The significance of water energy harvesting in the context of renewable energy utilization is steadily increasing.In response to the need for more efficient utilization of water resources,the nascent technology of liq...The significance of water energy harvesting in the context of renewable energy utilization is steadily increasing.In response to the need for more efficient utilization of water resources,the nascent technology of liquid-solid triboelectric nanogenerators(TENGs)has emerged as a prospective candidate for the harvesting of water energy.Liquid-solid TENGs show several distinct advantages,including their lightweight,low cost,and efficient energy harvesting capabilities.Herein,this review presents a comprehensive exposition of the latest advancements in the field of liquid-solid TENGs.It delves into the underlying principles and different operational modes while also addressing the factors influencing its output performance from a multifaceted perspective.The factors comprise the intrinsic properties of friction materials,the chemical properties of the liquid,and the ambient temperature of liquid-solid TENGs.Furthermore,this review delineates the applications of liquid-solid TENGs as self-powered sensors in physics,chemistry,and biomedical contexts,as well as their applications in various other fields such as corrosion resistance,and so on.Last but not least,it concludes by providing a forward-looking on the future developmental trends of liquid-solid TENGs.展开更多
Solitary rectal ulcer syndrome(SRUS) is a rare benign condition, which can mimic many other diseases because of their similarities in clinical, endoscopic and histological features. Sessile serrated adenoma/polyp(SSA/...Solitary rectal ulcer syndrome(SRUS) is a rare benign condition, which can mimic many other diseases because of their similarities in clinical, endoscopic and histological features. Sessile serrated adenoma/polyp(SSA/p) is a premalignant lesion in the colon and rectum. The misdiagnosis of SSA/p in SRUS patients has been noted, but the case of SRUS arising secondarily to SSA/p has been rarely reported. We herein report the case of a 59-year-old man who presented with an ulcerative nodular lesion in the rectum, accompanied by the symptoms of blood and mucus in the feces, diarrhea and constipation. Magnetic resonance imagining revealed thickening of the rectal mucosa-submucosa. Histologically, the lesion was characterized by the hyperplastic lamina propria and diffusely serrated crypts. Further immunohistochemical staining showed the loss of HES1 and MLH1 expression in the epithelial cells in the serrated area. The patient with SRUS had histological changes of SSA/p, suggesting a potential of tumor transformation in certain cases. SRUS uncommonly accompanied by serrated lesions should at least be considered by pathologists and clinicians.展开更多
BACKGROUND: This study aimed to explore the effects of TNF-α on the expression of IP3R1 mRNA and protein in human mesangial cells (HMCs), and to elucidate the mechanism of TNF-α relating to IP3R1 expression in th...BACKGROUND: This study aimed to explore the effects of TNF-α on the expression of IP3R1 mRNA and protein in human mesangial cells (HMCs), and to elucidate the mechanism of TNF-α relating to IP3R1 expression in the occurrence of hepatorenal syndrome (HRS).METHODS: HMCs were stimulated by tumor (TNF-α) with 100 ng/mL for different hours (2, 4, 8, and 24 hours). The expression changes of IP3R1 mRNA and protein were detected by quantitative real-time polymerase chain reaction and immunoblotting. Several inhibitors including D609, U73122, PP1, safingol, rottlerin and non-radioactive protein kinase C (PKC) were used to examine the mechanism of signal transduction of TNF-α-regulated IP3R1 in HMCs.RESULTS: The levels of IP3R1 mRNA at 2 hours after TNF-α exposure were significantly enhanced and peaked at 8 hours in HMCs (P〈0.01), then descended at 24 hours (P〈0.01). The levels of IP3R1 protein at 4 hours after TNF-α exposure were obviously increased and peaked at 24 hours after TNF-α exposure (P〈0.01). Compared to the control group, safingol (PKCa inhibitor) and D609 (phosphatidylcholine-specific phospholipase C inhibitor) significantly blocked the TNF-α- induced expression of IP3R1 mRNA (3.30±0.81 vs. 1.95±0.13, P〈0.05; 2.10±0.49, P〈0.01) and IP3R1 protein (3.09±0.13 vs. 1.86±0.39, P〈0.01; 1.98±0.02, P〈0.01). TNF-α promoted PKCa activation with maximal PKCa phosphorylation that occurred 8 hours after stimulation measured by non-radioactive PKC assay, and the effect was markedly attenuated by pretreatment with D609 or safingol.CONCLUSION: TNF-α increased the expression of IP3R1 and this was mediated, at least in part, through the PC-PLC/PKCa signaling pathways in HMCs.展开更多
Given the reality of climate-driven migration,the net effectiveness of existing spatially fixed protected areas(PAs)to biodiversity conservation is expected to decline,while the potential of non-PA habitats(non-PAs,i....Given the reality of climate-driven migration,the net effectiveness of existing spatially fixed protected areas(PAs)to biodiversity conservation is expected to decline,while the potential of non-PA habitats(non-PAs,i.e.,natural,altered,or artificial ecosystems that are not formally designated as PAs)for biodiversity conservation is gaining attention.However,the contribution of non-PAs to biodiversity conservation remains poorly understood.With the aim of comprehensively assessing the effectiveness of non-PAs as transient refugia and steppingstones during future climate-change-induced migration of species in China,a six-metric integrated framework was applied and statistics of these metrics for PAs and non-PAs are compared.Results reveal that,a greater area of non-PAs has a low velocity of climate change(VoCC)compared to that of PAs,and can therefore serve as temporary refugia for species.The disappearing climate index(DCI)and novel climate index(NCI)results show that some 17%of the subdivided climate classes within the PAs have changed.However,the displacement index(DI)results imply that nearly half(48.98%)of the PAs need non-PAs to provide transient refugia for climate-driven migration of species in PAs.The higher ratio of effective steppingstones measured using the climate corridor score(CCS)and landscape current flow(LCF)further emphasizes that non-PAs play a more significant role as steppingstones for climate driven migration than do PAs in terms of both their structural and functional connectivity.Our research further demonstrates that a conservation approach that improves connectivity among PAs and considers Other Effective area-based Conservation Measures(OECMs)is essential for long-term biodiversity adaptation to climate change.展开更多
BACKGROUND Acute nonvariceal upper gastrointestinal bleeding(NVUGIB)is a life-threatening emergency.Endoscopic hemostasis and vascular interventional therapy are two major minimally invasive treatment strategies.Altho...BACKGROUND Acute nonvariceal upper gastrointestinal bleeding(NVUGIB)is a life-threatening emergency.Endoscopic hemostasis and vascular interventional therapy are two major minimally invasive treatment strategies.Although these modalities are widely used,their comparative efficacy and safety across different patient populations and anatomical sites remain controversial.AIM To evaluate the clinical outcomes and safety of endoscopic hemostasis combined with vascular interventional therapy for NVUGIB.METHODS A systematic search was done on PubMed,EMBASE,Cochrane Library,and Web of Science(from database establishment to April 2025).Randomized controlled trial(RCT)quality was assessed via Cochrane RoB 2.0,and observational studies via the Critical Appraisal Skills Program.RevMan 5.4 was used for quantitative analysis;fixed/random-effects models were chosen through I^(2)-assessed heterogeneity.Publication bias was checked using funnel plots and sensitivity analysis via model switching.RESULTS Twenty-one studies(3 RCTs,12 single-group studies,and 6 retrospective cohort studies)with good quality were included.For single-group data,combined therapy had risk differences of 0.70(clinical success),0.24(mortality),and 0.22(rebleeding;all P<0.00001,I^(2)=0).Moreover,the≥60-year rebleeding risk difference was 0.43.Reintervention was found to differ by approach(Z=3.03,P=0.002,inter-subgroup I^(2)=99%).In the RCT and cohort studies,combined vs standard therapy had similar initial hemostasis(Z=0.04,P=0.97)and mortality(Z=1.56,P=0.12)but lower rebleeding(Z=3.26/P=0.001;Z=2.95/P=0.03).Symmetrical funnel plots and robust sensitivity analysis showed no publication bias.CONCLUSION Combined endoscopic hemostasis and vascular interventional therapy for acute NVUGIB can significantly reduce rebleeding,without differences in mortality.Age and vascular interventional methods may influence the therapeutic efficacy.展开更多
Liver disease(LD)is a global health problem caused by multiple factors.At present,there are still obvious problems with limited efficacy and strong side effects of drugs used in the clinical treatment of LD.Therefore,...Liver disease(LD)is a global health problem caused by multiple factors.At present,there are still obvious problems with limited efficacy and strong side effects of drugs used in the clinical treatment of LD.Therefore,it is of great significance to search for effective hepatoprotective drugs from natural products.Geniposide(GS)is a cyclic ether terpenoid compound and a key component in the traditional Chinese medicine Gardenia jasminoides.It has a significant inhibitory effect on LD.However,there is currently no literature systematically analyzing its mechanism of action.To adapt to the environment of new drug research and the need for precision medication,this article summarizes the pathways and possible mechanisms of action discovered by GS in the treatment of LD,based on recent research literature:regulating bile stasis,antioxidant and anti-apoptosis,improving amino acid metabolism,improving energy metabolism,regulating lipid metabolism,anti-inflammatory and analgesic effects,etc.It also summarizes the pharmacokinetics of GS in vivo and discusses the liver toxicity of GS that is positively correlated with dosage.In addition,the existing problems in current research and possible future development directions were also discussed,to lay the foundation for the clinical development of natural product GS.展开更多
Optimizing drip irrigation with straw mulch return represents a promising sustainable intensification strategy for revolutionizing regional water management.This 2-year controlled field experiment examined straw incor...Optimizing drip irrigation with straw mulch return represents a promising sustainable intensification strategy for revolutionizing regional water management.This 2-year controlled field experiment examined straw incorporation effects(removal and return)and drip irrigation levels(200,350,500 mm)on maize carbon-nitrogen metabolism,root bleeding sap characteristics,dry matter accumulation,and yield.Dry matter and yield increased with irrigation amount.Under 200-350 mm irrigation,straw return enhanced root bleeding intensity;elevated nitrogen,phosphorus,potassium,calcium,and magnesium concentrations in bleeding sap;and promoted soluble sugar and hydrolyzed amino acid contents,establishing material foundations for yield formation.Straw mulching increased cytokinin while reducing abscisic acid content,delaying senescence.Leaf activities of nitrate reductase,glutamine synthetase,ribulose-1,5-bisphosphate carboxylase/oxygenase,and phosphoenolpyruvate carboxylase significantly increased under straw return,enhancing photosynthesis and improving 100-grain weight,ear length,ear diameter,and yield while decreasing bald tip length.Low irrigation amplified straw return benefits on maize growth and metabolism,whereas high irrigation negated these effects.Therefore,combining drip irrigation with straw return provides scientific foundations for water resource management in Jilin Province and theoretical bases for sustainable agricultural development in water-limited regions.展开更多
BACKGROUND The relationship between hepatitis B surface antigen(HBsAg)concentrations,hepatitis B virus(HBV)DNA levels,and hepatic function in individuals with chronic hepatitis B(CHB)remains incompletely characterized...BACKGROUND The relationship between hepatitis B surface antigen(HBsAg)concentrations,hepatitis B virus(HBV)DNA levels,and hepatic function in individuals with chronic hepatitis B(CHB)remains incompletely characterized.AIM To examine the association of serum HBsAg concentrations with HBV DNA levels and hepatic function parameters in patients with CHB.METHODS A total of 110 individuals with CHB admitted to Kunming Third People’s Hospital between January 2023 and January 2025 were enrolled as the observation group,whereas 70 age-and sex-matched healthy individuals served as the control group.Fasting peripheral venous blood(5 mL)was collected from all participants.Serum HBsAg and HBV DNA levels(in the observation group),along with hepatic function markers,including total bilirubin(TBIL),aspartate aminotransferase(AST),and alanine aminotransferase(ALT),were measured in both groups.Pearson correlation analysis was used to assess the association between serum HBsAg levels and HBV DNA,TBIL,AST,and ALT levels in patients with CHB.Receiver operating characteristic(ROC)curve analysis was conducted to determine optimal cutoff values of HBsAg for predicting high viral load(HBV DNA≥10^(5) IU/mL)and significant liver injury(ALT≥2×upper limit of normal[ULN]).RESULTS HBsAg levels differed significantly across CHB phases:Immune tolerance(IT)phase(4.62±1.51 lgIU/mL),immune clearance(IC)phase(3.84±1.16 lgIU/mL),low replication(LR)phase(2.99±0.66 lgIU/mL),and HBV e antigen-negative hepatitis(ENH)phase(3.40±0.69 lgIU/mL).Corresponding HBV DNA levels were highest in the IT phase(7.41±1.83 log copies/mL),followed by the IC phase(6.03±1.92 log copies/mL),ENH phase(3.89±1.23 log copies/mL),and LR phase(2.55±1.00 log copies/mL).All hepatic function parameters in patients with CHB were significantly elevated compared to the healthy controls.Pearson correlation analysis showed significant positive associations between serum HBsAg levels and HBV DNA,TBIL,AST,and ALT levels.ROC analysis revealed that an HBsAg cutoff>4.09 lgIU/mL predicted HBV DNA≥105 IU/mL(high viral load)with 88.57%sensitivity,78.67%specificity,and an area under the curve(AUC)of 0.868(P<0.001),while a cutoff>4.07 lgIU/mL predicted ALT≥2×ULN(significant liver injury)with 69.70%sensitivity,90.91%specificity,and an AUC of 0.821(P<0.001).CONCLUSION Serum HBsAg,a noninvasive serological marker,holds significant clinical value in CHB management by aiding in the stratification of viral burden and the prediction of hepatic impairment.展开更多
Based on the observational data from 60 short-period stations deployed in the Jishishan M6.2 earthquake epicenter and adjacent regions(Gansu Province,2023),this study inverted the near-surface S-wave velocity structur...Based on the observational data from 60 short-period stations deployed in the Jishishan M6.2 earthquake epicenter and adjacent regions(Gansu Province,2023),this study inverted the near-surface S-wave velocity structure through teleseismic receiver function analysis by using the amplitude of direct P-wave.The results reveal that the epicentral area(Liugou Township and surroundings)exhibits markedly low S-wave velocities of 400-600 m/s,with a mean value of(500±50)m/s.In contrast,intermountain basins-Guanting Basin and Dahejia Basin-demonstrate significantly elevated velocities,exceeding the epicentral zone by 100-300 m/s,with values concentrated at 600-900 m/s.Notably,localized areas such as Jintian Village and Caotan Village maintain stable S-wave velocities of(700±30)m/s.The western margin tectonic belt of Jishishan displays distinctive velocity differentiation:A pronounced velocity gradient zone along the 35.8°N latitude boundary separates northern areas(<550 m/s)from southern regions(>750 m/s).These findings demonstrate significant spatial heterogeneity in shallow S-wave velocity structures,primarily controlled by three factors:(1)topographic-geomorphic units,(2)stratigraphic lithological contrasts,and(3)anthropogenic modifications.The persistent low-velocity anomalies(<600 m/s)in the epicentral zone and northern Yellow River T2 terrace likely correlate with Quaternary unconsolidated sediments,enhanced groundwater circulation,and bedrock weathering.These results provide critical geophysical constraints for understanding both the seismogenic environment of the Jishishan earthquake and its damage distribution patterns.Furthermore,they establish a foundational framework for regional seismic intensity evaluation,site amplification analysis,and secondary hazard risk assessment.展开更多
Ensuring a harmonious coexistence between man and nature is crucial for China’s economic and social development.However,with increasing industrialization and urbanization,there is a growing mismatch between China’s ...Ensuring a harmonious coexistence between man and nature is crucial for China’s economic and social development.However,with increasing industrialization and urbanization,there is a growing mismatch between China’s ecological resilience(ER)and economic level(EL)of development,which poses a notable social threat.Currently,the link between ER and EL in China remains unclear,especially in terms of spatial dislocation(SD),referring to the disconnect between the locations where environmental impacts occur and those where economic benefits or activities are concentrated.Therefore,this paper aims to provide theoretical support and an empirical basis for policy-based solutions to address this gap.Based on the SD theory,this study systematically discusses the temporal changes,spatial patterns,and SD characteristics of China’s ER and EL using spatial auto-correlation and barycentric analysis to analyze data from 30 provinces covering the period 2011-2021.The key results are as follows.China’s ER shows a general trend of growth;however,its distribution is uneven.The spatial pattern generally decreases from the southeastern coastal provinces to the northwest.Moreover,a gradually increasing positive correlation is observed between the ER and EL,but this correlation varies by region,with some showing regional linkages and others developing independently.Finally,the dislocation index of ER and EL presents divergent results based on region-the eastern and central regions primarily show a high level of dislocation,whereas the western and northeastern regions show a low level of dislocation.The results provide a comprehensive overview of the spatiotemporal patterns in the association between ER and EL in China.The results emphasize that to balance sustainable regional development and ecological governance,a region-specific approach must be employed,prioritizing innovation-driven strategies for high ER in more developed regions and market-oriented strategies in less developed regions.展开更多
As a popular approach to producing atmospheric pressure non-thermal plasma,dielectric barrier discharge(DBD)has been extensively used in various application fields.In this paper,DBD with wavy dielectric layers is nume...As a popular approach to producing atmospheric pressure non-thermal plasma,dielectric barrier discharge(DBD)has been extensively used in various application fields.In this paper,DBD with wavy dielectric layers is numerically simulated in atmospheric pressure helium mixed with trace nitrogen based on a fluid model.With varying relative position(phase difference(Δφ))of the wavy surfaces,there is a positive discharge and a negative discharge per voltage cycle,each of which consists of a pulse stage and a hump stage.For the pulse stage,maximal current increases with increasingΔφ.Results show that DBD with the wavy surfaces appears as discrete micro-discharges(MDs),which are self-organized to different patterns with varyingΔφ.The MDs are vertical and uniformly-spaced withΔφ=0,which are self-organized in pairs withΔφ=π/4.These MD pairs are merged into some bright wide MDs withΔφ=π/2.In addition,narrow MDs appear between tilted wide MDs withΔφ=3π/4.WithΔφ=π,the pattern is composed of wide and narrow MDs,which are vertical and appear alternately.To elucidate the formation mechanism of the patterns with differentΔφ,temporal evolutions of electron density and electric field are investigated for the positive discharge.Moreover,surface charge on the wavy dielectric layers has also been compared with differentΔφ.展开更多
Seasonally frozen soil in alpine and subalpine zones in the mountains of Qinghai-Tibetan Plateau is particularly sensitive to global climate change. Therefore, a better understanding of the thermal properties of froze...Seasonally frozen soil in alpine and subalpine zones in the mountains of Qinghai-Tibetan Plateau is particularly sensitive to global climate change. Therefore, a better understanding of the thermal properties of frozen soil is crucial for predicting the responses of frozen soils to soil warming. In this study, thermal properties of frozen soil with different moisture contents under subzero temperature (0°C - 20°C) in an alpine forest in western Sichuan were analyzed by KD<sub>2</sub> Pro in its cooling and heating processes, respectively. Our results reveal that the soil apparent volumetric specific heat capacity (C<sub>v</sub>) and apparent thermal conductivity (K) under the same water content show similar response patterns to changing temperature lower than -2°C in both heating and cooling processes. Moreover, ice content of frozen soils can be well predicted by Logistic model in cooling and heating processes. The C<sub>v</sub> and K tend to increase along with increasing soil moisture contents. Remarkably, asymptotic characters of the value of C<sub>v</sub> and K are at the vicinity of the initial temperature of phase transitions, indicating that both C<sub>v</sub> and K are particularly sensitive to changing soil temperature at the range of -2°C to 0°C. Therefore, the widely distributed frozen soil layers with temperature above -2°C in alpine and subalpine zones over Qinghai-Tibetan Plateau are susceptible to the observed climate warming during cold season.展开更多
基金supported by the National Natural Science Foundation Project of China(No.52201056)the funding of postdoctoral researchers in Anhui Province(No.2022B613)the College Excellent Young Foundation of Anhui Province(No.2023AH030029).
文摘The significance of water energy harvesting in the context of renewable energy utilization is steadily increasing.In response to the need for more efficient utilization of water resources,the nascent technology of liquid-solid triboelectric nanogenerators(TENGs)has emerged as a prospective candidate for the harvesting of water energy.Liquid-solid TENGs show several distinct advantages,including their lightweight,low cost,and efficient energy harvesting capabilities.Herein,this review presents a comprehensive exposition of the latest advancements in the field of liquid-solid TENGs.It delves into the underlying principles and different operational modes while also addressing the factors influencing its output performance from a multifaceted perspective.The factors comprise the intrinsic properties of friction materials,the chemical properties of the liquid,and the ambient temperature of liquid-solid TENGs.Furthermore,this review delineates the applications of liquid-solid TENGs as self-powered sensors in physics,chemistry,and biomedical contexts,as well as their applications in various other fields such as corrosion resistance,and so on.Last but not least,it concludes by providing a forward-looking on the future developmental trends of liquid-solid TENGs.
基金Supported by the National Natural Science Foundation of China,No.81101806Natural Science Foundation of Shanghai,No.17ZR1406500
文摘Solitary rectal ulcer syndrome(SRUS) is a rare benign condition, which can mimic many other diseases because of their similarities in clinical, endoscopic and histological features. Sessile serrated adenoma/polyp(SSA/p) is a premalignant lesion in the colon and rectum. The misdiagnosis of SSA/p in SRUS patients has been noted, but the case of SRUS arising secondarily to SSA/p has been rarely reported. We herein report the case of a 59-year-old man who presented with an ulcerative nodular lesion in the rectum, accompanied by the symptoms of blood and mucus in the feces, diarrhea and constipation. Magnetic resonance imagining revealed thickening of the rectal mucosa-submucosa. Histologically, the lesion was characterized by the hyperplastic lamina propria and diffusely serrated crypts. Further immunohistochemical staining showed the loss of HES1 and MLH1 expression in the epithelial cells in the serrated area. The patient with SRUS had histological changes of SSA/p, suggesting a potential of tumor transformation in certain cases. SRUS uncommonly accompanied by serrated lesions should at least be considered by pathologists and clinicians.
基金supported by a grant from Health Bureauof Jiangxi Province
文摘BACKGROUND: This study aimed to explore the effects of TNF-α on the expression of IP3R1 mRNA and protein in human mesangial cells (HMCs), and to elucidate the mechanism of TNF-α relating to IP3R1 expression in the occurrence of hepatorenal syndrome (HRS).METHODS: HMCs were stimulated by tumor (TNF-α) with 100 ng/mL for different hours (2, 4, 8, and 24 hours). The expression changes of IP3R1 mRNA and protein were detected by quantitative real-time polymerase chain reaction and immunoblotting. Several inhibitors including D609, U73122, PP1, safingol, rottlerin and non-radioactive protein kinase C (PKC) were used to examine the mechanism of signal transduction of TNF-α-regulated IP3R1 in HMCs.RESULTS: The levels of IP3R1 mRNA at 2 hours after TNF-α exposure were significantly enhanced and peaked at 8 hours in HMCs (P〈0.01), then descended at 24 hours (P〈0.01). The levels of IP3R1 protein at 4 hours after TNF-α exposure were obviously increased and peaked at 24 hours after TNF-α exposure (P〈0.01). Compared to the control group, safingol (PKCa inhibitor) and D609 (phosphatidylcholine-specific phospholipase C inhibitor) significantly blocked the TNF-α- induced expression of IP3R1 mRNA (3.30±0.81 vs. 1.95±0.13, P〈0.05; 2.10±0.49, P〈0.01) and IP3R1 protein (3.09±0.13 vs. 1.86±0.39, P〈0.01; 1.98±0.02, P〈0.01). TNF-α promoted PKCa activation with maximal PKCa phosphorylation that occurred 8 hours after stimulation measured by non-radioactive PKC assay, and the effect was markedly attenuated by pretreatment with D609 or safingol.CONCLUSION: TNF-α increased the expression of IP3R1 and this was mediated, at least in part, through the PC-PLC/PKCa signaling pathways in HMCs.
基金financially supported by the National Key R&D Program of China(Grants No.2022YFC3802604,2022YFF1303102)the Global Engagement for Strategic Partnership project of Nanjing University.
文摘Given the reality of climate-driven migration,the net effectiveness of existing spatially fixed protected areas(PAs)to biodiversity conservation is expected to decline,while the potential of non-PA habitats(non-PAs,i.e.,natural,altered,or artificial ecosystems that are not formally designated as PAs)for biodiversity conservation is gaining attention.However,the contribution of non-PAs to biodiversity conservation remains poorly understood.With the aim of comprehensively assessing the effectiveness of non-PAs as transient refugia and steppingstones during future climate-change-induced migration of species in China,a six-metric integrated framework was applied and statistics of these metrics for PAs and non-PAs are compared.Results reveal that,a greater area of non-PAs has a low velocity of climate change(VoCC)compared to that of PAs,and can therefore serve as temporary refugia for species.The disappearing climate index(DCI)and novel climate index(NCI)results show that some 17%of the subdivided climate classes within the PAs have changed.However,the displacement index(DI)results imply that nearly half(48.98%)of the PAs need non-PAs to provide transient refugia for climate-driven migration of species in PAs.The higher ratio of effective steppingstones measured using the climate corridor score(CCS)and landscape current flow(LCF)further emphasizes that non-PAs play a more significant role as steppingstones for climate driven migration than do PAs in terms of both their structural and functional connectivity.Our research further demonstrates that a conservation approach that improves connectivity among PAs and considers Other Effective area-based Conservation Measures(OECMs)is essential for long-term biodiversity adaptation to climate change.
文摘BACKGROUND Acute nonvariceal upper gastrointestinal bleeding(NVUGIB)is a life-threatening emergency.Endoscopic hemostasis and vascular interventional therapy are two major minimally invasive treatment strategies.Although these modalities are widely used,their comparative efficacy and safety across different patient populations and anatomical sites remain controversial.AIM To evaluate the clinical outcomes and safety of endoscopic hemostasis combined with vascular interventional therapy for NVUGIB.METHODS A systematic search was done on PubMed,EMBASE,Cochrane Library,and Web of Science(from database establishment to April 2025).Randomized controlled trial(RCT)quality was assessed via Cochrane RoB 2.0,and observational studies via the Critical Appraisal Skills Program.RevMan 5.4 was used for quantitative analysis;fixed/random-effects models were chosen through I^(2)-assessed heterogeneity.Publication bias was checked using funnel plots and sensitivity analysis via model switching.RESULTS Twenty-one studies(3 RCTs,12 single-group studies,and 6 retrospective cohort studies)with good quality were included.For single-group data,combined therapy had risk differences of 0.70(clinical success),0.24(mortality),and 0.22(rebleeding;all P<0.00001,I^(2)=0).Moreover,the≥60-year rebleeding risk difference was 0.43.Reintervention was found to differ by approach(Z=3.03,P=0.002,inter-subgroup I^(2)=99%).In the RCT and cohort studies,combined vs standard therapy had similar initial hemostasis(Z=0.04,P=0.97)and mortality(Z=1.56,P=0.12)but lower rebleeding(Z=3.26/P=0.001;Z=2.95/P=0.03).Symmetrical funnel plots and robust sensitivity analysis showed no publication bias.CONCLUSION Combined endoscopic hemostasis and vascular interventional therapy for acute NVUGIB can significantly reduce rebleeding,without differences in mortality.Age and vascular interventional methods may influence the therapeutic efficacy.
基金supported by the National Natural Science Foundation of China Key Project(81830110)。
文摘Liver disease(LD)is a global health problem caused by multiple factors.At present,there are still obvious problems with limited efficacy and strong side effects of drugs used in the clinical treatment of LD.Therefore,it is of great significance to search for effective hepatoprotective drugs from natural products.Geniposide(GS)is a cyclic ether terpenoid compound and a key component in the traditional Chinese medicine Gardenia jasminoides.It has a significant inhibitory effect on LD.However,there is currently no literature systematically analyzing its mechanism of action.To adapt to the environment of new drug research and the need for precision medication,this article summarizes the pathways and possible mechanisms of action discovered by GS in the treatment of LD,based on recent research literature:regulating bile stasis,antioxidant and anti-apoptosis,improving amino acid metabolism,improving energy metabolism,regulating lipid metabolism,anti-inflammatory and analgesic effects,etc.It also summarizes the pharmacokinetics of GS in vivo and discusses the liver toxicity of GS that is positively correlated with dosage.In addition,the existing problems in current research and possible future development directions were also discussed,to lay the foundation for the clinical development of natural product GS.
基金supported by the National Key R&D Plan Project of China(2024YFD2300101)the Jilin Provincial Science and Technology Development Plan Project(20240303026NC)the Jilin Provincial Department of Education’s“Black Soil Granary”Science and Technology Battle“Unveiling the List and Leading the Way”Scientific Research Project(JJKH20241118HT).
文摘Optimizing drip irrigation with straw mulch return represents a promising sustainable intensification strategy for revolutionizing regional water management.This 2-year controlled field experiment examined straw incorporation effects(removal and return)and drip irrigation levels(200,350,500 mm)on maize carbon-nitrogen metabolism,root bleeding sap characteristics,dry matter accumulation,and yield.Dry matter and yield increased with irrigation amount.Under 200-350 mm irrigation,straw return enhanced root bleeding intensity;elevated nitrogen,phosphorus,potassium,calcium,and magnesium concentrations in bleeding sap;and promoted soluble sugar and hydrolyzed amino acid contents,establishing material foundations for yield formation.Straw mulching increased cytokinin while reducing abscisic acid content,delaying senescence.Leaf activities of nitrate reductase,glutamine synthetase,ribulose-1,5-bisphosphate carboxylase/oxygenase,and phosphoenolpyruvate carboxylase significantly increased under straw return,enhancing photosynthesis and improving 100-grain weight,ear length,ear diameter,and yield while decreasing bald tip length.Low irrigation amplified straw return benefits on maize growth and metabolism,whereas high irrigation negated these effects.Therefore,combining drip irrigation with straw return provides scientific foundations for water resource management in Jilin Province and theoretical bases for sustainable agricultural development in water-limited regions.
文摘BACKGROUND The relationship between hepatitis B surface antigen(HBsAg)concentrations,hepatitis B virus(HBV)DNA levels,and hepatic function in individuals with chronic hepatitis B(CHB)remains incompletely characterized.AIM To examine the association of serum HBsAg concentrations with HBV DNA levels and hepatic function parameters in patients with CHB.METHODS A total of 110 individuals with CHB admitted to Kunming Third People’s Hospital between January 2023 and January 2025 were enrolled as the observation group,whereas 70 age-and sex-matched healthy individuals served as the control group.Fasting peripheral venous blood(5 mL)was collected from all participants.Serum HBsAg and HBV DNA levels(in the observation group),along with hepatic function markers,including total bilirubin(TBIL),aspartate aminotransferase(AST),and alanine aminotransferase(ALT),were measured in both groups.Pearson correlation analysis was used to assess the association between serum HBsAg levels and HBV DNA,TBIL,AST,and ALT levels in patients with CHB.Receiver operating characteristic(ROC)curve analysis was conducted to determine optimal cutoff values of HBsAg for predicting high viral load(HBV DNA≥10^(5) IU/mL)and significant liver injury(ALT≥2×upper limit of normal[ULN]).RESULTS HBsAg levels differed significantly across CHB phases:Immune tolerance(IT)phase(4.62±1.51 lgIU/mL),immune clearance(IC)phase(3.84±1.16 lgIU/mL),low replication(LR)phase(2.99±0.66 lgIU/mL),and HBV e antigen-negative hepatitis(ENH)phase(3.40±0.69 lgIU/mL).Corresponding HBV DNA levels were highest in the IT phase(7.41±1.83 log copies/mL),followed by the IC phase(6.03±1.92 log copies/mL),ENH phase(3.89±1.23 log copies/mL),and LR phase(2.55±1.00 log copies/mL).All hepatic function parameters in patients with CHB were significantly elevated compared to the healthy controls.Pearson correlation analysis showed significant positive associations between serum HBsAg levels and HBV DNA,TBIL,AST,and ALT levels.ROC analysis revealed that an HBsAg cutoff>4.09 lgIU/mL predicted HBV DNA≥105 IU/mL(high viral load)with 88.57%sensitivity,78.67%specificity,and an area under the curve(AUC)of 0.868(P<0.001),while a cutoff>4.07 lgIU/mL predicted ALT≥2×ULN(significant liver injury)with 69.70%sensitivity,90.91%specificity,and an AUC of 0.821(P<0.001).CONCLUSION Serum HBsAg,a noninvasive serological marker,holds significant clinical value in CHB management by aiding in the stratification of viral burden and the prediction of hepatic impairment.
基金project is supported in part by Broadband Seismic 3D Array Detection(PhaseⅠ),Deep Earth Probe and Mineral Resources Exploration-National Science and Technology Major Project(Grant No.2024ZD1000300)National Natural Science Foundation of China(42204061)Gansu Jishishan 6.2 magnitude earthquake scientific investigation(DQJB23Y45)program。
文摘Based on the observational data from 60 short-period stations deployed in the Jishishan M6.2 earthquake epicenter and adjacent regions(Gansu Province,2023),this study inverted the near-surface S-wave velocity structure through teleseismic receiver function analysis by using the amplitude of direct P-wave.The results reveal that the epicentral area(Liugou Township and surroundings)exhibits markedly low S-wave velocities of 400-600 m/s,with a mean value of(500±50)m/s.In contrast,intermountain basins-Guanting Basin and Dahejia Basin-demonstrate significantly elevated velocities,exceeding the epicentral zone by 100-300 m/s,with values concentrated at 600-900 m/s.Notably,localized areas such as Jintian Village and Caotan Village maintain stable S-wave velocities of(700±30)m/s.The western margin tectonic belt of Jishishan displays distinctive velocity differentiation:A pronounced velocity gradient zone along the 35.8°N latitude boundary separates northern areas(<550 m/s)from southern regions(>750 m/s).These findings demonstrate significant spatial heterogeneity in shallow S-wave velocity structures,primarily controlled by three factors:(1)topographic-geomorphic units,(2)stratigraphic lithological contrasts,and(3)anthropogenic modifications.The persistent low-velocity anomalies(<600 m/s)in the epicentral zone and northern Yellow River T2 terrace likely correlate with Quaternary unconsolidated sediments,enhanced groundwater circulation,and bedrock weathering.These results provide critical geophysical constraints for understanding both the seismogenic environment of the Jishishan earthquake and its damage distribution patterns.Furthermore,they establish a foundational framework for regional seismic intensity evaluation,site amplification analysis,and secondary hazard risk assessment.
基金funded by the National Natural Science Foundation of China[Grant No.71963030]a subproject of China’s third comprehensive scientific expedition to Xinjiang[Grant No.SQ2021xjkk01800]+1 种基金a major science and technology project in the Xinjiang Uygur Autonomous Region[Grant No.2022A01003]a scientific research innovation project for excellent doctoral students of Xinjiang University[Grant No.XJU2022BS010].
文摘Ensuring a harmonious coexistence between man and nature is crucial for China’s economic and social development.However,with increasing industrialization and urbanization,there is a growing mismatch between China’s ecological resilience(ER)and economic level(EL)of development,which poses a notable social threat.Currently,the link between ER and EL in China remains unclear,especially in terms of spatial dislocation(SD),referring to the disconnect between the locations where environmental impacts occur and those where economic benefits or activities are concentrated.Therefore,this paper aims to provide theoretical support and an empirical basis for policy-based solutions to address this gap.Based on the SD theory,this study systematically discusses the temporal changes,spatial patterns,and SD characteristics of China’s ER and EL using spatial auto-correlation and barycentric analysis to analyze data from 30 provinces covering the period 2011-2021.The key results are as follows.China’s ER shows a general trend of growth;however,its distribution is uneven.The spatial pattern generally decreases from the southeastern coastal provinces to the northwest.Moreover,a gradually increasing positive correlation is observed between the ER and EL,but this correlation varies by region,with some showing regional linkages and others developing independently.Finally,the dislocation index of ER and EL presents divergent results based on region-the eastern and central regions primarily show a high level of dislocation,whereas the western and northeastern regions show a low level of dislocation.The results provide a comprehensive overview of the spatiotemporal patterns in the association between ER and EL in China.The results emphasize that to balance sustainable regional development and ecological governance,a region-specific approach must be employed,prioritizing innovation-driven strategies for high ER in more developed regions and market-oriented strategies in less developed regions.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.12375250,11875121,51977057,11805013)the Natural Science Foundation of Hebei Province,China(Grant Nos.A2020201025 and A2022201036)+3 种基金the Hebei Province Optoelectronic Information Materials Laboratory Performance Subsidy Fund Project(Grant No.22567634H)the Funds for Distinguished Young Scientists of Hebei Province,China(Grant No.A2012201045)the Natural Science Interdisciplinary Research Program of Hebei University(Grant Nos.DXK201908 and DXK202011)the Post-graduate’s Innovation Fund Project of Hebei University(Grant No.HBU2022bs004)。
文摘As a popular approach to producing atmospheric pressure non-thermal plasma,dielectric barrier discharge(DBD)has been extensively used in various application fields.In this paper,DBD with wavy dielectric layers is numerically simulated in atmospheric pressure helium mixed with trace nitrogen based on a fluid model.With varying relative position(phase difference(Δφ))of the wavy surfaces,there is a positive discharge and a negative discharge per voltage cycle,each of which consists of a pulse stage and a hump stage.For the pulse stage,maximal current increases with increasingΔφ.Results show that DBD with the wavy surfaces appears as discrete micro-discharges(MDs),which are self-organized to different patterns with varyingΔφ.The MDs are vertical and uniformly-spaced withΔφ=0,which are self-organized in pairs withΔφ=π/4.These MD pairs are merged into some bright wide MDs withΔφ=π/2.In addition,narrow MDs appear between tilted wide MDs withΔφ=3π/4.WithΔφ=π,the pattern is composed of wide and narrow MDs,which are vertical and appear alternately.To elucidate the formation mechanism of the patterns with differentΔφ,temporal evolutions of electron density and electric field are investigated for the positive discharge.Moreover,surface charge on the wavy dielectric layers has also been compared with differentΔφ.
文摘Seasonally frozen soil in alpine and subalpine zones in the mountains of Qinghai-Tibetan Plateau is particularly sensitive to global climate change. Therefore, a better understanding of the thermal properties of frozen soil is crucial for predicting the responses of frozen soils to soil warming. In this study, thermal properties of frozen soil with different moisture contents under subzero temperature (0°C - 20°C) in an alpine forest in western Sichuan were analyzed by KD<sub>2</sub> Pro in its cooling and heating processes, respectively. Our results reveal that the soil apparent volumetric specific heat capacity (C<sub>v</sub>) and apparent thermal conductivity (K) under the same water content show similar response patterns to changing temperature lower than -2°C in both heating and cooling processes. Moreover, ice content of frozen soils can be well predicted by Logistic model in cooling and heating processes. The C<sub>v</sub> and K tend to increase along with increasing soil moisture contents. Remarkably, asymptotic characters of the value of C<sub>v</sub> and K are at the vicinity of the initial temperature of phase transitions, indicating that both C<sub>v</sub> and K are particularly sensitive to changing soil temperature at the range of -2°C to 0°C. Therefore, the widely distributed frozen soil layers with temperature above -2°C in alpine and subalpine zones over Qinghai-Tibetan Plateau are susceptible to the observed climate warming during cold season.
基金This work was supported by key projects of National Natural Science Foundation of China(No.81830110)Heilongjiang Province key research and development plan(No.2022ZX02C04).
