Autografting is the gold standard for surgical repair of nerve defects>5 mm in length;however,autografting is associated with potential complications at the nerve donor site.As an alternative,nerve guidance conduit...Autografting is the gold standard for surgical repair of nerve defects>5 mm in length;however,autografting is associated with potential complications at the nerve donor site.As an alternative,nerve guidance conduits may be used.The ideal conduit should be flexible,resistant to kinks and lumen collapse,and provide physical cues to guide nerve regeneration.We designed a novel flexible conduit using electrospinning technology to create fibers on the innermost surface of the nerve guidance conduit and employed melt spinning to align them.Subsequently,we prepared disordered electrospun fibers outside the aligned fibers and helical melt-spun fibers on the outer wall of the electrospun fiber lumen.The presence of aligned fibers on the inner surface can promote the extension of nerve cells along the fibers.The helical melt-spun fibers on the outer surface can enhance resistance to kinking and compression and provide stability.Our novel conduit promoted nerve regeneration and functional recovery in a rat sciatic nerve defect model,suggesting that it has potential for clinical use in human nerve injuries.展开更多
A series of CeO_(2)@MnO_(2)composites was prepared by deposition-precipitation methods.These materials were used to activate sodium persulfate(PDS)for the oxidation of tetracycline.It is found that the composites,espe...A series of CeO_(2)@MnO_(2)composites was prepared by deposition-precipitation methods.These materials were used to activate sodium persulfate(PDS)for the oxidation of tetracycline.It is found that the composites,especially the CeO_(2)@MnO_(2)-1:4 composites,exhibit better tetracycline removal rates than the pure components.X-ray diffraction(XRD),Raman and scanning electron microscopy(SEM)analyses all indicate that the composite has been successfully prepared with high purity and high crystalline.The XPS analysis shows that the strong interaction between the components promotes the electron transfer.Additionally,the kinetic rate constants of CeO_(2)@MnO_(2)-1:4 after 60 min are 3.8 and 12.7 times higher than pure CeO_(2)and MnO_(2),respectively.CeO_(2)@MnO_(2-)1:4 composite also exhibits excellent catalytic activity for individual and hybrid pollutants.The effects of wastewater matrix,pH,circulation and ion stre ngth on the degradation of tetracycline were investigated.It is found that CeO_(2)@MnO_(2)-1:4 composite has good practical application prospects.CeO_(2)@MnO_(2)composites with synergistic adsorption catalysis can activate PDS and peroxymo no sulfate(PMS)for efficient organic catalytic oxidation.This paper provides the theoretical basis and data support for the practical application of the CeO_(2)@MnO_(2)composite materials.展开更多
The hydraulic fractures induced in soft coal composite reservoirs have complex extension and energy evolution characteristics.In this study,the mechanism whereby gas outbursts can be eliminated by hydraulic fracturing...The hydraulic fractures induced in soft coal composite reservoirs have complex extension and energy evolution characteristics.In this study,the mechanism whereby gas outbursts can be eliminated by hydraulic fracturing was revealed.The combined fracturing process of a coal seam and its roof under different in situ stress and fracture spacing conditions was analysed through true triaxial physical tests and numerical simulations.The results showed that the pre-fracturing of the roof had a pressure relief effect on the coal seam,and the secondary pressure relief of the coal seam could be completed at a lower fracture initiation pressure.To ensure the continued presence of the stress shadow effect in actual projects,the fracture spacing should be maintained within the critical range influencing the fracture extension.If the vertical stress is high,a call on increasing the fracture spacing can be taken;otherwise,it must be reduced.In the early phase of fracturing,energy is mostly concentrated at the tip and surface of the fracture;however,the proportion of surface energy for subsequent fracturing is gradually reduced,and the energy is mostly used to open the formation and work on the surrounding matrix.Hydraulic fracturing creates new fractures to interconnect originally heterogeneously distributed gas zones,enabling the entire coal seam to first establish interconnected pressure equilibration,then undergo gradientcontrolled depressurization.Hydraulic fracturing can homogenize the stress field and gas pressure field in the original coal seam via communication pressure equalization and reduction decompression,reduce the elastic and extension energies,increase the minimum failure energy required for instability;and realize the elimination of gas outbursts.Our findings provide some theoretical support for the efficient development of coalbed methane and the prevention and control of dynamic gas disasters in coal mines.展开更多
Solar-driven Fenton-like reactions are promising strategies for degrading pharmaceutical wastewater to address environmental challenges and antibiotic pollution.However,its efficacy is limited by suboptimal light abso...Solar-driven Fenton-like reactions are promising strategies for degrading pharmaceutical wastewater to address environmental challenges and antibiotic pollution.However,its efficacy is limited by suboptimal light absorption efficiency,rapid charge recombination,and inadequate interfacial charge transfer.In this study,an inorganic/organic S-scheme photo-Fenton system of pseudobrookite/carbon nitride(FTOCN)was synthesized via a hydrothermally coupled calcination process for the effective purification of tetracycline antibiotics under visible-light irradiation.The optimized FTOCN-2 heterostructure exhibits a significantly enhanced TC degradation capacity of 90%within 60 min.The rate constant of FTOCN-2 is 1.6 and 5.2 times greater than those of FTO and CN,respectively.Furthermore,FTOCN exhibits high antibacterial efficacy,highlighting its potential application in the purification of natural water.Measurements via a range of analytical techniques,including Kelvin probe force microscopy,density functional theory calculations,in situ X-ray photoelectron spectroscopy,and femtosecond transient absorption spectroscopy,corroborate the S-scheme mechanism.This study provides a novel perspective for the development of photo-Fenton systems with S-scheme heterojunctions for water purification.展开更多
Ti-10V-2Fe-3Al alloy with fine-grainedβphases was fabricated by friction stir processing with opti-mized processing parameters.The superplastic behavior of the specimens was investigated by tensile deformation at dif...Ti-10V-2Fe-3Al alloy with fine-grainedβphases was fabricated by friction stir processing with opti-mized processing parameters.The superplastic behavior of the specimens was investigated by tensile deformation at different strain rates and temperatures,and an optimal superplastic elongation of 634%was achieved at 700℃ and 3×10^(-4)/s.An annealing treatment at 650℃ for 60 min showed a mi-crostructure withαprecipitates distributed in theβmatrix in the friction stir specimen.Such pre-heat treatment improves the superplasticity of the specimen,achieving an elongation of up to 807%at 750℃ and 3×10^(-4)/s.The influences of tensile temperatures and strain rates on the microstructural evolution,such as grain size variation,grain morphology,and phase transformations,were discussed.The super-plastic deformation behavior of fine-grained Ti-10V-2Fe-3Al alloy is controlled by grain boundary sliding and accompanied by dynamic phase transformation and recrystallization.展开更多
Alzheimer’s disease is a neurodegenerative disease resulting from deficits in synaptic transmission and homeostasis.The Alzheimer’s disease brain tends to be hyperexcitable and hypersynchronized,thereby causing neur...Alzheimer’s disease is a neurodegenerative disease resulting from deficits in synaptic transmission and homeostasis.The Alzheimer’s disease brain tends to be hyperexcitable and hypersynchronized,thereby causing neurodegeneration and ultimately disrupting the operational abilities in daily life,leaving patients incapacitated.Repetitive transcranial magnetic stimulation is a cost-effective,neuro-modulatory technique used for multiple neurological conditions.Over the past two decades,it has been widely used to predict cognitive decline;identify pathophysiological markers;promote neuroplasticity;and assess brain excitability,plasticity,and connectivity.It has also been applied to patients with dementia,because it can yield facilitatory effects on cognition and promote brain recovery after a neurological insult.However,its therapeutic effectiveness at the molecular and synaptic levels has not been elucidated because of a limited number of studies.This study aimed to characterize the neurobiological changes following repetitive transcranial magnetic stimulation treatment,evaluate its effects on synaptic plasticity,and identify the associated mechanisms.This review essentially focuses on changes in the pathology,amyloidogenesis,and clearance pathways,given that amyloid deposition is a major hypothesis in the pathogenesis of Alzheimer’s disease.Apoptotic mechanisms associated with repetitive transcranial magnetic stimulation procedures and different pathways mediating gene transcription,which are closely related to the neural regeneration process,are also highlighted.Finally,we discuss the outcomes of animal studies in which neuroplasticity is modulated and assessed at the structural and functional levels by using repetitive transcranial magnetic stimulation,with the aim to highlight future directions for better clinical translations.展开更多
Alcohol-related liver disease(ALD),which is induced by excessive alcohol con-sumption,is a leading cause of liver-related morbidity and mortality.ALD pa-tients exhibit a spectrum of liver injuries,including hepatic st...Alcohol-related liver disease(ALD),which is induced by excessive alcohol con-sumption,is a leading cause of liver-related morbidity and mortality.ALD pa-tients exhibit a spectrum of liver injuries,including hepatic steatosis,inflam-mation,and fibrosis,similar to symptoms of nonalcohol-associated liver diseases such as primary biliary cholangitis,metabolic dysfunction-associated steatotic liver disease,and nonalcoholic steatohepatitis.Elafibranor has been approved for the treatment of primary biliary cholangitis and has been shown to improve symptoms in both animal models and in vitro cell models of metabolic dysfunc-tion-associated steatotic liver disease and nonalcoholic steatohepatitis.However,the efficacy of elafibranor in treating ALD remains unclear.In this article,we comment on the recent publication by Koizumi et al that evaluated the effects of elafibranor on liver fibrosis and gut barrier function in an ALD mouse model.Their findings indicate the potential of elafibranor for ALD treatment,but further experimental investigations and clinical trials are warranted.展开更多
Dyslipidemia,a complex disorder characterized by systemic lipid profile abnormalities,affects more than half of adults globally and constitutes a major modifiable risk factor for atherosclerotic cardiovascular disease...Dyslipidemia,a complex disorder characterized by systemic lipid profile abnormalities,affects more than half of adults globally and constitutes a major modifiable risk factor for atherosclerotic cardiovascular disease.Mounting evidence has established the gut microbiota(GM)as a pivotal metabolic modulator that is correlated with atherogenic lipid profiles through dietary biotransformation,immunometabolic regulation,and bioactive metabolite signaling.However,the host-microbe interactions that drive dyslipidemia pathogenesis involve complex gene-environment crosstalk spanning epigenetic modifications to circadian entrainment.Mechanistically,GM perturbations disrupt lipid homeostasis via lipopolysaccharide-triggered hepatic very low-density lipoprotein overproduction,short-chain fatty acid-G protein-coupled receptor 43/41-mediated adipocyte lipolysis,bile acid-farnesoid X receptor/Takeda G proteincoupled receptor 5 axis dysfunction altering cholesterol flux,microbialβ-oxidation intermediates impairing mitochondrial energetics,and host-microbiota noncoding RNA crosstalk regulating lipogenic genes.This comprehensive review systematically examines three critical dimensions,including bidirectional GMlipid axis interactions,molecular cascades bridging microbial ecology to metabolic dysfunction,and translational applications of GM modulation through precision probiotics,structure-specific prebiotics,and a metabolically optimized fecal microbiota transplantation protocol.Notwithstanding these advances,critical gaps persist in establishing causal microbial taxa-pathway relationships and optimal intervention timing.Future directions require longitudinal multi-omic studies,gnotobiotic models for mechanistic validation,and machine learning-driven personalized microbiota profiling.This synthesis provides a framework for developing microbiotacentric strategies targeting dyslipidemia pathophysiology,with implications for precision dyslipidemia management and next-generation cardiovascular disease prevention.展开更多
This letter addresses the study by Jayabalan et al,which underscores the liver outcome score(LOS)and hemoglobin(Hb)as key prognostic markers for patients with autoimmune liver disease overlap syndromes(AILDOS),with pa...This letter addresses the study by Jayabalan et al,which underscores the liver outcome score(LOS)and hemoglobin(Hb)as key prognostic markers for patients with autoimmune liver disease overlap syndromes(AILDOS),with particular relevance to the autoimmune hepatitis-primary biliary cholangitis(AIH-PBC)subgroup.The findings indicate that an LOS threshold of 6 achieves high sensitivity and specificity in predicting liver-related mortality among AIH-PBC patients.Moreover,low Hb levels emerge as a significant mortality predictor across all AILDOS cases.These results contribute valuable perspectives on risk stratification in AILDOS,highlighting the promise of non-invasive prognostic tools.Future studies with larger cohorts are needed to substantiate LOS and Hb as robust markers for clinical application.展开更多
Post-traumatic stress disorder(PTSD)is a severe neuropsychiatric disorder characterised by reexperiencing,avoidance and hyperarousal.Memory abnormalities manifested as intrusive thoughts and prolonged distressful emot...Post-traumatic stress disorder(PTSD)is a severe neuropsychiatric disorder characterised by reexperiencing,avoidance and hyperarousal.Memory abnormalities manifested as intrusive thoughts and prolonged distressful emotions are postulated as key roles in PTSD development and persistence.Over the past decades,convergent results from human and animal studies have systematically investigated contributions of the amygdala,hippocampus and medial prefrontal cortex(mPFC)in fear memory processes,including fear acquisition,storage,reconsolidation and extinction.These findings provide mechanistic insights for cognitive-behavioural therapy and aid in developing pathological region-targeted neuromodulation treatment for PTSD.Taking advantage of advances in cell-type selective labelling and manipulation technologies,recent studies have focused on the spatiotemporal regulation of neural circuits underlying distinct phases of fear memory processes.These findings have revealed that multiple distributed brain areas participate in the fear memory encoding network.Moreover,the functional role of distinct neuronal ensembles within the amygdala-hippocampus-mPFC pathway,identified by genetic markers and projection profiles,has been assigned to temporally separate features of fear processing,demonstrating the sophistication of the fear encoding circuit.These results provide mechanistic insights into PTSD pathology and might shed light on aetiology-based clinical interventions for PTSD.Therefore,the present review will mainly focus on the recent progress in elucidating neural circuit mechanisms underlying the dynamic regulation of fear memory,with an emphasis on the spatial distribution of fear memory encoding neural networks and the temporal coherence between neuronal ensemble activity and fear expression.展开更多
Alterations in the mesenchymal-epithelial transition factor(MET)gene are critical drivers of non-small cell lung cancer(NSCLC).In recent years advances in precision therapies targeting MET alterations have significant...Alterations in the mesenchymal-epithelial transition factor(MET)gene are critical drivers of non-small cell lung cancer(NSCLC).In recent years advances in precision therapies targeting MET alterations have significantly expanded treatment options for NSCLC patients.These alterations include MET exon 14 skipping mutations(MET exon 14 skipping),MET gene amplifications,MET point mutations(primarily kinase domain mutations),and MET protein overexpression.Accurate identification of these alterations and appropriate selection of patient populations and targeted therapies are essential for improving clinical outcomes.The East China Lung Cancer Group,Youth Committee(ECLUNG YOUNG,Yangtze River Delta Lung Cancer Cooperation Group)has synthesized insights from China’s innovative drug development landscape and clinical practice to formulate an expert consensus on the diagnosis and treatment of NSCLC patients with MET alterations.This consensus addresses key areas,such as optimal testing timing,testing methods,testing strategies,quality control measures,and treatment approaches.By offering standardized recommendations,this guidance aims to streamline diagnostic and therapeutic processes and enhance clinical decision-making for NSCLC with MET alterations.展开更多
The electromagnetic swirling flow in nozzle(EMSFN)technique is designed to mitigate the adverse effects of unstable and uneven flow within the submerged entry nozzle in continuous casting.Utilizing electromagnetic for...The electromagnetic swirling flow in nozzle(EMSFN)technique is designed to mitigate the adverse effects of unstable and uneven flow within the submerged entry nozzle in continuous casting.Utilizing electromagnetic forces,EMSFN stabilizes the flow within the nozzle,leading to a more controlled flow in the mold.Numerical simulations were used to quantitatively analyze the magnetic and flow fields in a slab continuous casting system under EMSFN.Results indicate that EMSFN significantly stabilizes the outflow from the nozzle,with stability increasing with higher current intensity.At 10,000 Ampere-turns(At)of the coil,meniscus fluctuations were unstable.They stabilized at 13,000 At,with minimal changes observed beyond this point.The optimal current intensity for stable mold flow,at a casting speed of 1.56 m/min,is 13,000 At.These findings confirm the effectiveness of EMSFN in stabilizing the internal flow field of the slab mold and determining optimal operational current intensity.展开更多
Correction to:J.Iron Steel Res.Int.https://doi.org/10.1007/s42243-025-01460-1 The publication of this article unfortunately contained mistakes.The revised and accepted dates were not correct.The corrected dates are gi...Correction to:J.Iron Steel Res.Int.https://doi.org/10.1007/s42243-025-01460-1 The publication of this article unfortunately contained mistakes.The revised and accepted dates were not correct.The corrected dates are given below.展开更多
This letter discusses the recent study by Mukherjee et al,which identifies a significant prevalence of metabolic dysfunction-associated steatotic liver disease(MASLD)among newly diagnosed type 2 diabetes mellitus(T2DM...This letter discusses the recent study by Mukherjee et al,which identifies a significant prevalence of metabolic dysfunction-associated steatotic liver disease(MASLD)among newly diagnosed type 2 diabetes mellitus(T2DM)patients in Bihar,India,and underscores the pressing need for integrated MASLD mana-gement within T2DM care.With 72.3%of the study cohort affected by MASLD,implementing routine liver function tests and ultrasound screenings is recom-mended as a standard practice in diabetes care,especially in regions with high prevalence rates.The study also advocates for dietary and lifestyle modifications,particularly the reduction of saturated fats,to slow MASLD progression.Patient education on monitoring body mass index and waist circumference,coupled with the integration of these metrics into digital health records,could enhance patient involvement and support proactive health management.Moreover,the letter emphasizes the advantages of developing a region-specific MASLD risk model that incorporates local dietary patterns and socioeconomic factors.Continued research into genetic and environmental determinants of MASLD remains es-sential for advancing our understanding of its etiology and informing targeted public health strategies.展开更多
Since 2020,the global energy market has faced persistent disruptions due to geological tensions and the economic competition among great nations,with liquefied natural gas(LNG)emerging as a vital instrument in balanci...Since 2020,the global energy market has faced persistent disruptions due to geological tensions and the economic competition among great nations,with liquefied natural gas(LNG)emerging as a vital instrument in balancing energy security and transition within the global carbon neutrality framework.This study reviewed the global LNG market from 2020 to 2024 through prices,trade flows,liquefaction capacity,shipping,and regasification infrastructure to provide medium-and long-term market outlooks in terms of supply,demand,trade,liquefaction capacity,and prices.The following research results were obtained:(1)The global LNG market underwent profound reconstruction between 2020 and 2024,with natural gas prices retreating sharply after a period of extreme volatility.(2)LNG trade flows were fundamentally reshaped by a pronounced shift toward Europe,disrupting the traditional Asia-centric landscape.(3)Liquefaction capacity growth decelerated,with the United States surpassing Australia to become the world's largest market in terms of liquefaction capacity.(4)Global natural gas production is poised for steady growth,while demand retains substantial potential,driven by both economic expansion and energy transition.(5)A forthcoming wave of liquefaction projects is expected to create a less restricted supply-demand market balance,which would likely lead to diverging price paths and narrower spreads between major hubs.The LNG industry faces promising opportunities from energy transition and digitalization,particularly for floating storage regasification units and small-scale LNG,while confronting major challenges,including persistent geopolitical tensions,shipping route uncertainties,and increasing dependence on the pace of renewable energy deployment.展开更多
The root-knot nematode disease(RKN)caused by Meloidogyne incognita is a devastating threat to the production of crops,especially greenhouse vegetables.Fluopyram,a new nematicide,has been widely used by root drenching ...The root-knot nematode disease(RKN)caused by Meloidogyne incognita is a devastating threat to the production of crops,especially greenhouse vegetables.Fluopyram,a new nematicide,has been widely used by root drenching one-by-one plants for the management of RKN.However,as a common non-fumigation nematicide,its distribution in soil was often the key limiting factor that determined the efficacy and efficiency.To optimize the utilization of fluopyram against RKN,the control efficacy of application methods including blending-of-soil,rootirrigation,drip-irrigation,and furrow-irrigation and the correlation between nematicide distribution and efficacy were studied.The toxicities of fluopyram and abamectin to nematodes collected from different sources and backgrounds exhibited limited differences from crop and region.Compared to the control,all nematicide treatments reduced root galling by M.incognita in cucumber and increased the yield of cucumber.Blending-of-soil treatment and root-irrigation treatment were more beneficial for increasing the distribution area of nematicides in soil,then promoting the control efficacy of nematicides against RKN and improving cucumber production.This work showed that the application of fluopyram by blending-of-soil has the same efficacy as by rootirrigation in controlling RKN in cucumber production,moreover is more efficient and can be an alternative option.展开更多
基金supported by the National Natural Science Foundation of China,No.82202718the Natural Science Foundation of Beijing,No.L212050the China Postdoctoral Science Foundation,Nos.2019M664007,2021T140793(all to ZL)。
文摘Autografting is the gold standard for surgical repair of nerve defects>5 mm in length;however,autografting is associated with potential complications at the nerve donor site.As an alternative,nerve guidance conduits may be used.The ideal conduit should be flexible,resistant to kinks and lumen collapse,and provide physical cues to guide nerve regeneration.We designed a novel flexible conduit using electrospinning technology to create fibers on the innermost surface of the nerve guidance conduit and employed melt spinning to align them.Subsequently,we prepared disordered electrospun fibers outside the aligned fibers and helical melt-spun fibers on the outer wall of the electrospun fiber lumen.The presence of aligned fibers on the inner surface can promote the extension of nerve cells along the fibers.The helical melt-spun fibers on the outer surface can enhance resistance to kinking and compression and provide stability.Our novel conduit promoted nerve regeneration and functional recovery in a rat sciatic nerve defect model,suggesting that it has potential for clinical use in human nerve injuries.
基金Project supported by the Science and Technology Project of Henan Province(242102321048,242102321045,232102320211)National Natural Science Foundation of China(22206080)+2 种基金Natural Science Foundation of Jiangsu(SBK2022041070)International Science and Technology Cooperation Projects of Henan Province(232102521009)Natural Science Youth Foundation of Henan Province(232300420336)。
文摘A series of CeO_(2)@MnO_(2)composites was prepared by deposition-precipitation methods.These materials were used to activate sodium persulfate(PDS)for the oxidation of tetracycline.It is found that the composites,especially the CeO_(2)@MnO_(2)-1:4 composites,exhibit better tetracycline removal rates than the pure components.X-ray diffraction(XRD),Raman and scanning electron microscopy(SEM)analyses all indicate that the composite has been successfully prepared with high purity and high crystalline.The XPS analysis shows that the strong interaction between the components promotes the electron transfer.Additionally,the kinetic rate constants of CeO_(2)@MnO_(2)-1:4 after 60 min are 3.8 and 12.7 times higher than pure CeO_(2)and MnO_(2),respectively.CeO_(2)@MnO_(2-)1:4 composite also exhibits excellent catalytic activity for individual and hybrid pollutants.The effects of wastewater matrix,pH,circulation and ion stre ngth on the degradation of tetracycline were investigated.It is found that CeO_(2)@MnO_(2)-1:4 composite has good practical application prospects.CeO_(2)@MnO_(2)composites with synergistic adsorption catalysis can activate PDS and peroxymo no sulfate(PMS)for efficient organic catalytic oxidation.This paper provides the theoretical basis and data support for the practical application of the CeO_(2)@MnO_(2)composite materials.
基金financially supported by the National Key R&D Program(Nos.2023YFC3009000 and 2023YFC3006804)the National Natural Science Foundation of China(Nos.52130409,52121003,51874314,and 52274190).
文摘The hydraulic fractures induced in soft coal composite reservoirs have complex extension and energy evolution characteristics.In this study,the mechanism whereby gas outbursts can be eliminated by hydraulic fracturing was revealed.The combined fracturing process of a coal seam and its roof under different in situ stress and fracture spacing conditions was analysed through true triaxial physical tests and numerical simulations.The results showed that the pre-fracturing of the roof had a pressure relief effect on the coal seam,and the secondary pressure relief of the coal seam could be completed at a lower fracture initiation pressure.To ensure the continued presence of the stress shadow effect in actual projects,the fracture spacing should be maintained within the critical range influencing the fracture extension.If the vertical stress is high,a call on increasing the fracture spacing can be taken;otherwise,it must be reduced.In the early phase of fracturing,energy is mostly concentrated at the tip and surface of the fracture;however,the proportion of surface energy for subsequent fracturing is gradually reduced,and the energy is mostly used to open the formation and work on the surrounding matrix.Hydraulic fracturing creates new fractures to interconnect originally heterogeneously distributed gas zones,enabling the entire coal seam to first establish interconnected pressure equilibration,then undergo gradientcontrolled depressurization.Hydraulic fracturing can homogenize the stress field and gas pressure field in the original coal seam via communication pressure equalization and reduction decompression,reduce the elastic and extension energies,increase the minimum failure energy required for instability;and realize the elimination of gas outbursts.Our findings provide some theoretical support for the efficient development of coalbed methane and the prevention and control of dynamic gas disasters in coal mines.
文摘Solar-driven Fenton-like reactions are promising strategies for degrading pharmaceutical wastewater to address environmental challenges and antibiotic pollution.However,its efficacy is limited by suboptimal light absorption efficiency,rapid charge recombination,and inadequate interfacial charge transfer.In this study,an inorganic/organic S-scheme photo-Fenton system of pseudobrookite/carbon nitride(FTOCN)was synthesized via a hydrothermally coupled calcination process for the effective purification of tetracycline antibiotics under visible-light irradiation.The optimized FTOCN-2 heterostructure exhibits a significantly enhanced TC degradation capacity of 90%within 60 min.The rate constant of FTOCN-2 is 1.6 and 5.2 times greater than those of FTO and CN,respectively.Furthermore,FTOCN exhibits high antibacterial efficacy,highlighting its potential application in the purification of natural water.Measurements via a range of analytical techniques,including Kelvin probe force microscopy,density functional theory calculations,in situ X-ray photoelectron spectroscopy,and femtosecond transient absorption spectroscopy,corroborate the S-scheme mechanism.This study provides a novel perspective for the development of photo-Fenton systems with S-scheme heterojunctions for water purification.
基金financially supported by the National Natural Science Foundation of China(No.52105373)the China Scholarship Council(No.202106020094).
文摘Ti-10V-2Fe-3Al alloy with fine-grainedβphases was fabricated by friction stir processing with opti-mized processing parameters.The superplastic behavior of the specimens was investigated by tensile deformation at different strain rates and temperatures,and an optimal superplastic elongation of 634%was achieved at 700℃ and 3×10^(-4)/s.An annealing treatment at 650℃ for 60 min showed a mi-crostructure withαprecipitates distributed in theβmatrix in the friction stir specimen.Such pre-heat treatment improves the superplasticity of the specimen,achieving an elongation of up to 807%at 750℃ and 3×10^(-4)/s.The influences of tensile temperatures and strain rates on the microstructural evolution,such as grain size variation,grain morphology,and phase transformations,were discussed.The super-plastic deformation behavior of fine-grained Ti-10V-2Fe-3Al alloy is controlled by grain boundary sliding and accompanied by dynamic phase transformation and recrystallization.
基金supported by the Hefei Comprehensive National Science Center Hefei Brain Project(to KW)the National Natural Science Foundation of China,Nos.31970979(to KW),82101498(to XW)the STI2030-Major Projects,No.2021ZD0201800(to PH).
文摘Alzheimer’s disease is a neurodegenerative disease resulting from deficits in synaptic transmission and homeostasis.The Alzheimer’s disease brain tends to be hyperexcitable and hypersynchronized,thereby causing neurodegeneration and ultimately disrupting the operational abilities in daily life,leaving patients incapacitated.Repetitive transcranial magnetic stimulation is a cost-effective,neuro-modulatory technique used for multiple neurological conditions.Over the past two decades,it has been widely used to predict cognitive decline;identify pathophysiological markers;promote neuroplasticity;and assess brain excitability,plasticity,and connectivity.It has also been applied to patients with dementia,because it can yield facilitatory effects on cognition and promote brain recovery after a neurological insult.However,its therapeutic effectiveness at the molecular and synaptic levels has not been elucidated because of a limited number of studies.This study aimed to characterize the neurobiological changes following repetitive transcranial magnetic stimulation treatment,evaluate its effects on synaptic plasticity,and identify the associated mechanisms.This review essentially focuses on changes in the pathology,amyloidogenesis,and clearance pathways,given that amyloid deposition is a major hypothesis in the pathogenesis of Alzheimer’s disease.Apoptotic mechanisms associated with repetitive transcranial magnetic stimulation procedures and different pathways mediating gene transcription,which are closely related to the neural regeneration process,are also highlighted.Finally,we discuss the outcomes of animal studies in which neuroplasticity is modulated and assessed at the structural and functional levels by using repetitive transcranial magnetic stimulation,with the aim to highlight future directions for better clinical translations.
基金Supported by Natural Science Foundation of Shandong Province,China,No.ZR2019PC053the Projects of Medical and Health Technology Development Program in Shandong Province,China,No.202202020837 and No.202301040472.
文摘Alcohol-related liver disease(ALD),which is induced by excessive alcohol con-sumption,is a leading cause of liver-related morbidity and mortality.ALD pa-tients exhibit a spectrum of liver injuries,including hepatic steatosis,inflam-mation,and fibrosis,similar to symptoms of nonalcohol-associated liver diseases such as primary biliary cholangitis,metabolic dysfunction-associated steatotic liver disease,and nonalcoholic steatohepatitis.Elafibranor has been approved for the treatment of primary biliary cholangitis and has been shown to improve symptoms in both animal models and in vitro cell models of metabolic dysfunc-tion-associated steatotic liver disease and nonalcoholic steatohepatitis.However,the efficacy of elafibranor in treating ALD remains unclear.In this article,we comment on the recent publication by Koizumi et al that evaluated the effects of elafibranor on liver fibrosis and gut barrier function in an ALD mouse model.Their findings indicate the potential of elafibranor for ALD treatment,but further experimental investigations and clinical trials are warranted.
文摘This letter addresses the study by Jayabalan et al,which underscores the liver outcome score(LOS)and hemoglobin(Hb)as key prognostic markers for patients with autoimmune liver disease overlap syndromes(AILDOS),with particular relevance to the autoimmune hepatitis-primary biliary cholangitis(AIH-PBC)subgroup.The findings indicate that an LOS threshold of 6 achieves high sensitivity and specificity in predicting liver-related mortality among AIH-PBC patients.Moreover,low Hb levels emerge as a significant mortality predictor across all AILDOS cases.These results contribute valuable perspectives on risk stratification in AILDOS,highlighting the promise of non-invasive prognostic tools.Future studies with larger cohorts are needed to substantiate LOS and Hb as robust markers for clinical application.
基金supported by the National Natural Science Foundation of China(82401772)the Shanghai Municipal Education Commission(2021-01-07-00-02-E0086).
文摘Post-traumatic stress disorder(PTSD)is a severe neuropsychiatric disorder characterised by reexperiencing,avoidance and hyperarousal.Memory abnormalities manifested as intrusive thoughts and prolonged distressful emotions are postulated as key roles in PTSD development and persistence.Over the past decades,convergent results from human and animal studies have systematically investigated contributions of the amygdala,hippocampus and medial prefrontal cortex(mPFC)in fear memory processes,including fear acquisition,storage,reconsolidation and extinction.These findings provide mechanistic insights for cognitive-behavioural therapy and aid in developing pathological region-targeted neuromodulation treatment for PTSD.Taking advantage of advances in cell-type selective labelling and manipulation technologies,recent studies have focused on the spatiotemporal regulation of neural circuits underlying distinct phases of fear memory processes.These findings have revealed that multiple distributed brain areas participate in the fear memory encoding network.Moreover,the functional role of distinct neuronal ensembles within the amygdala-hippocampus-mPFC pathway,identified by genetic markers and projection profiles,has been assigned to temporally separate features of fear processing,demonstrating the sophistication of the fear encoding circuit.These results provide mechanistic insights into PTSD pathology and might shed light on aetiology-based clinical interventions for PTSD.Therefore,the present review will mainly focus on the recent progress in elucidating neural circuit mechanisms underlying the dynamic regulation of fear memory,with an emphasis on the spatial distribution of fear memory encoding neural networks and the temporal coherence between neuronal ensemble activity and fear expression.
文摘Alterations in the mesenchymal-epithelial transition factor(MET)gene are critical drivers of non-small cell lung cancer(NSCLC).In recent years advances in precision therapies targeting MET alterations have significantly expanded treatment options for NSCLC patients.These alterations include MET exon 14 skipping mutations(MET exon 14 skipping),MET gene amplifications,MET point mutations(primarily kinase domain mutations),and MET protein overexpression.Accurate identification of these alterations and appropriate selection of patient populations and targeted therapies are essential for improving clinical outcomes.The East China Lung Cancer Group,Youth Committee(ECLUNG YOUNG,Yangtze River Delta Lung Cancer Cooperation Group)has synthesized insights from China’s innovative drug development landscape and clinical practice to formulate an expert consensus on the diagnosis and treatment of NSCLC patients with MET alterations.This consensus addresses key areas,such as optimal testing timing,testing methods,testing strategies,quality control measures,and treatment approaches.By offering standardized recommendations,this guidance aims to streamline diagnostic and therapeutic processes and enhance clinical decision-making for NSCLC with MET alterations.
基金supported by the Application Technology of Automotive Steels(No.2021040300048)the National Natural Science Foundation of China(No.52304347)+2 种基金Hebei Provincial Natural Science Foundation(No.E2019501008),China Baowu Low Carbon Metallurgy Innovation Foundation(BWLCF202320)Natural Science Foundation of Liaoning Province(Nos.2023-MSBA-135 and 2023-BSBA-107)Fundamental Research Funds for the Central Universities(Nos.N2409008 and N2409006).
文摘The electromagnetic swirling flow in nozzle(EMSFN)technique is designed to mitigate the adverse effects of unstable and uneven flow within the submerged entry nozzle in continuous casting.Utilizing electromagnetic forces,EMSFN stabilizes the flow within the nozzle,leading to a more controlled flow in the mold.Numerical simulations were used to quantitatively analyze the magnetic and flow fields in a slab continuous casting system under EMSFN.Results indicate that EMSFN significantly stabilizes the outflow from the nozzle,with stability increasing with higher current intensity.At 10,000 Ampere-turns(At)of the coil,meniscus fluctuations were unstable.They stabilized at 13,000 At,with minimal changes observed beyond this point.The optimal current intensity for stable mold flow,at a casting speed of 1.56 m/min,is 13,000 At.These findings confirm the effectiveness of EMSFN in stabilizing the internal flow field of the slab mold and determining optimal operational current intensity.
文摘Correction to:J.Iron Steel Res.Int.https://doi.org/10.1007/s42243-025-01460-1 The publication of this article unfortunately contained mistakes.The revised and accepted dates were not correct.The corrected dates are given below.
文摘This letter discusses the recent study by Mukherjee et al,which identifies a significant prevalence of metabolic dysfunction-associated steatotic liver disease(MASLD)among newly diagnosed type 2 diabetes mellitus(T2DM)patients in Bihar,India,and underscores the pressing need for integrated MASLD mana-gement within T2DM care.With 72.3%of the study cohort affected by MASLD,implementing routine liver function tests and ultrasound screenings is recom-mended as a standard practice in diabetes care,especially in regions with high prevalence rates.The study also advocates for dietary and lifestyle modifications,particularly the reduction of saturated fats,to slow MASLD progression.Patient education on monitoring body mass index and waist circumference,coupled with the integration of these metrics into digital health records,could enhance patient involvement and support proactive health management.Moreover,the letter emphasizes the advantages of developing a region-specific MASLD risk model that incorporates local dietary patterns and socioeconomic factors.Continued research into genetic and environmental determinants of MASLD remains es-sential for advancing our understanding of its etiology and informing targeted public health strategies.
文摘Since 2020,the global energy market has faced persistent disruptions due to geological tensions and the economic competition among great nations,with liquefied natural gas(LNG)emerging as a vital instrument in balancing energy security and transition within the global carbon neutrality framework.This study reviewed the global LNG market from 2020 to 2024 through prices,trade flows,liquefaction capacity,shipping,and regasification infrastructure to provide medium-and long-term market outlooks in terms of supply,demand,trade,liquefaction capacity,and prices.The following research results were obtained:(1)The global LNG market underwent profound reconstruction between 2020 and 2024,with natural gas prices retreating sharply after a period of extreme volatility.(2)LNG trade flows were fundamentally reshaped by a pronounced shift toward Europe,disrupting the traditional Asia-centric landscape.(3)Liquefaction capacity growth decelerated,with the United States surpassing Australia to become the world's largest market in terms of liquefaction capacity.(4)Global natural gas production is poised for steady growth,while demand retains substantial potential,driven by both economic expansion and energy transition.(5)A forthcoming wave of liquefaction projects is expected to create a less restricted supply-demand market balance,which would likely lead to diverging price paths and narrower spreads between major hubs.The LNG industry faces promising opportunities from energy transition and digitalization,particularly for floating storage regasification units and small-scale LNG,while confronting major challenges,including persistent geopolitical tensions,shipping route uncertainties,and increasing dependence on the pace of renewable energy deployment.
基金supported by the National Key Research and Development Program of China(2022YFD1700500)the National Natural Science Foundation of China(32272596)the Modern Agricultural Industry Technology System for Vegetables in Shandong Province(SDAIT-05).
文摘The root-knot nematode disease(RKN)caused by Meloidogyne incognita is a devastating threat to the production of crops,especially greenhouse vegetables.Fluopyram,a new nematicide,has been widely used by root drenching one-by-one plants for the management of RKN.However,as a common non-fumigation nematicide,its distribution in soil was often the key limiting factor that determined the efficacy and efficiency.To optimize the utilization of fluopyram against RKN,the control efficacy of application methods including blending-of-soil,rootirrigation,drip-irrigation,and furrow-irrigation and the correlation between nematicide distribution and efficacy were studied.The toxicities of fluopyram and abamectin to nematodes collected from different sources and backgrounds exhibited limited differences from crop and region.Compared to the control,all nematicide treatments reduced root galling by M.incognita in cucumber and increased the yield of cucumber.Blending-of-soil treatment and root-irrigation treatment were more beneficial for increasing the distribution area of nematicides in soil,then promoting the control efficacy of nematicides against RKN and improving cucumber production.This work showed that the application of fluopyram by blending-of-soil has the same efficacy as by rootirrigation in controlling RKN in cucumber production,moreover is more efficient and can be an alternative option.
