Achieving mutual benefits in the process of city cluster integration is the core of sustainable regional economic development.This means the core city is driving and avoids the siphon effect.Therefore,it is crucial to...Achieving mutual benefits in the process of city cluster integration is the core of sustainable regional economic development.This means the core city is driving and avoids the siphon effect.Therefore,it is crucial to analyse which factors affect the differences in integration outcomes.In this paper,for the 28 districts and counties of Xiamen-Zhangzhou-Quanzhou City Cluster,we use FsQCA to analyse the configuration of the impacts of five conditions,namely,urbanization,infrastructure development,level of public services,degree of government intervention,and industrial structure,on the intensity of the districts and counties’economic linkages.This paper obtains four group conditions of high economic linkage intensity and seven paths leading to low economic linkage intensity.And in this regard,it puts forward suggestions such as constructing a mechanism for coordinated development of regional industries and accelerating the convenient sharing of public services.展开更多
Neuronal cell death is a common outcome of multiple pathophysiological processes and a key factor in neurological dysfunction after subarachnoid hemorrhage.Neuronal ferroptosis in particular plays an important role in...Neuronal cell death is a common outcome of multiple pathophysiological processes and a key factor in neurological dysfunction after subarachnoid hemorrhage.Neuronal ferroptosis in particular plays an important role in early brain injury.Bromodomain-containing protein 4,a member of the bromo and extraterminal domain family of proteins,participated in multiple cell death pathways,but the mechanisms by which it regulates ferroptosis remain unclear.The primary aim of this study was to investigate how bromodomain-containing protein 4 affects neuronal ferroptosis following subarachnoid hemorrhage in vivo and in vitro.Our findings revealed that endogenous bromodomain-containing protein 4 co-localized with neurons,and its expression was decreased 48 hours after subarachnoid hemorrhage of the cerebral cortex in vivo.In addition,ferroptosis-related pathways were activated in vivo and in vitro after subarachnoid hemorrhage.Targeted inhibition of bromodomain-containing protein 4 in neurons increased lipid peroxidation and intracellular ferrous iron accumulation via ferritinophagy and ultimately led to neuronal ferroptosis.Using cleavage under targets and tagmentation analysis,we found that bromodomain-containing protein 4 enrichment in the Raf-1 promoter region decreased following oxyhemoglobin stimulation in vitro.Furthermore,treating bromodomain-containing protein 4-knockdown HT-22 cell lines with GW5074,a Raf-1 inhibitor,exacerbated neuronal ferroptosis by suppressing the Raf-1/ERK1/2 signaling pathway.Moreover,targeted inhibition of neuronal bromodomain-containing protein 4 exacerbated early and long-term neurological function deficits after subarachnoid hemorrhage.Our findings suggest that bromodomain-containing protein 4 may have neuroprotective effects after subarachnoid hemorrhage,and that inhibiting ferroptosis could help treat subarachnoid hemorrhage.展开更多
Alzheimer's disease is the most common type of cognitive disorder,and there is an urgent need to develop more effective,targeted and safer therapies for patients with this condition.Deep brain stimulation is an in...Alzheimer's disease is the most common type of cognitive disorder,and there is an urgent need to develop more effective,targeted and safer therapies for patients with this condition.Deep brain stimulation is an invasive surgical treatment that modulates abnormal neural activity by implanting electrodes into specific brain areas followed by electrical stimulation.As an emerging therapeutic approach,deep brain stimulation shows significant promise as a potential new therapy for Alzheimer's disease.Here,we review the potential mechanisms and therapeutic effects of deep brain stimulation in the treatment of Alzheimer's disease based on existing clinical and basic research.In clinical studies,the most commonly targeted sites include the fornix,the nucleus basalis of Meynert,and the ventral capsule/ventral striatum.Basic research has found that the most frequently targeted areas include the fornix,nucleus basalis of Meynert,hippocampus,entorhinal cortex,and rostral intralaminar thalamic nucleus.All of these individual targets exhibit therapeutic potential for patients with Alzheimer's disease and associated mechanisms of action have been investigated.Deep brain stimulation may exert therapeutic effects on Alzheimer's disease through various mechanisms,including reducing the deposition of amyloid-β,activation of the cholinergic system,increasing the levels of neurotrophic factors,enhancing synaptic activity and plasticity,promoting neurogenesis,and improving glucose metabolism.Currently,clinical trials investigating deep brain stimulation for Alzheimer's disease remain insufficient.In the future,it is essential to focus on translating preclinical mechanisms into clinical trials.Furthermore,consecutive follow-up studies are needed to evaluate the long-term safety and efficacy of deep brain stimulation for Alzheimer's disease,including cognitive function,neuropsychiatric symptoms,quality of life and changes in Alzheimer's disease biomarkers.Researchers must also prioritize the initiation of multi-center clinical trials of deep brain stimulation with large sample sizes and target earlier therapeutic windows,such as the prodromal and even the preclinical stages of Alzheimer's disease.Adopting these approaches will permit the efficient exploration of more effective and safer deep brain stimulation therapies for patients with Alzheimer's disease.展开更多
Agricultural pests cause enormous losses in annual agricultural production.Understanding the evolutionary responses and adaptive capacity of agricultural pests under climate change is crucial for establishing sustaina...Agricultural pests cause enormous losses in annual agricultural production.Understanding the evolutionary responses and adaptive capacity of agricultural pests under climate change is crucial for establishing sustainable and environmentally friendly agricultural pest management.In this study,we integrate climate modeling and landscape genomics to investigate the distributional dynamics of the cotton bollworm(Helicoverpa armigera)in the adaptation to local environments and resilience to future climate change.Notably,the predicted inhabitable areas with higher suitability for the cotton bollworm could be eight times larger in the coming decades.Climate change is one of the factors driving the dynamics of distribution and population differentiation of the cotton bollworm.Approximately 19,000 years ago,the cotton bollworm expanded from its ancestral African population,followed by gradual occupations of the European,Asian,Oceanian,and American continents.Furthermore,we identify seven subpopulations with high dispersal and adaptability which may have an increased risk of invasion potential.Additionally,a large number of candidate genes and SNPs linked to climatic adaptation were mapped.These findings could inform sustainable pest management strategies in the face of climate change,aiding future pest forecasting and management planning.展开更多
The combination of advanced photoelectric detectors has rendered single-band camouflage materials ineffective,necessitating the development of infrared multispectral camouflage.However,the design and fabrication of ex...The combination of advanced photoelectric detectors has rendered single-band camouflage materials ineffective,necessitating the development of infrared multispectral camouflage.However,the design and fabrication of existing works remain complex as they usually require the integration of multiscale structures.Here,we introduce phase modulation into the infrared camouflage metasurfaces with metal-dielectric-metal configuration,enabling them to achieve camouflage across more bands.Based on this strategy,a simple but effective single-layer cascaded metasurface is demonstrated for the first time to achieve low reflection at multi-wavelength lasers,low infrared radiation in atmospheric windows,and broadband thermal management.As a proof-of-concept,a 4-inch sample with a minimum linewidth of 1.8μm is fabricated using photolithography.The excellent infrared multispectral camouflage performance is verified in experiments,showing low reflectance in 0.9–1.6μm,low infrared emissivity in mid-wavelength infrared(MWIR)and long-wavelength infrared(LWIR)bands,and high absorptance at the wavelength of 10.6μm.Meanwhile,broadband high emissivity in 5–8μm can provide high-performance radiative heat dissipation.When the input power is 1.57 W·cm^(-2),the surface/radiation temperature of the metasurface decreases by 5.3℃/18.7℃ compared to the reference.The proposed metasurface may trigger further innovation in the design and application of compact multispectral optical devices.展开更多
Knee osteoarthritis(KOA),characterized by heterogeneous arthritic manifestations and complex peripheral joint disorder,is one of the leading causes of disability worldwide,which has become a high burden due to the mul...Knee osteoarthritis(KOA),characterized by heterogeneous arthritic manifestations and complex peripheral joint disorder,is one of the leading causes of disability worldwide,which has become a high burden due to the multifactorial nature and the deficiency of available disease-modifying treatments.The application of mesenchymal stem/stromal cells(MSCs)as therapeutic drugs has provided novel treatment options for diverse degenerative and chronic diseases including KOA.However,the complexity and specificity of the“live”cells have posed challenges for MSC-based drug development and the concomitant scale-up preparation from laboratory to industrialization.For instance,despite the considerable progress in ex vivo cell culture technology for fulfilling the robust development of drug conversion and clinical trials,yet significant challenges remain in obtaining regulatory approvals.Thus,there’s an urgent need for the research and development of MSC drugs for KOA.In this review,we provide alternative solution strategies for the preparation of MSC drugs on the basis of the principle of quality by design,including designing the cell production processes,quality control,and clinical applications.In detail,we mainly focus on the quality by design method for MSC manufacturing in standard cell-culturing factories for the treatment of KOA by using the Quality Target Product Profile as a starting point to determine potential critical quality attributes and to establish relationships between critical material attributes and critical process parameters.Collectively,this review aims to meet product performance and robust process design,and should help to reduce the gap between compliant products and the production of compliant good manufacturing practice.展开更多
This study presents a breakthrough in flexible strain sensor technology with the development of an ultrahigh sensitivity and wide-range sensor,addressing the critical challenge of reconciling sensitivity with measurem...This study presents a breakthrough in flexible strain sensor technology with the development of an ultrahigh sensitivity and wide-range sensor,addressing the critical challenge of reconciling sensitivity with measurement range.Inspired by the structure of bamboo slips,we introduce a novel approach that utilises liquid metal to modulate the electrical pathways within a cracked platinum fabric electrode.The resulting sensor demonstrates a gauge factor greater than 108 and a strain measurement capability exceeding 100%.The integration of patterned liquid metal enables customisable tuning of the sensor’s response,while the porous fabric structure ensures superior comfort and air permeability for the wearer.Our design not only optimises the sensor’s performance but also enhances the electrical stability that is essential for practical applications.Through systematic investigation,we reveal the intrinsic mechanisms governing the sensor’s response,offering valuable insights for the design of wearable strain sensors.The sensor’s exceptional performance across a spectrum of applications,from micro-strain to large-strain detection,highlights its potential for a wide range of real-world uses,demonstrating a significant advancement in the field of flexible electronics.展开更多
Background The heterogeneity of depression limits the treatment outcomes of intermittent theta burst stimulation(iTBS)and hinders the identification of predictive factors.This study investigated functional network con...Background The heterogeneity of depression limits the treatment outcomes of intermittent theta burst stimulation(iTBS)and hinders the identification of predictive factors.This study investigated functional network connectivity and predictors of iTBS treatment outcomes in adolescents and young adults with depression.Aim This study aimed to identify default mode network(DMN)-based connectivity patterns associated with varying iTBS treatment outcomes in depression.Methods Data from a randomised controlled trial of iTBS in depression(n=82)were analysed using a data-driven approach to classify homogeneous subgroups based on the DMN.Connectivity subgroups were compared on depressive symptoms and cognitive function at pretreatment and post-treatment.Furthermore,the predictive significance of baseline inflammatory cytokines on post-treatment outcomes was evaluated.Results Two distinct subgroups were identified.Subgroup 1 exhibited high heterogeneity and greater centrality in the posterior cingulate cortex and retrosplenial cortex,while subgroup 2 showed more homogeneous connectivity patterns and greater centrality in the temporoparietal junction and posterior inferior parietal lobule.No main effect for subgroup,treatment or subgroup×treatment interaction was revealed in the improvement of depressive symptoms.A significant subgroup×treatment interaction related to symbol coding improvement was detected(F=5.22,p=0.026).Within subgroup 1,the active group showed significantly greater improvement in symbol coding compared with the sham group(t=2.30,p=0.028),while baseline levels of interleukin-6 and C-reactive protein emerged as significant indicators for predicting improvements in symbolic coding(R2=0.35,RMSE(root-mean-square error)=5.72,p=0.013).Subgroup 2 showed no significant findings in terms of cognitive improvement or inflammatory cytokines predictions.展开更多
Hepatitis E virus(HEV)represents a significant global cause of acute viral hepatitis.Annually,it is estimated to cause approximately 20.1 million infections worldwide,3.3 million of which result in symptomatic illness...Hepatitis E virus(HEV)represents a significant global cause of acute viral hepatitis.Annually,it is estimated to cause approximately 20.1 million infections worldwide,3.3 million of which result in symptomatic illness.In developing regions,genotypes HEV-1 and HEV-2 are the primary strains responsible for widespread outbreaks and epidemics of acute jaundice(icteric hepatitis),transmitted predominantly through the fecal-oral route via contaminated water and food(Devarbhavi et al.,2023).展开更多
Iron-based superconductors(FeSCs)feature a complex phase diagram,and their diverse cleavage terminations offer a versatile platform for modulating surface electronic states and investigating the underlying superconduc...Iron-based superconductors(FeSCs)feature a complex phase diagram,and their diverse cleavage terminations offer a versatile platform for modulating surface electronic states and investigating the underlying superconducting mechanisms.In this study,we explore the surface modulation of KCa_(2)Fe_(4)As_(4)F_(2)using scanning tunneling microscopy/spectroscopy.Cryogenically cleaved surfaces reveal multiple configurations,including√2×√2 reconstruction,1×2 and 1×3 stripes,as well as nanoscale vacancies.Reducing potassium coverage induces hole doping,which shifts the density of states peak toward the Fermi level and suppresses the superconducting gap from 4.8 meV to 3.2 meV.This behavior is reminiscent of the Van Hove singularity observed in hole-doped 122-type FeSCs.The band structure does not undergo a simple rigid shift,and the evolution of superconductivity can be attributed to the interplay between surface carriers and electronic correlations.Additionally,a V-shaped gap is observed at a unique location preserving the FeAs bilayer structure,where interlayer coupling effects are likely involved.The diversity of surface structures and electronic states in K12442 enhances our understanding of FeSCs and facilitates the modulation and application of FeAs superconducting layers.展开更多
BACKGROUND Emerging evidence has demonstrated that ANXA13 is closely related to the occurrence and development of malignant tumors.However,the functions and underlying molecular mechanisms of ANXA13 in hepatocellular ...BACKGROUND Emerging evidence has demonstrated that ANXA13 is closely related to the occurrence and development of malignant tumors.However,the functions and underlying molecular mechanisms of ANXA13 in hepatocellular carcinoma(HCC)have not been defined.AIM To examine the expression of ANXA13 in HCC,investigate its correlation with clinicopathological features.METHODS Quantitative real-time PCR and western blotting were performed to detect the ANXA13 expression in HCC tissues and cell lines at the mRNA and protein levels,respectively.Transwell and cell counting kit-8 assays were performed to assess the effects of ANXA13 overexpression on the proliferation and migration of Huh7 cells.RESULTS ANXA13 mRNA was significantly downregulated in HCC tissues,while protein levels were elevated.ANXA13 expression correlated positively with tumor diameter and tumor node metastasis stage.In HCC cell lines(Hep3B and Huh7),ANXA13 expression was higher.Overexpression of ANXA13 enhanced the proliferation and migration capabilities of Huh7 cells.CONCLUSION ANXA13 was upregulated in HCC.Its overexpression promotes tumor progression and is associated with advanced clinicopathological features,suggesting ANXA13 as a potential biomarker and therapeutic target for HCC.展开更多
Immense attention has been focused on developing supercapacitors in the field of energy storage by virtue of their exceptional power density,extended cycling stability and operational safety.However,traditional liquid...Immense attention has been focused on developing supercapacitors in the field of energy storage by virtue of their exceptional power density,extended cycling stability and operational safety.However,traditional liquid electrolytes pose severe challenges in response to leakage,high volatility and low electrochemical stability issues.To address these problems,we have developed a novel composite polymer membrane for gel polymer electrolytes(GPEs).This membrane features an internal fibrous framework composed of shape-memory polymers,while surface dielectric layers of PVDF-HFP cross-linked with modified TiO_(2)nanoparticles are constructed on both sides of the framework.This configuration modulates the Stern layer potential gradient and diffuse layer ionic distribution through dielectric polarization,thereby suppressing electrolyte decomposition at high voltages,mitigating side reactions and facilitating ionic conduction.The resultant quasi-solid-state supercapacitor demonstrates excellent electrochemical stability at a voltage of 3.5 V,achieving an energy density of 43.87 Wh kg^(-1),with a high-power density of 22.66 kW kg^(-1)along with exceptional cyclic stability and mechanical flexibility.The synergistic structural design offers a safe and efficient energy harvesting solution for wearable electronic devices and portable energy storage systems.展开更多
Na_(3)V_(2)(PO_(4))_(2)O_(2)F (VP) is recognized as a promising cathode material for sodium-ion batteries due to its stable structural framework and high specific capacity.Density functional theory (DFT) and finite el...Na_(3)V_(2)(PO_(4))_(2)O_(2)F (VP) is recognized as a promising cathode material for sodium-ion batteries due to its stable structural framework and high specific capacity.Density functional theory (DFT) and finite element simulations show that incorporating SO_(4)^(2-)into VP decreases its band gap,lowers the migration energy barrier,and ensures a uniform Na+concentration gradient and stress distribution during charge and discharge cycles.Consequently,the average Na+diffusion coefficient of Na_(3)V_(2)(PO_(4))_(1.95)(SO_(4))_(0.05)O_(2)F(VPS-1) is roughly double that of VP,leading to enhanced rate capability (80 C,75.5 mAh g^(-1)) and cycling stability (111.0 mAh g^(-1)capacity after 1000 cycles at 10 C current density) for VPS-1.VPS-1 exhibits outstanding fast-charging capabilities,achieving an 80%state of charge in just 8.1 min.The assembled VPS-1//SbSn/NPC full cell demonstrated stable cycling over 200 cycles at a high 5 C current,maintaining an average coulombic efficiency of 95.35%.展开更多
BACKGROUND Aberrant microRNAs expression and associated pathways have been proved participate in regulation vast various physiologic and pathologic processed of different human cancers including liver cancer.While,the...BACKGROUND Aberrant microRNAs expression and associated pathways have been proved participate in regulation vast various physiologic and pathologic processed of different human cancers including liver cancer.While,the function of miR-451a in liver cancer still indistinct.AIM To study the effect of miR-451a in liver cancer development.METHODS GeneChip microarray analysis performed to detect miR-451a expression in liver cancer tissues and normal liver tissues.Reverse transcription-polymerase chain reaction was used to validate the expression of miR-451a in liver cancer cell and other tumor cell lines.Construction of liver cancer cell lines that stably overexpressed miR-451a by transfecting Lentivirus produced by Genechem company.Methylthiazolyldiphenyl-tetrazolium(MTT)bromide assay and colony formation assay to determine the effect of miR-451a in liver cancer cell proliferation.Flow cytometry used to investigate whether miR-451a involved in liver cancer cell apoptosis.Cell migration ability was measured via wound scratch assay.Target gene was explored by bioinformatic analysis,and downstream molecule of miR-451a in liver cancer identified by rescue experiments.RESULTS MiR-451a expression significantly downregulation in liver cancer tissues compared with that in normal liver tissue.MiR-451a also obviously low-expressed in liver cancer cell,colorectal carcinoma cell and esophageal carcinoma cell lines.Human hepatoblastoma G2(HepG2)and BEL-7404 cell lines that stably overexpressed miR-451a by transfecting lentivirus constructed successfully.MTT bromide assay and colony formation assay showed that the overexpressed miR-451a inhibit HepG2 cell proliferation viability,but not BEL-7404 cell.Flow cytometry determined that miR-451a regulating proliferation not through inducing apoptosis.Wound scratch assay revealed that miR-451a overexpression suppressed HepG2 cell migration.Furthermore,mex-3 RNA binding family member C was predicted as the target gene by bioinformatic analysis,and rescue experiments confirmed the hypothesis.CONCLUSION Therefore,miR-451a may be candidate miRNA for understanding molecular mechanisms of liver cancer development and novel target in liver cancer cell.展开更多
文摘Achieving mutual benefits in the process of city cluster integration is the core of sustainable regional economic development.This means the core city is driving and avoids the siphon effect.Therefore,it is crucial to analyse which factors affect the differences in integration outcomes.In this paper,for the 28 districts and counties of Xiamen-Zhangzhou-Quanzhou City Cluster,we use FsQCA to analyse the configuration of the impacts of five conditions,namely,urbanization,infrastructure development,level of public services,degree of government intervention,and industrial structure,on the intensity of the districts and counties’economic linkages.This paper obtains four group conditions of high economic linkage intensity and seven paths leading to low economic linkage intensity.And in this regard,it puts forward suggestions such as constructing a mechanism for coordinated development of regional industries and accelerating the convenient sharing of public services.
基金supported by the National Natural Science Foundation of China,Nos.82371310(to YJ),82271306(to JP)the Sichuan Science and Technology Support Program,Nos.2023YFH0069(to JP),2023NSFSC0028(to YJ),2023NSFSC1559(to YJ),2022YFS0615(to JP),2022NSFSC1421(to JP)+1 种基金Scientific Research Project of Sichuan Provincial Health Commission,No.23LCYJ040(to YJ)Youth Foundation of Southwestern Medical University and Southwest Medical University Project,Nos.2020ZRQNA038(to JP),2021ZKZD013(to JP),2021LZXNYD-P01(to YJ),2023QN014(to JP).
文摘Neuronal cell death is a common outcome of multiple pathophysiological processes and a key factor in neurological dysfunction after subarachnoid hemorrhage.Neuronal ferroptosis in particular plays an important role in early brain injury.Bromodomain-containing protein 4,a member of the bromo and extraterminal domain family of proteins,participated in multiple cell death pathways,but the mechanisms by which it regulates ferroptosis remain unclear.The primary aim of this study was to investigate how bromodomain-containing protein 4 affects neuronal ferroptosis following subarachnoid hemorrhage in vivo and in vitro.Our findings revealed that endogenous bromodomain-containing protein 4 co-localized with neurons,and its expression was decreased 48 hours after subarachnoid hemorrhage of the cerebral cortex in vivo.In addition,ferroptosis-related pathways were activated in vivo and in vitro after subarachnoid hemorrhage.Targeted inhibition of bromodomain-containing protein 4 in neurons increased lipid peroxidation and intracellular ferrous iron accumulation via ferritinophagy and ultimately led to neuronal ferroptosis.Using cleavage under targets and tagmentation analysis,we found that bromodomain-containing protein 4 enrichment in the Raf-1 promoter region decreased following oxyhemoglobin stimulation in vitro.Furthermore,treating bromodomain-containing protein 4-knockdown HT-22 cell lines with GW5074,a Raf-1 inhibitor,exacerbated neuronal ferroptosis by suppressing the Raf-1/ERK1/2 signaling pathway.Moreover,targeted inhibition of neuronal bromodomain-containing protein 4 exacerbated early and long-term neurological function deficits after subarachnoid hemorrhage.Our findings suggest that bromodomain-containing protein 4 may have neuroprotective effects after subarachnoid hemorrhage,and that inhibiting ferroptosis could help treat subarachnoid hemorrhage.
基金supported by the Capital Fund for Health Improvement and Research,No.2022-2-2048(to WZ)the National Natural Science Foundation of China,No.81970992(to WZ)+3 种基金Capital Clinical Characteristic Application Research,No.Z121107001012161(to WZ)the Natural Science Foundation of Beijing,No.7082032(to WZ)the Key Technology R&D Program of Beijing Municipal Education Commission,No.KZ201610025030(to WZ)Project of Scientific and Technological Development of Traditional Chinese Medicine in Beijing,No.JJ2018-48(to WZ)。
文摘Alzheimer's disease is the most common type of cognitive disorder,and there is an urgent need to develop more effective,targeted and safer therapies for patients with this condition.Deep brain stimulation is an invasive surgical treatment that modulates abnormal neural activity by implanting electrodes into specific brain areas followed by electrical stimulation.As an emerging therapeutic approach,deep brain stimulation shows significant promise as a potential new therapy for Alzheimer's disease.Here,we review the potential mechanisms and therapeutic effects of deep brain stimulation in the treatment of Alzheimer's disease based on existing clinical and basic research.In clinical studies,the most commonly targeted sites include the fornix,the nucleus basalis of Meynert,and the ventral capsule/ventral striatum.Basic research has found that the most frequently targeted areas include the fornix,nucleus basalis of Meynert,hippocampus,entorhinal cortex,and rostral intralaminar thalamic nucleus.All of these individual targets exhibit therapeutic potential for patients with Alzheimer's disease and associated mechanisms of action have been investigated.Deep brain stimulation may exert therapeutic effects on Alzheimer's disease through various mechanisms,including reducing the deposition of amyloid-β,activation of the cholinergic system,increasing the levels of neurotrophic factors,enhancing synaptic activity and plasticity,promoting neurogenesis,and improving glucose metabolism.Currently,clinical trials investigating deep brain stimulation for Alzheimer's disease remain insufficient.In the future,it is essential to focus on translating preclinical mechanisms into clinical trials.Furthermore,consecutive follow-up studies are needed to evaluate the long-term safety and efficacy of deep brain stimulation for Alzheimer's disease,including cognitive function,neuropsychiatric symptoms,quality of life and changes in Alzheimer's disease biomarkers.Researchers must also prioritize the initiation of multi-center clinical trials of deep brain stimulation with large sample sizes and target earlier therapeutic windows,such as the prodromal and even the preclinical stages of Alzheimer's disease.Adopting these approaches will permit the efficient exploration of more effective and safer deep brain stimulation therapies for patients with Alzheimer's disease.
基金funded by the National Natural Science Foundation of China(32372546)Shenzhen Science and Technology Program(KQTD20180411143628272)+1 种基金the Agricultural Science and Technology Innovation Program of Chinese Academy of Agricultural Sciences and STI 2030-Major Projects(2022ZD04021)the National Key Research and Development Program of China(2023YFD2200700)。
文摘Agricultural pests cause enormous losses in annual agricultural production.Understanding the evolutionary responses and adaptive capacity of agricultural pests under climate change is crucial for establishing sustainable and environmentally friendly agricultural pest management.In this study,we integrate climate modeling and landscape genomics to investigate the distributional dynamics of the cotton bollworm(Helicoverpa armigera)in the adaptation to local environments and resilience to future climate change.Notably,the predicted inhabitable areas with higher suitability for the cotton bollworm could be eight times larger in the coming decades.Climate change is one of the factors driving the dynamics of distribution and population differentiation of the cotton bollworm.Approximately 19,000 years ago,the cotton bollworm expanded from its ancestral African population,followed by gradual occupations of the European,Asian,Oceanian,and American continents.Furthermore,we identify seven subpopulations with high dispersal and adaptability which may have an increased risk of invasion potential.Additionally,a large number of candidate genes and SNPs linked to climatic adaptation were mapped.These findings could inform sustainable pest management strategies in the face of climate change,aiding future pest forecasting and management planning.
基金financial supports from the National Natural Science Foundation of China(Grant Nos.51925503&52105575)the Fundamental Research Funds for the Central Universities(Grant No.QTZX23063)+2 种基金the Aeronautical Science Foundation of China(Grant No.2022Z073081001)the Postdoctoral Fellowship Program of CPSF(Grant No.GZC20232028)the Open Research Funds of State Key Laboratory of Intelligent Manufacturing Equipment and Technology(Grant No.IMETKF2024008).
文摘The combination of advanced photoelectric detectors has rendered single-band camouflage materials ineffective,necessitating the development of infrared multispectral camouflage.However,the design and fabrication of existing works remain complex as they usually require the integration of multiscale structures.Here,we introduce phase modulation into the infrared camouflage metasurfaces with metal-dielectric-metal configuration,enabling them to achieve camouflage across more bands.Based on this strategy,a simple but effective single-layer cascaded metasurface is demonstrated for the first time to achieve low reflection at multi-wavelength lasers,low infrared radiation in atmospheric windows,and broadband thermal management.As a proof-of-concept,a 4-inch sample with a minimum linewidth of 1.8μm is fabricated using photolithography.The excellent infrared multispectral camouflage performance is verified in experiments,showing low reflectance in 0.9–1.6μm,low infrared emissivity in mid-wavelength infrared(MWIR)and long-wavelength infrared(LWIR)bands,and high absorptance at the wavelength of 10.6μm.Meanwhile,broadband high emissivity in 5–8μm can provide high-performance radiative heat dissipation.When the input power is 1.57 W·cm^(-2),the surface/radiation temperature of the metasurface decreases by 5.3℃/18.7℃ compared to the reference.The proposed metasurface may trigger further innovation in the design and application of compact multispectral optical devices.
基金Supported by Taishan Scholar Special Funding,No.tsqnz20240858Medical and Health Technology Project of Shandong Province,No.202402050122+4 种基金Science and Technology Development Plan of Jinan Municipal Health Commission,No.2024301008Clinical Medical Science and Technology Innovation Program of Jinan Science and Technology Bureau,No.202430055Natural Science Foundation of Jiangxi Province,No.20224BAB206077Gansu Provincial Hospital Intra-Hospital Research Fund Project,No.22GSSYB-6and the 2022 Master/Doctor/Postdoctoral Program of National Health Commission Key Laboratory of Diagnosis and Therapy of Gastrointestinal Tumor,No.NHCDP2022004 and No.NHCDP2022008.
文摘Knee osteoarthritis(KOA),characterized by heterogeneous arthritic manifestations and complex peripheral joint disorder,is one of the leading causes of disability worldwide,which has become a high burden due to the multifactorial nature and the deficiency of available disease-modifying treatments.The application of mesenchymal stem/stromal cells(MSCs)as therapeutic drugs has provided novel treatment options for diverse degenerative and chronic diseases including KOA.However,the complexity and specificity of the“live”cells have posed challenges for MSC-based drug development and the concomitant scale-up preparation from laboratory to industrialization.For instance,despite the considerable progress in ex vivo cell culture technology for fulfilling the robust development of drug conversion and clinical trials,yet significant challenges remain in obtaining regulatory approvals.Thus,there’s an urgent need for the research and development of MSC drugs for KOA.In this review,we provide alternative solution strategies for the preparation of MSC drugs on the basis of the principle of quality by design,including designing the cell production processes,quality control,and clinical applications.In detail,we mainly focus on the quality by design method for MSC manufacturing in standard cell-culturing factories for the treatment of KOA by using the Quality Target Product Profile as a starting point to determine potential critical quality attributes and to establish relationships between critical material attributes and critical process parameters.Collectively,this review aims to meet product performance and robust process design,and should help to reduce the gap between compliant products and the production of compliant good manufacturing practice.
基金support from the National Key R&D Program of China(2021YFB3200700)the National Natural Science Foundation of China(Grant No.0214100221,51925503).
文摘This study presents a breakthrough in flexible strain sensor technology with the development of an ultrahigh sensitivity and wide-range sensor,addressing the critical challenge of reconciling sensitivity with measurement range.Inspired by the structure of bamboo slips,we introduce a novel approach that utilises liquid metal to modulate the electrical pathways within a cracked platinum fabric electrode.The resulting sensor demonstrates a gauge factor greater than 108 and a strain measurement capability exceeding 100%.The integration of patterned liquid metal enables customisable tuning of the sensor’s response,while the porous fabric structure ensures superior comfort and air permeability for the wearer.Our design not only optimises the sensor’s performance but also enhances the electrical stability that is essential for practical applications.Through systematic investigation,we reveal the intrinsic mechanisms governing the sensor’s response,offering valuable insights for the design of wearable strain sensors.The sensor’s exceptional performance across a spectrum of applications,from micro-strain to large-strain detection,highlights its potential for a wide range of real-world uses,demonstrating a significant advancement in the field of flexible electronics.
基金supported by the Guangzhou Municipal Key Discipline in Medicine(2021-2023)the Guangzhou High-level Clinical Key Specialty,the Guangzhou Research-oriented Hospital,the Innovative Clinical Technique of Guangzhou(2024-2026)+6 种基金the Guangdong Basic and Applied Basic Research Foundation(grant number 2022A1515011567,2020A1515110565)the Guangzhou Science,Technology Planning Project(grant number 202201010714,202103000032)the National Natural Science Foundation of China(grant number 82471546)the Guangdong College Students Innovation and Entrepreneurship Training Project(grant number S202310570038)the Guangzhou Health Science and Technology Project(grant number 20231A010038)the Guangzhou Traditional Chinese Medicine and Integrated Traditional Chinese and Western Medicine Technology Project(grant number:20232A010013)the Science and Technology Plan Project of Guangzhou(2023A03J0842).
文摘Background The heterogeneity of depression limits the treatment outcomes of intermittent theta burst stimulation(iTBS)and hinders the identification of predictive factors.This study investigated functional network connectivity and predictors of iTBS treatment outcomes in adolescents and young adults with depression.Aim This study aimed to identify default mode network(DMN)-based connectivity patterns associated with varying iTBS treatment outcomes in depression.Methods Data from a randomised controlled trial of iTBS in depression(n=82)were analysed using a data-driven approach to classify homogeneous subgroups based on the DMN.Connectivity subgroups were compared on depressive symptoms and cognitive function at pretreatment and post-treatment.Furthermore,the predictive significance of baseline inflammatory cytokines on post-treatment outcomes was evaluated.Results Two distinct subgroups were identified.Subgroup 1 exhibited high heterogeneity and greater centrality in the posterior cingulate cortex and retrosplenial cortex,while subgroup 2 showed more homogeneous connectivity patterns and greater centrality in the temporoparietal junction and posterior inferior parietal lobule.No main effect for subgroup,treatment or subgroup×treatment interaction was revealed in the improvement of depressive symptoms.A significant subgroup×treatment interaction related to symbol coding improvement was detected(F=5.22,p=0.026).Within subgroup 1,the active group showed significantly greater improvement in symbol coding compared with the sham group(t=2.30,p=0.028),while baseline levels of interleukin-6 and C-reactive protein emerged as significant indicators for predicting improvements in symbolic coding(R2=0.35,RMSE(root-mean-square error)=5.72,p=0.013).Subgroup 2 showed no significant findings in terms of cognitive improvement or inflammatory cytokines predictions.
文摘Hepatitis E virus(HEV)represents a significant global cause of acute viral hepatitis.Annually,it is estimated to cause approximately 20.1 million infections worldwide,3.3 million of which result in symptomatic illness.In developing regions,genotypes HEV-1 and HEV-2 are the primary strains responsible for widespread outbreaks and epidemics of acute jaundice(icteric hepatitis),transmitted predominantly through the fecal-oral route via contaminated water and food(Devarbhavi et al.,2023).
基金supported by the National Key Research and Development Program of China(Grant Nos.2024YFA1611103 and 2022YFA1403203)the Innovation Program for Quantum Science and Technology(Grant Nos.2024ZD0301300 and 2021ZD0302802)the National Natural Science Foundation of China(Grant Nos.12474128,12374133,12204008,and 12104004)。
文摘Iron-based superconductors(FeSCs)feature a complex phase diagram,and their diverse cleavage terminations offer a versatile platform for modulating surface electronic states and investigating the underlying superconducting mechanisms.In this study,we explore the surface modulation of KCa_(2)Fe_(4)As_(4)F_(2)using scanning tunneling microscopy/spectroscopy.Cryogenically cleaved surfaces reveal multiple configurations,including√2×√2 reconstruction,1×2 and 1×3 stripes,as well as nanoscale vacancies.Reducing potassium coverage induces hole doping,which shifts the density of states peak toward the Fermi level and suppresses the superconducting gap from 4.8 meV to 3.2 meV.This behavior is reminiscent of the Van Hove singularity observed in hole-doped 122-type FeSCs.The band structure does not undergo a simple rigid shift,and the evolution of superconductivity can be attributed to the interplay between surface carriers and electronic correlations.Additionally,a V-shaped gap is observed at a unique location preserving the FeAs bilayer structure,where interlayer coupling effects are likely involved.The diversity of surface structures and electronic states in K12442 enhances our understanding of FeSCs and facilitates the modulation and application of FeAs superconducting layers.
基金Supported by The Natural Science Foundation of China,No.31640052the Natural Science Fund Project of Shandong Province,No.ZR2019BH031.
文摘BACKGROUND Emerging evidence has demonstrated that ANXA13 is closely related to the occurrence and development of malignant tumors.However,the functions and underlying molecular mechanisms of ANXA13 in hepatocellular carcinoma(HCC)have not been defined.AIM To examine the expression of ANXA13 in HCC,investigate its correlation with clinicopathological features.METHODS Quantitative real-time PCR and western blotting were performed to detect the ANXA13 expression in HCC tissues and cell lines at the mRNA and protein levels,respectively.Transwell and cell counting kit-8 assays were performed to assess the effects of ANXA13 overexpression on the proliferation and migration of Huh7 cells.RESULTS ANXA13 mRNA was significantly downregulated in HCC tissues,while protein levels were elevated.ANXA13 expression correlated positively with tumor diameter and tumor node metastasis stage.In HCC cell lines(Hep3B and Huh7),ANXA13 expression was higher.Overexpression of ANXA13 enhanced the proliferation and migration capabilities of Huh7 cells.CONCLUSION ANXA13 was upregulated in HCC.Its overexpression promotes tumor progression and is associated with advanced clinicopathological features,suggesting ANXA13 as a potential biomarker and therapeutic target for HCC.
基金financially supported by the Key Research and Development Program of Shaanxi(No.2022GXLH-01-23)the Fundamental Research Funds for the Central Universities,CHD(No.300102384106)+1 种基金the Innovation Capability Support Program of Shaanxi(No.2022KXJ-144)the National Natural Science Foundation of China(No.22209101)
文摘Immense attention has been focused on developing supercapacitors in the field of energy storage by virtue of their exceptional power density,extended cycling stability and operational safety.However,traditional liquid electrolytes pose severe challenges in response to leakage,high volatility and low electrochemical stability issues.To address these problems,we have developed a novel composite polymer membrane for gel polymer electrolytes(GPEs).This membrane features an internal fibrous framework composed of shape-memory polymers,while surface dielectric layers of PVDF-HFP cross-linked with modified TiO_(2)nanoparticles are constructed on both sides of the framework.This configuration modulates the Stern layer potential gradient and diffuse layer ionic distribution through dielectric polarization,thereby suppressing electrolyte decomposition at high voltages,mitigating side reactions and facilitating ionic conduction.The resultant quasi-solid-state supercapacitor demonstrates excellent electrochemical stability at a voltage of 3.5 V,achieving an energy density of 43.87 Wh kg^(-1),with a high-power density of 22.66 kW kg^(-1)along with exceptional cyclic stability and mechanical flexibility.The synergistic structural design offers a safe and efficient energy harvesting solution for wearable electronic devices and portable energy storage systems.
基金National Natural Science Foundation of China (52372224 and 52072299)Major Project of Shaanxi Coal Joint Fund of Shaanxi Provincial Science and Technology Department (2019JLZ-07)。
文摘Na_(3)V_(2)(PO_(4))_(2)O_(2)F (VP) is recognized as a promising cathode material for sodium-ion batteries due to its stable structural framework and high specific capacity.Density functional theory (DFT) and finite element simulations show that incorporating SO_(4)^(2-)into VP decreases its band gap,lowers the migration energy barrier,and ensures a uniform Na+concentration gradient and stress distribution during charge and discharge cycles.Consequently,the average Na+diffusion coefficient of Na_(3)V_(2)(PO_(4))_(1.95)(SO_(4))_(0.05)O_(2)F(VPS-1) is roughly double that of VP,leading to enhanced rate capability (80 C,75.5 mAh g^(-1)) and cycling stability (111.0 mAh g^(-1)capacity after 1000 cycles at 10 C current density) for VPS-1.VPS-1 exhibits outstanding fast-charging capabilities,achieving an 80%state of charge in just 8.1 min.The assembled VPS-1//SbSn/NPC full cell demonstrated stable cycling over 200 cycles at a high 5 C current,maintaining an average coulombic efficiency of 95.35%.
基金Supported by National Natural Science Foundation of China,No.31640052and Natural Science Foundation of Shandong Province,China,No.ZR2019BH031.
文摘BACKGROUND Aberrant microRNAs expression and associated pathways have been proved participate in regulation vast various physiologic and pathologic processed of different human cancers including liver cancer.While,the function of miR-451a in liver cancer still indistinct.AIM To study the effect of miR-451a in liver cancer development.METHODS GeneChip microarray analysis performed to detect miR-451a expression in liver cancer tissues and normal liver tissues.Reverse transcription-polymerase chain reaction was used to validate the expression of miR-451a in liver cancer cell and other tumor cell lines.Construction of liver cancer cell lines that stably overexpressed miR-451a by transfecting Lentivirus produced by Genechem company.Methylthiazolyldiphenyl-tetrazolium(MTT)bromide assay and colony formation assay to determine the effect of miR-451a in liver cancer cell proliferation.Flow cytometry used to investigate whether miR-451a involved in liver cancer cell apoptosis.Cell migration ability was measured via wound scratch assay.Target gene was explored by bioinformatic analysis,and downstream molecule of miR-451a in liver cancer identified by rescue experiments.RESULTS MiR-451a expression significantly downregulation in liver cancer tissues compared with that in normal liver tissue.MiR-451a also obviously low-expressed in liver cancer cell,colorectal carcinoma cell and esophageal carcinoma cell lines.Human hepatoblastoma G2(HepG2)and BEL-7404 cell lines that stably overexpressed miR-451a by transfecting lentivirus constructed successfully.MTT bromide assay and colony formation assay showed that the overexpressed miR-451a inhibit HepG2 cell proliferation viability,but not BEL-7404 cell.Flow cytometry determined that miR-451a regulating proliferation not through inducing apoptosis.Wound scratch assay revealed that miR-451a overexpression suppressed HepG2 cell migration.Furthermore,mex-3 RNA binding family member C was predicted as the target gene by bioinformatic analysis,and rescue experiments confirmed the hypothesis.CONCLUSION Therefore,miR-451a may be candidate miRNA for understanding molecular mechanisms of liver cancer development and novel target in liver cancer cell.
