2)grade of the obtained high-grade silica powder increased from an initial value of 76.32%in IOTs to 97.42%,achieving a SiO_(2)recovery rate of 54.81%,which meets the requirements for quartz sand used in glass preparation.This study provides valuable insights into the magnetic agglomeration of IOT particles and its inhibition while providing a foundation for regulating S-HGMS processes.展开更多
BACKGROUND Recent advancements in artificial intelligence(AI)have significantly enhanced the capabilities of endoscopic-assisted diagnosis for gastrointestinal diseases.AI has shown great promise in clinical practice,...BACKGROUND Recent advancements in artificial intelligence(AI)have significantly enhanced the capabilities of endoscopic-assisted diagnosis for gastrointestinal diseases.AI has shown great promise in clinical practice,particularly for diagnostic support,offering real-time insights into complex conditions such as esophageal squamous cell carcinoma.CASE SUMMARY In this study,we introduce a multimodal AI system that successfully identified and delineated a small and flat carcinoma during esophagogastroduodenoscopy,highlighting its potential for early detection of malignancies.The lesion was confirmed as high-grade squamous intraepithelial neoplasia,with pathology results supporting the AI system’s accuracy.The multimodal AI system offers an integrated solution that provides real-time,accurate diagnostic information directly within the endoscopic device interface,allowing for single-monitor use without disrupting endoscopist’s workflow.CONCLUSION This work underscores the transformative potential of AI to enhance endoscopic diagnosis by enabling earlier,more accurate interventions.展开更多
BACKGROUND High-grade serous ovarian carcinoma(HGSOC)is among the most lethal gynecological malignancies,characterized by late-stage diagnosis,extensive peritoneal dissemination,and limited treatment options,resulting...BACKGROUND High-grade serous ovarian carcinoma(HGSOC)is among the most lethal gynecological malignancies,characterized by late-stage diagnosis,extensive peritoneal dissemination,and limited treatment options,resulting in poor survival outcomes.The tumor microenvironment plays a critical role in disease progression and therapy resistance,with CD4+T cells exhibiting significant plasticity and functional heterogeneity.Regulatory T cells(Tregs)are particularly implicated in immune suppression and tumor evasion.However,the spatial distribution,functional states,and prognostic significance of CD4+T cell subtypes in HGSOC remain poorly understood.AIM To characterize the functional heterogeneity and tissue-specific distributions of CD4+T cell subtypes in HGSOC and identify biomarkers for therapy.METHODS We analyzed single-cell RNA sequencing(scRNA-seq)data from 42 HGSOC patients,examining samples collected from adnexal tissues and ascites.CD4+T cells were identified and classified into subtypes using unsupervised clustering and marker gene analysis.Functional profiling was performed using pathway enrichment,differential expression analysis,and functional signature scoring.Kaplan-Meier survival and Cox proportional hazards modeling were conducted to evaluate the prognostic value of CD4+T cell subtypes.RESULTS Distinct distributions of CD4+T cell subtypes were identified between adnexal tissues and ascites.Naive CD4+T cells were predominant in ascites,while Tregs and CXCL13-expressing CD4+T cells were enriched in adnexal tissues.Tregs were further categorized into four subtypes(Treg1,Treg2,Treg3,and TISG),each exhibiting unique molecular signatures and tissue-specific adaptations.Treg3 cells,enriched in adnexal tissues,were characterized by high levels of activation and exhaustion markers,correlating with poor clinical outcomes in HGSOC patients.CONCLUSION Treg3 cells drive immune suppression and tumor progression in HGSOC,making them a key immunotherapy target.Their adnexal enrichment highlights the need for tissue-specific immune profiling in precision treatment.展开更多
The Triassic Xujiahe Formation in the slope zone of the Sichuan foreland basin is a new field of continental tight gas exploration in recent years.The fourth member of the Xujiahe Formation(Xu4 Member),the major inter...The Triassic Xujiahe Formation in the slope zone of the Sichuan foreland basin is a new field of continental tight gas exploration in recent years.The fourth member of the Xujiahe Formation(Xu4 Member),the major interval in the Jianyang Block of the Tianfu gas field in the basin,is characterized by considerable buried depth,tight reservoirs,and strong heterogeneity.By using cast thin section,X-ray diffraction(XRD),scanning electron microscopy(SEM),fluid inclusion thermometry,and core analysis,the reservoir rock types,dominant diageneses,diagenetic history,and controls on high-graded reservoirs were investigated.It is found that the Xu4 Member in Jianyang mainly consists of lithic feldspar sandstones and feldspar lithic sandstones,followed by lithic quartz sandstones.High-energy hydrodynamic conditions in the microfacies of underwater distributary channels and mouth bars are beneficial to the preservation of primary pores and the occurrence of secondary pores,and there are no significant differences in petrophysical properties between these two microfacies.Compaction and calcareous cementation are the dominant controls on reservoir porosity decrease in the Xujiahe Formation;corrosion is the major contributor to porosity increase by generating secondary dissolved pores,e.g.intragranular dissolved pores and intergranular dissolved pores,as major reservoir space in the study area.Fracture zones around the faults inside the Xujiahe Formation(fourth‒order faults)are favorable for proximal tight gas accumulation,preservation,and production.The research findings have been successfully applied to explore the Xujiahe Formation in the slope zone of the Sichuan foreland basin.They can be referential for other similar tight sandstone gas accumulations.展开更多
Objective:The expression of programmed death 1(PD-1)on CD8^(+)T cells is associated with their activation and exhaustion,while CD57 serves as a senescence marker.The impact of PD-1^(+)and CD57^(+)CD8^(+)T cells on the...Objective:The expression of programmed death 1(PD-1)on CD8^(+)T cells is associated with their activation and exhaustion,while CD57 serves as a senescence marker.The impact of PD-1^(+)and CD57^(+)CD8^(+)T cells on the prognosis of patients with advanced high-grade serous ovarian cancer(HGSOC)remain unclear.Methods:We assessed the percentages of PD-1^(+)and CD57^(+)CD8^(+)T cells in tumor-infiltrating lymphocytes(TILs,n=85)and tumor ascites lymphocytes(TALs,n=87)using flow cytometry.The optimal cutoffs for these markers in TILs and TALs were determined through the log-rank maximization method.Gene expression analysis elucidated the tumor immune microenvironment(TIME,n=36).Results:Patients with higher PD-1^(+)CD8^(+)TILs(>87.8%)exhibited longer platinum-free interval(PFI)and overall survival(OS).In contrast,those with elevated CD57^(+)CD8^(+)TALs(>28.69%)were more likely to experience chemotherapy and had lower complete remission rates,shorter PFI and OS.PD-1^(+)CD8^(+)TILs are primarily displayed an effector memory state with strong proliferative and secretory capabilities.Approximately 50%of CD57^(+)CD8^(+)TALs were terminally differentiated,exhibiting significantly impaired proliferation.Based on the proportions of PD-1^(+)CD8^(+)TILs and CD57^(+)CD8^(+)TALs,patients were categorized into good,median and poor prognosis groups,with median PFI of 47.78,27.29 and 11.96 months,respectively(P<0.0001).Median OS for these groups was not reach,49.23 and 30.92 months,respectively(P<0.0001).Patients with poor prognosis exhibit significantly reduced CD8^(+)T cell proportion and increased M2 macrophage in the TIME,alongside downregulation of multiple T cell activation-related pathways.Conclusions:Lower levels of PD-1^(+)CD8^(+)TILs and higher CD57^(+)CD8^(+)TALs,assessed prior to treatment,correlated with poor prognosis and suppressive TIME in advanced HGSOC.展开更多
Investigating the wind-sand flow response regularity in the longitudinal slope sections of desert highways provides a scientific basis for selecting the slope of desert roads.This study uses the Tengger Desert section...Investigating the wind-sand flow response regularity in the longitudinal slope sections of desert highways provides a scientific basis for selecting the slope of desert roads.This study uses the Tengger Desert section of the Wuhai-Maqin Expressway as a case study,employing CFD numerical simulation methods to calculate and analyze the wind-sand flow field distribution characteristics in different longitudinal slope sections.The results show that:(1)Along with the direction of the incoming flow,the windward and leeward slope toes of the embankment are low-wind-speed zones,with the wind speed at the leeward slope toe being even lower.The higher the embankment,the larger the low-wind-speed zone at the windward and leeward slope toes.As the longitudinal slope increases,the extent of the lowwind-speed zone at the same location along the route also increases.(2)Along the route direction,the wind speed at the windward and leeward slope toes decreases as embankment height increases.At the embankment toe,sand particles are transported from the top to the bottom of the longitudinal slope,and the greater the longitudinal slope,the stronger the transport effect.(3)Along the route direction,the sand accumulation around the embankment gradually gathers toward the bottom of the longitudinal slope as the slope increases.When the longitudinal slope is 3%and 4%,the trend of sand accumulation moving from the windward side at the end of the route to the leeward side at the start of the route is more significant.When the longitudinal slope is less than or equal to 3%,severe sand accumulation within the embankment range is reduced by 86.4%or more compared to when the slope is 4%.(4)Under the same longitudinal slope,the higher the embankment height,the smaller its transport rate.When the embankment height is the same,the greater the longitudinal slope,the greater the embankment transport rate.展开更多
Sand control engineering plays a pivotal role in ensuring the safe operation of transportation corridors that traverse desertified areas.Evaluating the effectiveness of these interventions provides a crucial scientifi...Sand control engineering plays a pivotal role in ensuring the safe operation of transportation corridors that traverse desertified areas.Evaluating the effectiveness of these interventions provides a crucial scientific basis for mitigating aeolian hazards and guiding the sustainable management of fragile and arid ecosystems.In this study,we investigated a representative section of Highway S315,which is prone to windblown sand hazards,in Ejin Banner,northern China.By integrating segmented measurements with unmanned aerial vehicle(UAV)-based oblique photogrammetry,we quantitatively characterized the spatial and temporal evolution of sand accumulation around multiple sand control structures and assessed their blocking efficiency.Complementary road sand-removal records and meteorological observations were analyzed to evaluate the long-term performance of engineering measures.Our results showed that sand accumulation behind high vertical sand barriers typically exhibited a triangular cross-sectional morphology,with a gently inclined stoss slope and a steep lee slope.The shape and volume of these deposits evolved dynamically in response to variations in the prevailing wind regime,reflecting strong feedback between barrier geometry and local airflow redistribution.In contrast,the low-profile checkerboard sand barriers displayed a three-stage morphological trajectory—initial accumulation,edge intensification,and functional decline—indicating a progressive loss of sand-trapping capacity as burial proceeded.Sand accumulation was markedly greater on the highway's western(upwind)side than on the eastern(downwind)side,with 70.0%–90.0%of the airborne sediment flux intercepted by the upwind structures.From 2015 to 2020,mean annual wind speeds remained stable(2.68±0.04 m/s),while precipitation varied from 22.6 to 103.7 mm.However,the annual sand removal volume from the road decreased consistently,confirming the enhanced mitigation effect of multi-level protective system.These findings highlight the coupled interactions between engineering design,wind–sand dynamics,and topographic context.Beyond their immediate protective role,well-designed sand control systems also contribute to the prevention of regional desertification by stabilizing mobile dunes and fostering conditions favorable for ecological restoration.The insights gained here provide both theoretical and practical support for optimizing sand control engineering and advancing sustainable hazard mitigation in arid and semi-arid areas.展开更多
To uncover the decision-making mechanisms and evolutionary dynamics of multiple stakeholders in highway noise pollution control,a three-party evolutionary game model involving the government,operators,and the public i...To uncover the decision-making mechanisms and evolutionary dynamics of multiple stakeholders in highway noise pollution control,a three-party evolutionary game model involving the government,operators,and the public is constructed.The operation period is divided into different stages for differentiated analysis.A simulation analysis was performed on the Lituo sinking section of the Beijing-Hong Kong-Macao Highway to assess the impact of variations in critical elements on the system.The results indicate that the Lituo sinking section of the Beijing-Hong Kong-Macao Highway is currently in its early stage of development,with the corresponding strategies being active regulation,excessive emissions,and supervision.When the cost of the government’s active regulation decreases from 1×10^(5) to 5×10^(4) yuan,the system converges more rapidly toward the active regulation strategy.When the cost of the operator’s excessive emissions increases from 14.08×10^(6) to 20.00×10^(6) yuan,the system drives the operator toward the standardized emission strategy.In addition,when the cost of public supervision decreases from 15×10^(4) to 5×10^(4) yuan and the compensation paid by operators to the public increases from 1.288×10^(6) to 2.576×10^(6) yuan,the system converges more quickly toward the supervision strategy.The cost of the operator’s excessive emissions serves as the core decision variable for achieving the ideal equilibrium in the three-party game involving government active regulation,operator standardized emissions,and public supervision.展开更多
With rapid development of economy and emergence of more and more high-grade residences,it had highlighted that high-grade residence was the inevitable tendency of economic development and urban construction.Based on t...With rapid development of economy and emergence of more and more high-grade residences,it had highlighted that high-grade residence was the inevitable tendency of economic development and urban construction.Based on the fact that high-grade residences paid more attention to harmony of human and architecture with nature and required higher for landscaping,the paper emphasized that landscape quality of high-grade residences was the key factor deciding quality of the residence.In view of insufficiencies of plant landscaping planning in high-grade residences at home and abroad,by taking high-grade residences in Hangzhou City for example,analysis had been conducted by selecting typical cases.It pointed out that plants disposition in high-grade residences was unreasonable,architectures and landscapes were isolated,and greening ratio was stressed while design was neglected.And then,corresponding solutions had been proposed.In terms of plants selection,it should reasonably utilize native tree species,and properly select new and high-quality plant species.In terms of harmonious unity between plant landscape and architecture,it should lay stress on unity between sensory design and comfort design.In terms of plant design and disposition,it should stick to the theme of "residential environment",so as to rationalize plant design and disposition,and create more comfortable residential environment.展开更多
In order to improve the smoothness of traffic flow on bidirectional two-lane highways, an analytical method is proposed to optimize the minimum spacing of the signalized intersections. The minimum signal spacing is de...In order to improve the smoothness of traffic flow on bidirectional two-lane highways, an analytical method is proposed to optimize the minimum spacing of the signalized intersections. The minimum signal spacing is determined by two parts, including the necessary distance for stabilizing the traffic flow after it passes through the signalized intersections and the length of the upstream functional area of intersection. For the former, based on the platoon dispersion theory, the stable distance determination problem of traffic flow is studied and a model of dispersion degrees varying with the distance from the upstream intersection is presented, in which the time headway is intended to yield the shifted negative exponential distribution. The parameters of the model for medal and collector highways are estimated respectively based on the field data. Then, the section at which the slope of dispersion degree curve equals -0.1 is regarded as the beginning of the dispersion stable state. The length of the intersection upstream functional area is determined by three parts, including the distance traveled during perception-reaction time, the distance traveled while a driver decelerates to a stop, and the queue storage length. Based on the above procedures, the minimum signal spacing of each highway category is proposed.展开更多
基金supported by the National Key Research and Development Program of China(2023YFC2308800)the Natural Science Foundation of Shanghai(25ZR1402053)the Key Discipline of Public Health of the Shanghai Municipal Health Commission(Grant No.GWVI-11.1-07).
文摘Objective The aim of this study was to analyze the correlation between the levels of 12 cytokines in the cervical microenvironment and cervical intraepithelial neoplasia in patients with high-risk human papillomavirus(HR-HPV)infection.Methods Female patients(n=73)with HR-HPV infection were enrolled and divided into a high-grade squamous intraepithelial lesion(HSIL)group(n=33)and a non-HSIL(N-HSIL)group(n=40),which include low-grade squamous intraepithelial lesions and inflammation.Healthy screening subjects(n=31)with negative HR-HPV results were enrolled as a control group.We examined contemporaneous plasma and secretory cytokines from 25 study subjects to investigate the difference between systemic cytokine profiles and the local microenvironment immunity using the Wilcoxon matched-pairs signed rank test.The 12 cytokines from cervical secretions were compared between the three groups using the Mann-Whitney test,and logistic regression was used to analyze HSIL and N-HSIL.Results There were statistical differences in eight cytokines(IL-2,IL-6,TNF-α,IFN-γ,IL-1β,IL-12p70,IFN-α,and IL-8)between cervical secretion and plasma of the same patient,and seven cytokines were statistically different between the control and other two groups.We selected four independent variables(TNF-α,IFN-γ,IL-12p70,and IFN-α)commonly identified by univariate regression analysis and non-parametric tests for multivariate logistic regression analysis.Based on this model,HSIL could be predicted in patients with HR-HPV infection,with the area under the curve being 0.76.Conclusion The systemic cytokine profile cannot reflect the local microenvironment immunity,and the occurrence of HSIL is related to the cytokine levels in the cervical microenvironment.
基金jointly funded by the Joint Funds of the National Natural Science Foundation of China(Grant No.U2568210)the Interdisciplinary Research Program of Shihezi University(Grant No.JCYJ202317)the National Natural Science Foundation of China(Grant No.12362035)。
文摘Scientific analysis of aeolian sand environments is fundamental for sustainable disaster mitigation along desert highways.However,significant regional variability in wind energy conditions complicates accurate characterization of wind regimes and introduces uncertainty in determining optimal monitoring timescales.Moreover,prevailing sand control measures often rely on standardized designs rather than site-specific adaptive strategies.To address these issues,this study proposes an integrated framework for aeolian environment analysis and develops targeted disaster mitigation strategies tailored for desert highways.The proposed framework employs wavelet transform to unravel the periodic characteristics of wind speed time series and integrates multi-source data(including ERA5 wind datasets,sand samples,ASTER GDEM,and multi-temporal remote sensing imagery)to enable a comprehensive aeolian environmental assessment.Concurrently,a suite of adaptive strategies is formulated to mitigate disaster risks along desert highways.Validated through a case study of the Tumushuk-Kunyu Desert Highway in Xinjiang,China,the framework exhibits high accuracy:predictions of annual aeolian sand transport activity show relative errors mostly below 7%against long-term reference sequences,and the calculated resultant drift direction exhibits a strong correlation with observed dune migration,yielding an R-squared value of 0.96.These findings confirm the framework’s reliability and provide a robust basis for designing adaptive,location-specific mitigation strategies,thereby enhancing the sustainability of desert highway infrastructure.
文摘Highways are a vital component of global transportation infrastructure,but their environmental impact,particularly in terms of carbon emissions,poses significant challenges to achieving global sustainability and climate goals.This literature review discusses the new area of low-carbon highways,including next-generation construction technologies and near-zero carbon operation strategies.It discusses the purpose of innovative materials,such as low-carbon cements,recycled asphalt,and geopolymers,and intelligent infrastructure solutions,including intelligent traffic control and electric vehicle charging systems.The article also explores the significance of Lifecycle Assessment(LCA)and carbon accounting in the measurement and minimization of the carbon footprint of highways.Even though a lot of progress has been made,there are still several technical,economic,and regulatory obstacles,among which are the prohibitive initial cost of low-carbon technologies and the non-standardization of policies.The future outlook indicates that to alleviate these challenges,a coordinated effort among the research,policy,industry,and communities is necessary.Low-carbon highways can help to have a robust,sustainable transport system that meets global climate goals by incorporating sustainable processes in highway design,construction,and operation.
基金funded by the National Natural Science Foundation of China (No. 51378057)
文摘Regarding the freezing damage of high-grade highway subgrade in seasonally frozen area,the thesis explores the effect on the dynamic behavior of subgrade soil under freeze–thaw cycles and draws the change law of parameters(including dynamic strength,dynamic cohesion,and internal friction angle;and dynamic elastic modulus)of high-grade highway-subgrade soil with the number of freeze–thaw cycles.It aims to provide the reference for operation and maintenance of a high-grade highway.Conclusions:(1)Dynamic strength tends to decline evidently after freeze–thaw cycles,with 60%~70%decline after three cycles,and remains stable after five to seven cycles.(2)With the number of freeze–thaw cycles increasing,the internal friction angle fluctuates within a certain range without an obvious change law,only presenting the tendency of dropping off.The dynamic cohesion declines obviously,about 20%~40%after seven freeze–thaw cycles,and then tends to be stable.(3)With the number of freeze-thaw cycles increasing,the dynamic elastic modulus and maximum dynamic elastic modulus are inclined to decrease distinctly.After five freeze–thaw cycles,the former declines 30%~40%and then remains stable.Meanwhile,the latter falls 20%~40%.
基金supported by the National Natural Science Foundation of China(Nos.41801046,42161026)the Natural Science Foundation of Qinghai Province(No.2021-ZJ-716)the Transportation Science and Technology Project of Qinghai Province(No.2019-06&No.2018-02).
文摘Located in the eastern margin of the Tibetan Plateau,the Gonghe-Yushu high-grade highway was the first of its kind in plateau permafrost regions.Most of the road sections along the high-grade highway are unstable or extremely unstable warm permafrost with an average annual ground temperature above−1℃,which is vulnerable to global warming and human engineering activities.This paper describes permafrost characteristics,roadbed design,and operation of the Gonghe-Yushu high-grade highway in detail.It is found that thaw settlement of warm and ice-rich permafrost is the main cause of subgrade subsidence in permafrost sections of this highway due to insufficient permafrost survey and drainage design.It is recommended that the interception and drainage system's design be optimized,and the permafrost upper limit and the variation of ground temperature be further investigated to provide essential data for the treatment of highway distress.It should be emphasized that protecting permafrost soil environment and optimized engineering design are crucial to successful high-grade highway engineering in permafrost regions.
基金supported by the National Natural Science Foundation of China(Nots.41801046,42161026)the Natural Science Foundation of Qinghai Province(No.2021-ZJ-716)the Transportation Science and Technology Project of Qinghai Province(No.2019-06&No.2018-02).
文摘The research shows that the selection of pavement type is very important for the thermal stability of high-grade highway embankment in permafrost regions because of the different solar absorption rates between asphalt concrete and asphalt concrete pavement.In this paper,the common embankment of high-grade highway in permafrost regions is selected as the research object to study the influence of asphalt concrete and cement concrete pavement on the embankment temperature,freeze-thaw cycle process and the change law of the permafrost table,which provides a basis for the use of reasonable pavement materials in permafrost regions.
文摘High-grade pancreatic intraepithelial neoplasia is a challenging diagnosis and itdoes not exhibit mass lesions. It is suspected based on changes in the mainpancreatic duct in magnetic resonance cholangiopancreatography. Sometimesonly an unclear duct shows in magnetic resonance cholangiopancreatographywith no focal strictures and upstream dilatation of the main pancreatic duct. Serialpancreatic juice cytology is valuable in diagnosis of those patients.
文摘Myofibroblastic sarcoma(MS)is a rare malignant soft tissue tumor characterized by myofibroblasts.It most commonly arises in the head and neck region,especially the tongue,with rare occurrences in the limbs.MS exhibits varying histopathology,ranging from low-to high-grade,with diverse subtypes showing different clinical behaviors and prognoses.This article reports the first case of high-grade MS in the hand,adding to the limited documentation of this rare condition.Here,we present the case of a 30-year-old healthy female with a year-long history of progressive shortening,mobility loss,and weakness in the first finger of the left hand.Left-hand imaging revealed a lytic,cottony tumor involving the entire first metacarpal.Following surgical resection,which included metatarsal grafting and joint reconstruction,a diagnosis of high-grade MS was confirmed based on histological manifestations and immunohistochemical staining,which was further classified as grade 2 according to the French Federation of Cancer Centers Sarcoma Group system.Postoperative radiotherapy was administered and the patient experienced a successful recovery without graft osteonecrosis.The patient regained 90%mobility and strength,without shortening,after surgical resection and radiotherapy.Six months post-surgery,the patient reported full hand functionality.MS is a rare tumor that infrequently affects bones and is often misdiagnosed owing to its controversial characteristics.The initial treatment should focus on complete resection with negative margins,followed by reconstructive surgery to preserve function.Further case studies are needed to establish standardized surgical treatment protocols.
文摘Although with aggressive standards of care like surgical resection,chemotherapy,and radiation,high-grade gliomas(HGGs)and brain metastases(BM)treatment has remained challenging for more than two decades.However,technological advances in this field and immunotherapeutic strategies have revolutionized the treatment of HGGs and BM.Immunotherapies like immune checkpoint inhibitors,CAR-T targeting,oncolytic virus-based therapy,bispecific antibody treatment,and vaccination approaches,etc.,are emerging as promising avenues offering new hope in refining patient’s survival benefits.However,selective trafficking across the blood-brain barrier(BBB),immunosuppressive tumor microenvironment(TME),metabolic alteration,and tumor heterogeneity limit the therapeutic efficacy of immunotherapy for HGGs and BM.Furthermore,to address this concern,the NanoBioTechnology-based bioinspired delivery system has been gaining tremendous attention in recent years.With technological advances such as Trojan horse targeting and infusing/camouflaging nanoparticles surface with biological molecules/cells like immunocytes,erythrocytes,platelets,glioma cell lysate and/or integrating these strategies to get hybrid membrane for homotypic recognition.These biomimetic nanotherapy offers advantages over conventional nanoparticles,focusing on greater target specificity,increased circulation stability,higher active loading capacity,BBB permeability(inherent inflammatory chemotaxis of neutrophils),decreased immunogenicity,efficient metabolism-based combinatorial effects,and prevention of tumor recurrence by induction of immunological memory,etc.provide new age of improved immunotherapies outcomes against HGGs and BM.In this review,we emphasize on neuro-immunotherapy and the versatility of these biomimetic nano-delivery strategies for precise targeting of hard-to-treat andmost lethal HGGs and BM.Moreover,the challenges impeding the clinical translatability of these approaches were addressed to unmet medical needs of brain cancers.
文摘BACKGROUND Claudin-6(CLDN6),a tight junction protein typically restricted to embryonic tissues,is re-expressed in various cancers.However,its prognostic significance in high-grade endometrial carcinoma(HGEC)remains unclear.AIM To investigate the expression pattern of CLDN6 in HGEC and assess its correlation with clinicopathological parameters and patient survival.METHODS Immunohistochemical analysis of CLDN6 expression was performed on formalinfixed,paraffin-embedded tissues from 80 patients diagnosed with HGEC.Associations between CLDN6 expression and histological subtype,the International Federation of Gynecology and Obstetrics(FIGO)stage,depth of myometrial invasion,lymphovascular space invasion,recurrence,and survival outcomes were statistically analysed.Univariate and multivariate Cox regression models were used to identify independent prognostic factors.RESULTS High CLDN6 expression was detected in a subset of HGEC patients and was significantly associated with nonendometrioid histology(P=0.026),advanced FIGO stage(P=0.015),deep myometrial invasion(P=0.038),and recurrence(P=0.002).While Kaplan-Meier analysis did not reveal a statistically significant difference in disease-free survival or overall survival between the high CLDN6 expression group and the low CLDN6 expression group,multivariate Cox regression revealed that CLDN6 overexpression was an independent predictor of shorter disease-free survival[hazard ratio(HR)=68.98,P=0.022]and overall survival(HR=24.023,P=0.038).CONCLUSION CLDN6 overexpression is associated with aggressive tumor features and poor clinical outcomes in HGEC,suggesting its utility as a prognostic biomarker and potential therapeutic target.
基金supported by USTB Institute for International People-to-People Exchange in Mining,Metallurgy and Metals Industries(No.FRF-IPPE-2404)Scientific Research Platform Construction Fund for the Introduction of High-Level Talents at Kunming University of Science and Technology(No.CA25073M246A).
文摘The superconducting high gradient magnetic separation(S-HGMS)technology can be used to effectively extract silica from iron ore tailings(IOTs).However,particle agglomeration in strong magnetic fields poses a challenge in achieving optimal performance.In this study,we investigated the agglomeration of IOT particles and the mechanisms for its inhibition through surface analysis,density functional theory(DFT),and extended Derjaguin-Landau-Verwey-Overbeek(EDLVO)theory.Hematite was found to exhibit the highest magnetic moment among the minerals present in IOTs,making it particularly prone to magnetic agglomeration.The addition of the dispersant SDSH into the slurry was essential in promoting the dispersion of IOT particles during the S-HGMS process.This dispersant hydrolyzed to form HPO_(4)^(2-)and RSO_(3)^(-)groups in the solution,which then chemically adsorbed onto the metal ions exposed on the surfaces of non-quartz particles,increasing interparticle electrostatic repulsion.Furthermore,the RSO_(3)^(-)groups physically adsorbed onto the surface of quartz particles,resulting in strong steric repulsion and enhancing the hydrophilicity of the particle surfaces,thereby inhibiting magnetic agglomeration between the particles.Under optimal conditions,the SiO_(2)grade of the obtained high-grade silica powder increased from an initial value of 76.32%in IOTs to 97.42%,achieving a SiO_(2)recovery rate of 54.81%,which meets the requirements for quartz sand used in glass preparation.This study provides valuable insights into the magnetic agglomeration of IOT particles and its inhibition while providing a foundation for regulating S-HGMS processes.
基金Supported by the 135 High-end Talent Project of West China Hospital,Sichuan University,No.ZYDG23029.
文摘BACKGROUND Recent advancements in artificial intelligence(AI)have significantly enhanced the capabilities of endoscopic-assisted diagnosis for gastrointestinal diseases.AI has shown great promise in clinical practice,particularly for diagnostic support,offering real-time insights into complex conditions such as esophageal squamous cell carcinoma.CASE SUMMARY In this study,we introduce a multimodal AI system that successfully identified and delineated a small and flat carcinoma during esophagogastroduodenoscopy,highlighting its potential for early detection of malignancies.The lesion was confirmed as high-grade squamous intraepithelial neoplasia,with pathology results supporting the AI system’s accuracy.The multimodal AI system offers an integrated solution that provides real-time,accurate diagnostic information directly within the endoscopic device interface,allowing for single-monitor use without disrupting endoscopist’s workflow.CONCLUSION This work underscores the transformative potential of AI to enhance endoscopic diagnosis by enabling earlier,more accurate interventions.
基金Supported by The Natural Science Foundation of Hunan Province,China,No.2022JJ30329.
文摘BACKGROUND High-grade serous ovarian carcinoma(HGSOC)is among the most lethal gynecological malignancies,characterized by late-stage diagnosis,extensive peritoneal dissemination,and limited treatment options,resulting in poor survival outcomes.The tumor microenvironment plays a critical role in disease progression and therapy resistance,with CD4+T cells exhibiting significant plasticity and functional heterogeneity.Regulatory T cells(Tregs)are particularly implicated in immune suppression and tumor evasion.However,the spatial distribution,functional states,and prognostic significance of CD4+T cell subtypes in HGSOC remain poorly understood.AIM To characterize the functional heterogeneity and tissue-specific distributions of CD4+T cell subtypes in HGSOC and identify biomarkers for therapy.METHODS We analyzed single-cell RNA sequencing(scRNA-seq)data from 42 HGSOC patients,examining samples collected from adnexal tissues and ascites.CD4+T cells were identified and classified into subtypes using unsupervised clustering and marker gene analysis.Functional profiling was performed using pathway enrichment,differential expression analysis,and functional signature scoring.Kaplan-Meier survival and Cox proportional hazards modeling were conducted to evaluate the prognostic value of CD4+T cell subtypes.RESULTS Distinct distributions of CD4+T cell subtypes were identified between adnexal tissues and ascites.Naive CD4+T cells were predominant in ascites,while Tregs and CXCL13-expressing CD4+T cells were enriched in adnexal tissues.Tregs were further categorized into four subtypes(Treg1,Treg2,Treg3,and TISG),each exhibiting unique molecular signatures and tissue-specific adaptations.Treg3 cells,enriched in adnexal tissues,were characterized by high levels of activation and exhaustion markers,correlating with poor clinical outcomes in HGSOC patients.CONCLUSION Treg3 cells drive immune suppression and tumor progression in HGSOC,making them a key immunotherapy target.Their adnexal enrichment highlights the need for tissue-specific immune profiling in precision treatment.
基金supported by the China National Petroleum Corporation Science and Technology Project(Study on genesis mechanism and distribution law of high quality reservoir of the fourth Member of Xujiahe Formation in middle and west Sichuan area,20230301-23)。
文摘The Triassic Xujiahe Formation in the slope zone of the Sichuan foreland basin is a new field of continental tight gas exploration in recent years.The fourth member of the Xujiahe Formation(Xu4 Member),the major interval in the Jianyang Block of the Tianfu gas field in the basin,is characterized by considerable buried depth,tight reservoirs,and strong heterogeneity.By using cast thin section,X-ray diffraction(XRD),scanning electron microscopy(SEM),fluid inclusion thermometry,and core analysis,the reservoir rock types,dominant diageneses,diagenetic history,and controls on high-graded reservoirs were investigated.It is found that the Xu4 Member in Jianyang mainly consists of lithic feldspar sandstones and feldspar lithic sandstones,followed by lithic quartz sandstones.High-energy hydrodynamic conditions in the microfacies of underwater distributary channels and mouth bars are beneficial to the preservation of primary pores and the occurrence of secondary pores,and there are no significant differences in petrophysical properties between these two microfacies.Compaction and calcareous cementation are the dominant controls on reservoir porosity decrease in the Xujiahe Formation;corrosion is the major contributor to porosity increase by generating secondary dissolved pores,e.g.intragranular dissolved pores and intergranular dissolved pores,as major reservoir space in the study area.Fracture zones around the faults inside the Xujiahe Formation(fourth‒order faults)are favorable for proximal tight gas accumulation,preservation,and production.The research findings have been successfully applied to explore the Xujiahe Formation in the slope zone of the Sichuan foreland basin.They can be referential for other similar tight sandstone gas accumulations.
基金supported by National Natural Science Foundation of China(No.82372888)National Key Research and Development Program of China(No.2022YFC2704000)+6 种基金National Natural Science Foundation of China(No.82273383)the Capital’s Funds for Health Improvement and Research(No.2020-2-4098)Youth program of Beijing Municipal Natural Science Foundation(No.7204328)Clinical Medicine Plus X-Young Scholars Project,Peking University(No.PKU2022LCXQ020)Key Clinical Project of Peking University Third Hospital(No.BYSY2022050)Key Clinical Projects of Peking University Third Hospital(No.BYSYZD2021006)Key Clinical Projects of Peking University Third Hospital(No.BYSYZD2019034).
文摘Objective:The expression of programmed death 1(PD-1)on CD8^(+)T cells is associated with their activation and exhaustion,while CD57 serves as a senescence marker.The impact of PD-1^(+)and CD57^(+)CD8^(+)T cells on the prognosis of patients with advanced high-grade serous ovarian cancer(HGSOC)remain unclear.Methods:We assessed the percentages of PD-1^(+)and CD57^(+)CD8^(+)T cells in tumor-infiltrating lymphocytes(TILs,n=85)and tumor ascites lymphocytes(TALs,n=87)using flow cytometry.The optimal cutoffs for these markers in TILs and TALs were determined through the log-rank maximization method.Gene expression analysis elucidated the tumor immune microenvironment(TIME,n=36).Results:Patients with higher PD-1^(+)CD8^(+)TILs(>87.8%)exhibited longer platinum-free interval(PFI)and overall survival(OS).In contrast,those with elevated CD57^(+)CD8^(+)TALs(>28.69%)were more likely to experience chemotherapy and had lower complete remission rates,shorter PFI and OS.PD-1^(+)CD8^(+)TILs are primarily displayed an effector memory state with strong proliferative and secretory capabilities.Approximately 50%of CD57^(+)CD8^(+)TALs were terminally differentiated,exhibiting significantly impaired proliferation.Based on the proportions of PD-1^(+)CD8^(+)TILs and CD57^(+)CD8^(+)TALs,patients were categorized into good,median and poor prognosis groups,with median PFI of 47.78,27.29 and 11.96 months,respectively(P<0.0001).Median OS for these groups was not reach,49.23 and 30.92 months,respectively(P<0.0001).Patients with poor prognosis exhibit significantly reduced CD8^(+)T cell proportion and increased M2 macrophage in the TIME,alongside downregulation of multiple T cell activation-related pathways.Conclusions:Lower levels of PD-1^(+)CD8^(+)TILs and higher CD57^(+)CD8^(+)TALs,assessed prior to treatment,correlated with poor prognosis and suppressive TIME in advanced HGSOC.
基金financially supported by Youth Science“Research on Failure Mechanism and Evaluation Method of Sand Control Measures for Railway Machinery in Sandy Area”(12302511)Ningxia Transportation Department Science and Technology Project(20200173)The Central Guidance on Local Science and Technology Development Funds(22ZY1QA005)。
文摘Investigating the wind-sand flow response regularity in the longitudinal slope sections of desert highways provides a scientific basis for selecting the slope of desert roads.This study uses the Tengger Desert section of the Wuhai-Maqin Expressway as a case study,employing CFD numerical simulation methods to calculate and analyze the wind-sand flow field distribution characteristics in different longitudinal slope sections.The results show that:(1)Along with the direction of the incoming flow,the windward and leeward slope toes of the embankment are low-wind-speed zones,with the wind speed at the leeward slope toe being even lower.The higher the embankment,the larger the low-wind-speed zone at the windward and leeward slope toes.As the longitudinal slope increases,the extent of the lowwind-speed zone at the same location along the route also increases.(2)Along the route direction,the wind speed at the windward and leeward slope toes decreases as embankment height increases.At the embankment toe,sand particles are transported from the top to the bottom of the longitudinal slope,and the greater the longitudinal slope,the stronger the transport effect.(3)Along the route direction,the sand accumulation around the embankment gradually gathers toward the bottom of the longitudinal slope as the slope increases.When the longitudinal slope is 3%and 4%,the trend of sand accumulation moving from the windward side at the end of the route to the leeward side at the start of the route is more significant.When the longitudinal slope is less than or equal to 3%,severe sand accumulation within the embankment range is reduced by 86.4%or more compared to when the slope is 4%.(4)Under the same longitudinal slope,the higher the embankment height,the smaller its transport rate.When the embankment height is the same,the greater the longitudinal slope,the greater the embankment transport rate.
基金supported by the Gansu Provincial Science and Technology Planning Project(23ZDFA018)the Research Program of Construction Science and Technology Project of the Transportation Department of Inner Mongolia Autonomous Region,China(NJ-2018-29)the Gansu Province Longyuan Youth Talent Program,and the Doctoral Research Start-up Fund of Fuyang Normal University,China(2024KYQD0123).
文摘Sand control engineering plays a pivotal role in ensuring the safe operation of transportation corridors that traverse desertified areas.Evaluating the effectiveness of these interventions provides a crucial scientific basis for mitigating aeolian hazards and guiding the sustainable management of fragile and arid ecosystems.In this study,we investigated a representative section of Highway S315,which is prone to windblown sand hazards,in Ejin Banner,northern China.By integrating segmented measurements with unmanned aerial vehicle(UAV)-based oblique photogrammetry,we quantitatively characterized the spatial and temporal evolution of sand accumulation around multiple sand control structures and assessed their blocking efficiency.Complementary road sand-removal records and meteorological observations were analyzed to evaluate the long-term performance of engineering measures.Our results showed that sand accumulation behind high vertical sand barriers typically exhibited a triangular cross-sectional morphology,with a gently inclined stoss slope and a steep lee slope.The shape and volume of these deposits evolved dynamically in response to variations in the prevailing wind regime,reflecting strong feedback between barrier geometry and local airflow redistribution.In contrast,the low-profile checkerboard sand barriers displayed a three-stage morphological trajectory—initial accumulation,edge intensification,and functional decline—indicating a progressive loss of sand-trapping capacity as burial proceeded.Sand accumulation was markedly greater on the highway's western(upwind)side than on the eastern(downwind)side,with 70.0%–90.0%of the airborne sediment flux intercepted by the upwind structures.From 2015 to 2020,mean annual wind speeds remained stable(2.68±0.04 m/s),while precipitation varied from 22.6 to 103.7 mm.However,the annual sand removal volume from the road decreased consistently,confirming the enhanced mitigation effect of multi-level protective system.These findings highlight the coupled interactions between engineering design,wind–sand dynamics,and topographic context.Beyond their immediate protective role,well-designed sand control systems also contribute to the prevention of regional desertification by stabilizing mobile dunes and fostering conditions favorable for ecological restoration.The insights gained here provide both theoretical and practical support for optimizing sand control engineering and advancing sustainable hazard mitigation in arid and semi-arid areas.
基金The Natural Science Foundation of Heilongjiang Province(No.LH2023E011)Open Fund of National Key Laboratory of Green and Long-Life Road Engineering in Extreme Environment in Changsha University of Science and Technology(No.kfj230105).
文摘To uncover the decision-making mechanisms and evolutionary dynamics of multiple stakeholders in highway noise pollution control,a three-party evolutionary game model involving the government,operators,and the public is constructed.The operation period is divided into different stages for differentiated analysis.A simulation analysis was performed on the Lituo sinking section of the Beijing-Hong Kong-Macao Highway to assess the impact of variations in critical elements on the system.The results indicate that the Lituo sinking section of the Beijing-Hong Kong-Macao Highway is currently in its early stage of development,with the corresponding strategies being active regulation,excessive emissions,and supervision.When the cost of the government’s active regulation decreases from 1×10^(5) to 5×10^(4) yuan,the system converges more rapidly toward the active regulation strategy.When the cost of the operator’s excessive emissions increases from 14.08×10^(6) to 20.00×10^(6) yuan,the system drives the operator toward the standardized emission strategy.In addition,when the cost of public supervision decreases from 15×10^(4) to 5×10^(4) yuan and the compensation paid by operators to the public increases from 1.288×10^(6) to 2.576×10^(6) yuan,the system converges more quickly toward the supervision strategy.The cost of the operator’s excessive emissions serves as the core decision variable for achieving the ideal equilibrium in the three-party game involving government active regulation,operator standardized emissions,and public supervision.
文摘With rapid development of economy and emergence of more and more high-grade residences,it had highlighted that high-grade residence was the inevitable tendency of economic development and urban construction.Based on the fact that high-grade residences paid more attention to harmony of human and architecture with nature and required higher for landscaping,the paper emphasized that landscape quality of high-grade residences was the key factor deciding quality of the residence.In view of insufficiencies of plant landscaping planning in high-grade residences at home and abroad,by taking high-grade residences in Hangzhou City for example,analysis had been conducted by selecting typical cases.It pointed out that plants disposition in high-grade residences was unreasonable,architectures and landscapes were isolated,and greening ratio was stressed while design was neglected.And then,corresponding solutions had been proposed.In terms of plants selection,it should reasonably utilize native tree species,and properly select new and high-quality plant species.In terms of harmonious unity between plant landscape and architecture,it should lay stress on unity between sensory design and comfort design.In terms of plant design and disposition,it should stick to the theme of "residential environment",so as to rationalize plant design and disposition,and create more comfortable residential environment.
基金The National Natural Science Foundation of China(No.5120810051308192)
文摘In order to improve the smoothness of traffic flow on bidirectional two-lane highways, an analytical method is proposed to optimize the minimum spacing of the signalized intersections. The minimum signal spacing is determined by two parts, including the necessary distance for stabilizing the traffic flow after it passes through the signalized intersections and the length of the upstream functional area of intersection. For the former, based on the platoon dispersion theory, the stable distance determination problem of traffic flow is studied and a model of dispersion degrees varying with the distance from the upstream intersection is presented, in which the time headway is intended to yield the shifted negative exponential distribution. The parameters of the model for medal and collector highways are estimated respectively based on the field data. Then, the section at which the slope of dispersion degree curve equals -0.1 is regarded as the beginning of the dispersion stable state. The length of the intersection upstream functional area is determined by three parts, including the distance traveled during perception-reaction time, the distance traveled while a driver decelerates to a stop, and the queue storage length. Based on the above procedures, the minimum signal spacing of each highway category is proposed.
