INTRODUCTION.Depressive disorders are mental illnesses that seriously affect public health.There are approximately 320 million patients with depression worldwide,accounting for 4.4% of the total disease burden.1Depres...INTRODUCTION.Depressive disorders are mental illnesses that seriously affect public health.There are approximately 320 million patients with depression worldwide,accounting for 4.4% of the total disease burden.1Depression leads to social and occupational impairment,diminished quality of life and an elevated risk of death by suicide.展开更多
Grape crops are a great source of income for farmers.The yield and quality of grapes can be improved by preventing and treating diseases.The farmer’s yield will be dramatically impacted if diseases are found on grape...Grape crops are a great source of income for farmers.The yield and quality of grapes can be improved by preventing and treating diseases.The farmer’s yield will be dramatically impacted if diseases are found on grape leaves.Automatic detection can reduce the chances of leaf diseases affecting other healthy plants.Several studies have been conducted to detect grape leaf diseases,but most fail to engage with end users and integrate the model with real-time mobile applications.This study developed a mobile-based grape leaf disease detection(GLDD)application to identify infected leaves,Grape Guard,based on a TensorFlow Lite(TFLite)model generated from the You Only Look Once(YOLO)v8 model.A public grape leaf disease dataset containing four classes was used to train the model.The results of this study were relied on the YOLO architecture,specifically YOLOv5 and YOLOv8.After extensive experiments with different image sizes,YOLOv8 performed better than YOLOv5.YOLOv8 achieved 99.9%precision,100%recall,99.5%mean average precision(mAP),and 88%mAP50-95 for all classes to detect grape leaf diseases.The Grape Guard android mobile application can accurately detect the grape leaf disease by capturing images from grape vines.展开更多
BACKGROUND Transcatheter arterial chemoembolization(TACE)is a key treatment approach for advanced invasive liver cancer(infiltrative hepatocellular carcinoma).However,its therapeutic response can be difficult to evalu...BACKGROUND Transcatheter arterial chemoembolization(TACE)is a key treatment approach for advanced invasive liver cancer(infiltrative hepatocellular carcinoma).However,its therapeutic response can be difficult to evaluate accurately using conventional two-dimensional imaging criteria due to the tumor’s diffuse and multifocal growth pattern.Volumetric imaging,especially enhanced tumor volume(ETV),offers a more comprehensive assessment.Nonetheless,bias field inhomogeneity in magnetic resonance imaging(MRI)poses challenges,potentially skewing volumetric measurements and undermining prognostic evaluation.AIM To investigate whether MRI bias field correction enhances the accuracy of volumetric assessment of infiltrative hepatocellular carcinoma treated with TACE,and to analyze how this improved measurement impacts prognostic prediction.METHODS We retrospectively collected data from 105 patients with invasive liver cancer who underwent TACE treatment at the Affiliated Hospital of Xuzhou Medical University from January 2020 to January 2024.The improved N4 bias field correction algorithm was applied to process MRI images,and the ETV before and after treatment was calculated.The ETV measurements before and after correction were compared,and their relationship with patient prognosis was analyzed.A Cox proportional hazards model was used to evaluate prognostic factors,with Martingale residual analysis determining the optimal cutoff value,followed by survival analysis.RESULTS Bias field correction significantly affected ETV measurements,with the corrected baseline ETV mean(505.235 cm^(3))being significantly lower than before correction(825.632 cm^(3),P<0.001).Cox analysis showed that the hazard ratio(HR)for corrected baseline ETV(HR=1.165,95%CI:1.069-1.268)was higher than before correction(HR=1.063,95%CI:1.031-1.095).Using 412 cm^(3) as the cutoff,the group with baseline ETV<415 cm^(3) had a longer median survival time compared to the≥415 cm^(3) group(18.523 months vs 8.926 months,P<0.001).The group with an ETV reduction rate≥41%had better prognosis than the<41%group(17.862 months vs 9.235 months,P=0.006).Multivariate analysis confirmed that ETV reduction rate(HR=0.412,P<0.001),Child-Pugh classification(HR=0.298,P<0.001),and Barcelona Clinic Liver Cancer stage(HR=0.578,P=0.045)were independent prognostic factors.CONCLUSION Volume imaging based on MRI bias field correction can improve the accuracy of evaluating the efficacy of TACE treatment for invasive liver cancer.The corrected ETV and its reduction rate can serve as independent indicators for predicting patient prognosis,providing important reference for developing individualized treatment strategies.展开更多
The Macao Science Satellite-1(MSS-1)is the first space science satellite jointly developed on the Chinese mainland and in Macao region.It comprises two satellites,named MSS-1A and MSS-1B,and holds considerable importa...The Macao Science Satellite-1(MSS-1)is the first space science satellite jointly developed on the Chinese mainland and in Macao region.It comprises two satellites,named MSS-1A and MSS-1B,and holds considerable importance in China’s space exploration endeavors.Among these,MSS-1A is the world’s first high-precision scientific satellite dedicated to exploring the geomagnetic field and space environment at low latitudes.Equipped with two high-precision vector magnetometers and one scalar magnetometer,which are integrally installed on a highly stable nonmagnetic optical bench,the MSS-1A enables simultaneous high-precision measurements of both the Earth’s vector magnetic field and its scalar components.Its design integrates several state-of-the-art technologies,including arc-second-level thermal stability control,nonmagnetic thermal control for the optical bench,and ultra-high magnetic cleanliness control.These innovations effectively minimize magnetic interference originating from the satellite itself,thereby substantially improving the precision of geomagnetic field measurements and establishing a robust technical foundation for future magnetic survey satellite constellations.展开更多
The presence of endogenous neural stem/progenitor cells in the adult mammalian brain suggests that the central nervous system can be repaired and regenerated after injury.However,whether it is possible to stimulate ne...The presence of endogenous neural stem/progenitor cells in the adult mammalian brain suggests that the central nervous system can be repaired and regenerated after injury.However,whether it is possible to stimulate neurogenesis and reconstruct cortical layers II to VI in non-neurogenic regions,such as the cortex,remains unknown.In this study,we implanted a hyaluronic acid collagen gel loaded with basic fibroblast growth factor into the motor cortex immediately following traumatic injury.Our findings reveal that this gel effectively stimulated the proliferation and migration of endogenous neural stem/progenitor cells,as well as their differentiation into mature and functionally integrated neurons.Importantly,these new neurons reconstructed the architecture of cortical layers II to VI,integrated into the existing neural circuitry,and ultimately led to improved brain function.These findings offer novel insight into potential clinical treatments for traumatic cerebral cortex injuries.展开更多
Liquid crystal Pacharatnam-Berry phase optical elements(PBOEs)have found promising applications in augmented reality and virtual reality because of their slim formfactor,lightweight,and high optical efficiency.However...Liquid crystal Pacharatnam-Berry phase optical elements(PBOEs)have found promising applications in augmented reality and virtual reality because of their slim formfactor,lightweight,and high optical efficiency.However,chromatic aberration remains a serious longstanding problem for diffractive optics,hindering their broader adoption.To overcome the chromatic aberrations for red,green and blue(RGB)light sources,in this paper,we propose a counterintuitive multi-twist structure to achieve narrowband PBOEs without crosstalk,which plays a vital role to eliminate the chromatic aberration.The performance of our designed and fabricated narrowband Pacharatnam-Berry lenses(PBLs)aligns well with our simulation results.Furthermore,in a feasibility demonstration experiment using a laser projector,our proposed PBL system indeed exhibits a diminished chromatic aberration as compared to a broadband PBL.Additionally,polarization raytracing is implemented to demonstrate the versatility of the multi-twist structure for designing any RGB wavelengths with high contrast ratios.This analysis explores the feasibility of using RGB laser lines and quantum dot light-emitting diodes.Overall,our approach enables high optical efficiency,low fabrication complexity,and high degree of design freedom to accommodate any liquid crystal material and RGB light sources,holding immense potential for widespread applications of achromatic PBOEs.展开更多
The soaring demand for smart portable electronics and electric vehicles is propelling the advancements in high-energy–density lithium-ion batteries.Lithium manganese iron phosphate(LiMn_(x)Fe_(1-x)PO_(4))has garnered...The soaring demand for smart portable electronics and electric vehicles is propelling the advancements in high-energy–density lithium-ion batteries.Lithium manganese iron phosphate(LiMn_(x)Fe_(1-x)PO_(4))has garnered significant attention as a promising positive electrode material for lithium-ion batteries due to its advantages of low cost,high safety,long cycle life,high voltage,good high-temperature performance,and high energy density.Although LiMn_(x)Fe_(1-x)PO_(4)has made significant breakthroughs in the past few decades,there are still facing great challenges in poor electronic conductivity and Li-ion diffusion,manganese dissolution affecting battery cycling performance,as well as low tap density.This review systematically summarizes the reaction mechanisms,various synthesis methods,and electrochemical properties of LiMn_(x)Fe_(1-x)PO_(4)to analyze reaction processes accurately and guide material preparation.Later,the main challenges currently faced are concluded,and the corresponding various modification strategies are discussed to enhance the reaction kinetics and electrochemical performance of LiMn_(x)Fe_(1-x)PO_(4),including multi-scale particle regulation,heteroatom doping,surface coating,as well as microscopic morphology design.Finally,in view of the current research challenges faced by intrinsic reaction processes,kinetics,and energy storage applications,the promising research directions are anticipated.More importantly,it is expected to provide key insights into the development of high-performance and stable LiMn_(x)Fe_(1-x)PO_(4)materials,to achieve practical energy storage requirements.展开更多
Pathological mineralizations in breast lesions are closely associated with disease progression and serves as a critical diagnostic indicator.However,systematic understanding remains lacking regarding the phase categor...Pathological mineralizations in breast lesions are closely associated with disease progression and serves as a critical diagnostic indicator.However,systematic understanding remains lacking regarding the phase categories,distribution patterns,and proportional occurrences of mineral phases across different breast lesion types.The diagnostic implications of specific phases,such as calcium oxalate,for distinguishing benign and malignant lesions remain controversial.This study employed polarizing microscopy,environmental scanning electron microscopy(SEM)with energy dispersive spectroscopy(EDS),transmission electron microscopy(TEM),Fourier transform infrared spectroscopy(FTIR),and Raman spectroscopy to analyze the phase composition of 61 mineralized samples from three lesion types:Invasive carcinoma,carcinoma in situ and benign lesions.Results demonstrate that breast lesion mineralizations predominantly comprise calcium phosphates,including hydroxyapatite(HA),amorphous calcium phosphate(ACP),and whitlockite,occasionally accompanied by calcium oxalate(monohydrate or dihydrate).Distinct distribution patterns and proportional occurrences of minerals were observed among the three types of lesion mineralizations.HA,as the predominant phase,was ubiquitously present across all three lesion categories.ACP,a mineralization precursor phase,emerged during early mineralization stages across all lesion types.Notably,whitlockite exclusively occurred in benign lesions and carcinoma in situ,with higher prevalence in benign cases,suggesting a progressive decline in Mg^(2+)concentration within the lesion microenvironment as malignancy advances.Calcium oxalate coexisted with HA in mineralized regions across all lesion types,and its presence in invasive carcinoma specimens warrants heightened clinical attention.展开更多
Introduction Percutaneous coronary intervention(PCI),as a primary treatment for coronary artery disease,has made significant strides in both technology and clinical practice since its inception.However,long-term manag...Introduction Percutaneous coronary intervention(PCI),as a primary treatment for coronary artery disease,has made significant strides in both technology and clinical practice since its inception.However,long-term management of post-PCI patients,particularly restenosis prevention and disease progression control,continues to face numerous challenges[1].Insufficient patient adherence to lifestyle interventions and secondary prevention,coupled with low utilization of cardiac rehabilitation,leads to a sustained increase in the risk of postoperative adverse cardiac events[2,3].The rapid development of digital health technologies(DHTs)offers opportunities to overcome these persistent difficulties.This editorial reviewed the latest applications and multiple challenges,and suggested future directions of DHTs in post-PCI patients(Figure 1).展开更多
In thermoelectricity,the inherent coupling between electrical conductivity and Seebeck coefficient represents a fundamental challenge in thermoelectric materials development.Herein,we present a unique pressure-tuning ...In thermoelectricity,the inherent coupling between electrical conductivity and Seebeck coefficient represents a fundamental challenge in thermoelectric materials development.Herein,we present a unique pressure-tuning strategy using compressible layered 2H-MoTe2,achieving an effective decoupling between the electrical conductivity and Seebeck coefficient.The applied pressure simultaneously induces two complementary effects:(1)bandgap reduction that moderately enhances carrier concentration to improve the electrical conductivity,and(2)band convergence that dramatically increases density-of-states effective mass to boost the Seebeck coefficient.This dual mechanism yields an extraordinary 18.5-fold enhancement in the average power factor.First-principles calculations and Boltzmann transport modeling precisely reproduce the experimental observations,validating this pressure-induced decoupling mechanism.The pressure-tuning mechanism provides a feasible and effective strategy for breaking through the optimization limits of the power factor,facilitating the design of high-performance thermoelectric materials.展开更多
Colorectal cancer(CRC)is a common malignant tumor with a high mortality rate worldwide.Advanced CRC often leads to liver metastasis,which has a poor prognosis,highlighting the need to investigate the underlying mechan...Colorectal cancer(CRC)is a common malignant tumor with a high mortality rate worldwide.Advanced CRC often leads to liver metastasis,which has a poor prognosis,highlighting the need to investigate the underlying mechanisms.Omics,encompassing genomics,epigenomics,transcriptomics,proteomics,metabolomics,and microbiomics,enables comprehensive molecular analysis of cells and tissues.Tumor-omics research has advanced rapidly,with growing attention on CRC-related omics.However,systematic reviews on omics research specific to colorectal cancer liver metastasis(CRLM)are limited.This review summarizes the current status and progress of multi-omics research on CRLM and discusses the application of multi-omics technologies in basic research and the significant clinical implications.展开更多
Accurate measurement of helicopter rotor motion parameters(flap,lead-lag,torsion,and azimuth angles)is essential for rotor blade design,helicopter dynamics modeling,and flight safety and health monitoring.However,the ...Accurate measurement of helicopter rotor motion parameters(flap,lead-lag,torsion,and azimuth angles)is essential for rotor blade design,helicopter dynamics modeling,and flight safety and health monitoring.However,the existing methods face challenges in testing equipment installation,calibration,and data transmission,resulting in limited reports on real-time in-flight measurements of blade motion parameters.This paper proposes a non-contact optoelectronic method based on two-dimensional position-sensitive detectors for in-flight measurement and a ground calibration system to obtain real-time rotor motion parameters during helicopter flight.The proposed method establishes the time evolution relationship of rotor motion parameters and verifies the performance of the in-flight measurement system regarding measurement resolution and accuracy through the construction of a blade motion posture experimental platform.The proposed method has been applied to the flight measurement of a medium-sized single-rotor helicopter,and the obtained results have been compared with theoretical analysis outcomes.Furthermore,this paper examines the characteristics of blade motion parameters during flight and discusses the challenges and potential solutions for measuring rotor motion parameters during helicopter flight using the proposed method.展开更多
Experimental research into the hydraulic conductivity curve (HCC) of unsaturated soil is limited due to the inherent challenge associated with labor, cost, and time. Typically, the HCC is estimated using the soil wate...Experimental research into the hydraulic conductivity curve (HCC) of unsaturated soil is limited due to the inherent challenge associated with labor, cost, and time. Typically, the HCC is estimated using the soil water characteristic curve (SWCC) based models and saturated hydraulic conductivity (SHC). However, the efficiency of the SWCC-based model is rarely assessed, and the influence of soil density and pore structure on HCC remains incomplete due to limited experimental data. To address this gap, this study employs an innovative filter-paper-based column method, which can measure the HCC over a wide suction range (e.g. 0−105 kPa), to capture the HCCs of both intact and compacted specimens with varying dry densities. The efficiency of two typical SWCC-based models is assessed using the measured data. Meanwhile, the mercury intrusion porosity (MIP) technique is employed to obtain the pore characteristic (i.e. pore size distribution (PSD)) and a method of predicting the HCC using the PSD data is proposed, emphasizing the dominant role of the pore structure in shaping the HCC. The results reveal that the dry density's influence on the HCC is primarily observed within the low suction range, corresponding to variations in the dominant and large pores. In the high suction range, the HCCs align along a linear trajectory when plotted in a log-log format. A notable finding is the overestimation of the HCC obtained from the SWCC-based models using the measured SHC. When the SHC is regarded as a fitting parameter, good agreement is achieved. The adjusted SHC value is typically 0-1 order of magnitude lower than the measured value, and this discrepancy diminishes as dry density increases. On the other hand, the proposed PSD-based model performs well with the measured SHC data. Caution is exercised when using the SHC to estimate the HCC for modeling water movement in partially saturated soil.展开更多
Background:To evaluate the feasibility and safety of a novel cable-transmitted magnetically controlled capsule endoscopy(CTMCE)system for upper gastrointestinal examination.Methods:Twenty-six participants(19 healthy v...Background:To evaluate the feasibility and safety of a novel cable-transmitted magnetically controlled capsule endoscopy(CTMCE)system for upper gastrointestinal examination.Methods:Twenty-six participants(19 healthy volunteers and seven patients with gastrointestinal symptoms)willing to undergo upper gastrointestinal endoscopy were recruited.Each participant underwent CT-MCE followed by conventional gastroscopy within 24 h.Maneuverability and visibility of the CT-MCE capsule in the upper gastrointestinal tract,adverse events,and discomfort during the procedure were evaluated.The sensitivity and specificity of CT-MCE for diagnosing upper gastrointestinal lesions were evaluated using conventional gastroscopy findings as the standard.Results:Maneuverability was graded as“good”for all segments of the esophagus.The percentage of participants in which maneuverability was good according to gastric region was as follows:cardia(100.00%),pylorus(96.15%),angulus(92.31%),antrum(88.46%),fundus(84.62%),and body(73.08%).In the duodenal bulb and descending duodenum,it was good in only 20.83% and 16.67% of participants,respectively.Visibility was graded as“excellent”or“good”in the esophagus,Z line,and duodenal bulb in all participants;excellent/good visibility was achieved in the stomach and descending duodenum in 96.15% and 79.17% of participants,respectively.Forty-one lesions were detected overall.The sensitivity and specificity of CT-MCE in diagnosing upper gastrointestinal lesions were 85.00% and 98.15%,respectively.The CT-MCE capsule was successfully removed through the mouth in all participants.No serious adverse events or capsule retention occurred.Conclusions:CT-MCE showed good feasibility and safety for upper gastrointestinal examination.The system was effective in examining the esophagus and stomach with no risk of capsule retention.展开更多
Low-light images often have defects such as low visibility,low contrast,high noise,and high color distortion compared with well-exposed images.If the low-light region of an image is enhanced directly,the noise will in...Low-light images often have defects such as low visibility,low contrast,high noise,and high color distortion compared with well-exposed images.If the low-light region of an image is enhanced directly,the noise will inevitably blur the whole image.Besides,according to the retina-and-cortex(retinex)theory of color vision,the reflectivity of different image regions may differ,limiting the enhancement performance of applying uniform operations to the entire image.Therefore,we design a Hierarchical Flow Learning(HFL)framework,which consists of a Hierarchical Image Network(HIN)and a normalized invertible Flow Learning Network(FLN).HIN can extract hierarchical structural features from low-light images,while FLN maps the distribution of normally exposed images to a Gaussian distribution using the learned hierarchical features of low-light images.In subsequent testing,the reversibility of FLN allows inferring and obtaining enhanced low-light images.Specifically,the HIN extracts as much image information as possible from three scales,local,regional,and global,using a Triple-branch Hierarchical Fusion Module(THFM)and a Dual-Dconv Cross Fusion Module(DCFM).The THFM aggregates regional and global features to enhance the overall brightness and quality of low-light images by perceiving and extracting more structure information,whereas the DCFM uses the properties of the activation function and local features to enhance images at the pixel-level to reduce noise and improve contrast.In addition,in this paper,the model was trained using a negative log-likelihood loss function.Qualitative and quantitative experimental results demonstrate that our HFL can better handle many quality degradation types in low-light images compared with state-of-the-art solutions.The HFL model enhances low-light images with better visibility,less noise,and improved contrast,suitable for practical scenarios such as autonomous driving,medical imaging,and nighttime surveillance.Outperforming them by PSNR=27.26 dB,SSIM=0.93,and LPIPS=0.10 on benchmark dataset LOL-v1.The source code of HFL is available at https://github.com/Smile-QT/HFL-for-LIE.展开更多
Rice grain size and chalkiness are important traits that influence grain yield and quality,respectively.Mining of genes for grain yield and appearance quality and clarification of their action modes are of great impor...Rice grain size and chalkiness are important traits that influence grain yield and quality,respectively.Mining of genes for grain yield and appearance quality and clarification of their action modes are of great importance in rice breeding.In this study,a rice protein disulfide isomerase-like enzyme PDIL2-3 was characterized.Expression analysis revealed that PDIL2-3 was highly expressed in endosperm and spikelet hulls.The PDIL2-3-cri lines generated by CRISPR/Cas9 technology exhibited a chalky grain phenotype with altered storage substance accumulation and increased grain size and weight,whereas exactly opposite results were obtained for PDIL2-3 overexpression lines.Cytological experiments revealed that PDIL2-3-cri increased rice seed length mainly by increasing the cell number and rice seed width mainly by increasing the cell size in grains,implying that PDIL2-3 regulates the grain size by influencing both cell division and expansion of spikelet hulls.Further flow cytometric analysis validated that PDIL2-3 has a negative effect on cell proliferation,preventing DNA duplication and cell division in spikelet hulls.Moreover,q RT-PCR results showed that the expression levels of genes related to cell cycle and storage substance synthesis were significantly changed in PDIL2-3-cri transgenic lines.Thus,our results indicated that PDIL2-3 plays a pivotal role in influencing grain size and quality of rice by affecting cell division/expansion and storage substance accumulation,providing new insights into the function of PDIL family members in rice and enriching the genetic resources for rice breeding.展开更多
BACKGROUND Deoxycholic acid(DCA),a secondary bile acid,is associated with colorectal carcinogenesis,but its mechanisms remain unclear.AIM To investigate how DCA regulates apoptosis in colorectal cancer(CRC)cells.METHO...BACKGROUND Deoxycholic acid(DCA),a secondary bile acid,is associated with colorectal carcinogenesis,but its mechanisms remain unclear.AIM To investigate how DCA regulates apoptosis in colorectal cancer(CRC)cells.METHODS SW480 and DLD-1 CRC cell lines were used to investigate the mechanism of apoptosis by western blotting,flow cytometry,confocal microscopy,and other methods.RESULTS DCA significantly induced apoptosis,with rates increasing to 7.2%±1.5%in SW480 cells and 14.3%±0.6%in DLD-1 cells after treatment,compared to 4.7%±1.0%and 11.6%±0.8%in controls(P<0.05).Western blot analysis showed upregulation of pro-apoptotic proteins Bax and Cleaved-PARP,with a significant increase in the Cleaved-PARP/PARP ratio(P<0.001).DCA treatment also increased the intracellular reactive oxygen species(ROS)levels of SW480 and DLD-1 cells to 1.2-fold and 1.3-fold,respectively(P<0.01),while the increase of mitochondrial ROS levels in these cells was statistically significant under confocal microscopy.Additionally,cytosolic and mitochondrial Ca^(2+)levels increased 1.3-fold and 1.2-fold,respectively,in SW480 cells(P<0.01),and 1.1-fold and 1.1-fold,respectively,in DLD-1 cells compared with controls(P<0.05).p-CaMKII protein levels were also elevated(P<0.01),indicating activation of the Ca^(2+)-CaMKII signaling pathway.Pharmacological inhibition with BAPTAAM(1μM)reduced mitochondrial Ca^(2+)accumulation and ROS levels in SW480 cells(P<0.05),and suppressed apoptosis.CONCLUSION DCA activates the Ca^(2+)-CaMKII pathway,leading to ROS-mediated apoptosis in CRC cells,providing insights for potential therapeutic targets.展开更多
Influences of swift heavy ion(SHI)irradiation induced defects on electronic properties of the bulk SnSe_(2)based FETs are explored.Latent tracks and amounts of Se vacancies in the irradiated SnSe_(2)were confirmed.Red...Influences of swift heavy ion(SHI)irradiation induced defects on electronic properties of the bulk SnSe_(2)based FETs are explored.Latent tracks and amounts of Se vacancies in the irradiated SnSe_(2)were confirmed.Red shift of the A1g peak indicates that the resonance frequency of the phonons is reduced due to the defect generation in SnSe_(2).The source–drain current Ids increased at ion fluence of 1×10^(10)ions·cm^(-2),which was attributeded to the irradiation caused Se vacancies,which hence increases the concentration of conduction electrons.The carrier mobility was about 16.9 cm^(2)·V^(-1)·s^(-1)for the devices irradiated at ion fluence of 1×10^(9)ions·cm^(-2),which benefited from heavy ion irradiation enhanced interlayer coupling.The mechanism of device performance optimization after irradiation is discussed in detail.This work provides evidence that,given the electronic properties of two-dimensional material-based device,vacancies and interlayer coupling effects caused by SHI irradiation should not be ignored.展开更多
Chronic liver disease has become a global health crisis,with increasing incidence and mortality rates placing a substantial burden on healthcare systems worldwide.A key factor in the progression of chronic liver disea...Chronic liver disease has become a global health crisis,with increasing incidence and mortality rates placing a substantial burden on healthcare systems worldwide.A key factor in the progression of chronic liver disease is intestinal microbiota dysbiosis,which influences liver function via the intricate liver-gut axis.This axis plays a central role in various physiological processes,and disruptions in microbial composition can exacerbate liver pathology.Fecal microbiota transplantation(FMT)has emerged as a promising therapeutic strategy,with the potential to restore the composition and metabolic functions of the intestinal microbiota.Supported by encouraging findings from clinical trials and animal studies,FMT has demonstrated therapeutic benefits,including improvements in clinical symptoms,objective indicators,and long-term prognosis.These benefits encompass reductions in hepatic lipid deposition and inflammation,mitigation of complications in advanced liver disease,promotion of hepatitis B e antigen seroconversion,and enhancement of cognitive function.Although clinical evidence remains preliminary,current data underscore the transformative potential of FMT in managing chronic liver diseases.Nonetheless,challenges persist,including the need for standardized procedures,variability among donors,potential risks,and concerns regarding long-term safety.This review provides a comprehensive evaluation of the current literature on the efficacy and safety of FMT,while exploring future research directions to expand its application in liver disease management.展开更多
基金funded by the Construction Project of the"Flagship"Department of Chinese and Western Medicine Coordination(LiuL/2024-221)the 2024 Medical Service and Security Capacity Improvement Project(National Clinical Key Specialty Construction)(LiuL/Huwei Medical/2024-65)+5 种基金the Shanghai Traditional Chinese Medicine Standardization Project(LiuL/No.2023JSP03)the Shanghai Key Discipline Construction Project of Traditional Chinese Medicine(Clinical)(LiuL/2024-No.3)the Shanghai Technical Standardization Management and Promotion Project(LiuL/No.SHDC22023212)the Shanghai Municipal Health Commission Traditional Chinese Medicine Research Project(2022)(LiuL/No.2022Cx004)Clinical research project of Shanghai Health Commission-Youth Project(LW/No.20214Y0056)Shanghai Institute of Traditional Chinese Medicine for Mental Health(LW/No.SZB2023201).
文摘INTRODUCTION.Depressive disorders are mental illnesses that seriously affect public health.There are approximately 320 million patients with depression worldwide,accounting for 4.4% of the total disease burden.1Depression leads to social and occupational impairment,diminished quality of life and an elevated risk of death by suicide.
文摘Grape crops are a great source of income for farmers.The yield and quality of grapes can be improved by preventing and treating diseases.The farmer’s yield will be dramatically impacted if diseases are found on grape leaves.Automatic detection can reduce the chances of leaf diseases affecting other healthy plants.Several studies have been conducted to detect grape leaf diseases,but most fail to engage with end users and integrate the model with real-time mobile applications.This study developed a mobile-based grape leaf disease detection(GLDD)application to identify infected leaves,Grape Guard,based on a TensorFlow Lite(TFLite)model generated from the You Only Look Once(YOLO)v8 model.A public grape leaf disease dataset containing four classes was used to train the model.The results of this study were relied on the YOLO architecture,specifically YOLOv5 and YOLOv8.After extensive experiments with different image sizes,YOLOv8 performed better than YOLOv5.YOLOv8 achieved 99.9%precision,100%recall,99.5%mean average precision(mAP),and 88%mAP50-95 for all classes to detect grape leaf diseases.The Grape Guard android mobile application can accurately detect the grape leaf disease by capturing images from grape vines.
文摘BACKGROUND Transcatheter arterial chemoembolization(TACE)is a key treatment approach for advanced invasive liver cancer(infiltrative hepatocellular carcinoma).However,its therapeutic response can be difficult to evaluate accurately using conventional two-dimensional imaging criteria due to the tumor’s diffuse and multifocal growth pattern.Volumetric imaging,especially enhanced tumor volume(ETV),offers a more comprehensive assessment.Nonetheless,bias field inhomogeneity in magnetic resonance imaging(MRI)poses challenges,potentially skewing volumetric measurements and undermining prognostic evaluation.AIM To investigate whether MRI bias field correction enhances the accuracy of volumetric assessment of infiltrative hepatocellular carcinoma treated with TACE,and to analyze how this improved measurement impacts prognostic prediction.METHODS We retrospectively collected data from 105 patients with invasive liver cancer who underwent TACE treatment at the Affiliated Hospital of Xuzhou Medical University from January 2020 to January 2024.The improved N4 bias field correction algorithm was applied to process MRI images,and the ETV before and after treatment was calculated.The ETV measurements before and after correction were compared,and their relationship with patient prognosis was analyzed.A Cox proportional hazards model was used to evaluate prognostic factors,with Martingale residual analysis determining the optimal cutoff value,followed by survival analysis.RESULTS Bias field correction significantly affected ETV measurements,with the corrected baseline ETV mean(505.235 cm^(3))being significantly lower than before correction(825.632 cm^(3),P<0.001).Cox analysis showed that the hazard ratio(HR)for corrected baseline ETV(HR=1.165,95%CI:1.069-1.268)was higher than before correction(HR=1.063,95%CI:1.031-1.095).Using 412 cm^(3) as the cutoff,the group with baseline ETV<415 cm^(3) had a longer median survival time compared to the≥415 cm^(3) group(18.523 months vs 8.926 months,P<0.001).The group with an ETV reduction rate≥41%had better prognosis than the<41%group(17.862 months vs 9.235 months,P=0.006).Multivariate analysis confirmed that ETV reduction rate(HR=0.412,P<0.001),Child-Pugh classification(HR=0.298,P<0.001),and Barcelona Clinic Liver Cancer stage(HR=0.578,P=0.045)were independent prognostic factors.CONCLUSION Volume imaging based on MRI bias field correction can improve the accuracy of evaluating the efficacy of TACE treatment for invasive liver cancer.The corrected ETV and its reduction rate can serve as independent indicators for predicting patient prognosis,providing important reference for developing individualized treatment strategies.
文摘The Macao Science Satellite-1(MSS-1)is the first space science satellite jointly developed on the Chinese mainland and in Macao region.It comprises two satellites,named MSS-1A and MSS-1B,and holds considerable importance in China’s space exploration endeavors.Among these,MSS-1A is the world’s first high-precision scientific satellite dedicated to exploring the geomagnetic field and space environment at low latitudes.Equipped with two high-precision vector magnetometers and one scalar magnetometer,which are integrally installed on a highly stable nonmagnetic optical bench,the MSS-1A enables simultaneous high-precision measurements of both the Earth’s vector magnetic field and its scalar components.Its design integrates several state-of-the-art technologies,including arc-second-level thermal stability control,nonmagnetic thermal control for the optical bench,and ultra-high magnetic cleanliness control.These innovations effectively minimize magnetic interference originating from the satellite itself,thereby substantially improving the precision of geomagnetic field measurements and establishing a robust technical foundation for future magnetic survey satellite constellations.
基金supported by the National Natural Science Foundation of China,Nos.82272171(to ZY),82271403(to XL),81941011(to XL),31971279(to ZY),31730030(to XL)the Natural Science Foundation of Beijing,No.7222004(to HD).
文摘The presence of endogenous neural stem/progenitor cells in the adult mammalian brain suggests that the central nervous system can be repaired and regenerated after injury.However,whether it is possible to stimulate neurogenesis and reconstruct cortical layers II to VI in non-neurogenic regions,such as the cortex,remains unknown.In this study,we implanted a hyaluronic acid collagen gel loaded with basic fibroblast growth factor into the motor cortex immediately following traumatic injury.Our findings reveal that this gel effectively stimulated the proliferation and migration of endogenous neural stem/progenitor cells,as well as their differentiation into mature and functionally integrated neurons.Importantly,these new neurons reconstructed the architecture of cortical layers II to VI,integrated into the existing neural circuitry,and ultimately led to improved brain function.These findings offer novel insight into potential clinical treatments for traumatic cerebral cortex injuries.
基金supports from the National Key Research and Development Program of China(2023YFB2806803)the National Natural Science Foundation of China(62075127).
文摘Liquid crystal Pacharatnam-Berry phase optical elements(PBOEs)have found promising applications in augmented reality and virtual reality because of their slim formfactor,lightweight,and high optical efficiency.However,chromatic aberration remains a serious longstanding problem for diffractive optics,hindering their broader adoption.To overcome the chromatic aberrations for red,green and blue(RGB)light sources,in this paper,we propose a counterintuitive multi-twist structure to achieve narrowband PBOEs without crosstalk,which plays a vital role to eliminate the chromatic aberration.The performance of our designed and fabricated narrowband Pacharatnam-Berry lenses(PBLs)aligns well with our simulation results.Furthermore,in a feasibility demonstration experiment using a laser projector,our proposed PBL system indeed exhibits a diminished chromatic aberration as compared to a broadband PBL.Additionally,polarization raytracing is implemented to demonstrate the versatility of the multi-twist structure for designing any RGB wavelengths with high contrast ratios.This analysis explores the feasibility of using RGB laser lines and quantum dot light-emitting diodes.Overall,our approach enables high optical efficiency,low fabrication complexity,and high degree of design freedom to accommodate any liquid crystal material and RGB light sources,holding immense potential for widespread applications of achromatic PBOEs.
基金National Natural Science Foundation of China(52104294)Fundamental Research Funds for the Central Universities(FRF-TP-19-079A1)。
文摘The soaring demand for smart portable electronics and electric vehicles is propelling the advancements in high-energy–density lithium-ion batteries.Lithium manganese iron phosphate(LiMn_(x)Fe_(1-x)PO_(4))has garnered significant attention as a promising positive electrode material for lithium-ion batteries due to its advantages of low cost,high safety,long cycle life,high voltage,good high-temperature performance,and high energy density.Although LiMn_(x)Fe_(1-x)PO_(4)has made significant breakthroughs in the past few decades,there are still facing great challenges in poor electronic conductivity and Li-ion diffusion,manganese dissolution affecting battery cycling performance,as well as low tap density.This review systematically summarizes the reaction mechanisms,various synthesis methods,and electrochemical properties of LiMn_(x)Fe_(1-x)PO_(4)to analyze reaction processes accurately and guide material preparation.Later,the main challenges currently faced are concluded,and the corresponding various modification strategies are discussed to enhance the reaction kinetics and electrochemical performance of LiMn_(x)Fe_(1-x)PO_(4),including multi-scale particle regulation,heteroatom doping,surface coating,as well as microscopic morphology design.Finally,in view of the current research challenges faced by intrinsic reaction processes,kinetics,and energy storage applications,the promising research directions are anticipated.More importantly,it is expected to provide key insights into the development of high-performance and stable LiMn_(x)Fe_(1-x)PO_(4)materials,to achieve practical energy storage requirements.
基金financially supported by the National Natural Science Foundation of China(41772033,41272048).
文摘Pathological mineralizations in breast lesions are closely associated with disease progression and serves as a critical diagnostic indicator.However,systematic understanding remains lacking regarding the phase categories,distribution patterns,and proportional occurrences of mineral phases across different breast lesion types.The diagnostic implications of specific phases,such as calcium oxalate,for distinguishing benign and malignant lesions remain controversial.This study employed polarizing microscopy,environmental scanning electron microscopy(SEM)with energy dispersive spectroscopy(EDS),transmission electron microscopy(TEM),Fourier transform infrared spectroscopy(FTIR),and Raman spectroscopy to analyze the phase composition of 61 mineralized samples from three lesion types:Invasive carcinoma,carcinoma in situ and benign lesions.Results demonstrate that breast lesion mineralizations predominantly comprise calcium phosphates,including hydroxyapatite(HA),amorphous calcium phosphate(ACP),and whitlockite,occasionally accompanied by calcium oxalate(monohydrate or dihydrate).Distinct distribution patterns and proportional occurrences of minerals were observed among the three types of lesion mineralizations.HA,as the predominant phase,was ubiquitously present across all three lesion categories.ACP,a mineralization precursor phase,emerged during early mineralization stages across all lesion types.Notably,whitlockite exclusively occurred in benign lesions and carcinoma in situ,with higher prevalence in benign cases,suggesting a progressive decline in Mg^(2+)concentration within the lesion microenvironment as malignancy advances.Calcium oxalate coexisted with HA in mineralized regions across all lesion types,and its presence in invasive carcinoma specimens warrants heightened clinical attention.
文摘Introduction Percutaneous coronary intervention(PCI),as a primary treatment for coronary artery disease,has made significant strides in both technology and clinical practice since its inception.However,long-term management of post-PCI patients,particularly restenosis prevention and disease progression control,continues to face numerous challenges[1].Insufficient patient adherence to lifestyle interventions and secondary prevention,coupled with low utilization of cardiac rehabilitation,leads to a sustained increase in the risk of postoperative adverse cardiac events[2,3].The rapid development of digital health technologies(DHTs)offers opportunities to overcome these persistent difficulties.This editorial reviewed the latest applications and multiple challenges,and suggested future directions of DHTs in post-PCI patients(Figure 1).
基金supported by the Science and Technology Development Project of Jilin Province(Grant No.SKL202402004)the Program for the Development of Science and Technology of Jilin Province(Grant No.YDZJ202201ZYTS308)+1 种基金the Open Research Fund of State Key Laboratory of Inorganic Synthesis and Preparative Chemistry,Jilin University(Grant Nos.202216 and 2022-23)the National Natural Science Foundation of China(Grant No.12350410372)。
文摘In thermoelectricity,the inherent coupling between electrical conductivity and Seebeck coefficient represents a fundamental challenge in thermoelectric materials development.Herein,we present a unique pressure-tuning strategy using compressible layered 2H-MoTe2,achieving an effective decoupling between the electrical conductivity and Seebeck coefficient.The applied pressure simultaneously induces two complementary effects:(1)bandgap reduction that moderately enhances carrier concentration to improve the electrical conductivity,and(2)band convergence that dramatically increases density-of-states effective mass to boost the Seebeck coefficient.This dual mechanism yields an extraordinary 18.5-fold enhancement in the average power factor.First-principles calculations and Boltzmann transport modeling precisely reproduce the experimental observations,validating this pressure-induced decoupling mechanism.The pressure-tuning mechanism provides a feasible and effective strategy for breaking through the optimization limits of the power factor,facilitating the design of high-performance thermoelectric materials.
基金supported by grants from the Natural Science Foundation of Chongqing(Grant No.CSTB2024NSCQ-MSX0478).
文摘Colorectal cancer(CRC)is a common malignant tumor with a high mortality rate worldwide.Advanced CRC often leads to liver metastasis,which has a poor prognosis,highlighting the need to investigate the underlying mechanisms.Omics,encompassing genomics,epigenomics,transcriptomics,proteomics,metabolomics,and microbiomics,enables comprehensive molecular analysis of cells and tissues.Tumor-omics research has advanced rapidly,with growing attention on CRC-related omics.However,systematic reviews on omics research specific to colorectal cancer liver metastasis(CRLM)are limited.This review summarizes the current status and progress of multi-omics research on CRLM and discusses the application of multi-omics technologies in basic research and the significant clinical implications.
基金the funding provided by the National Helicopter Development Project of China。
文摘Accurate measurement of helicopter rotor motion parameters(flap,lead-lag,torsion,and azimuth angles)is essential for rotor blade design,helicopter dynamics modeling,and flight safety and health monitoring.However,the existing methods face challenges in testing equipment installation,calibration,and data transmission,resulting in limited reports on real-time in-flight measurements of blade motion parameters.This paper proposes a non-contact optoelectronic method based on two-dimensional position-sensitive detectors for in-flight measurement and a ground calibration system to obtain real-time rotor motion parameters during helicopter flight.The proposed method establishes the time evolution relationship of rotor motion parameters and verifies the performance of the in-flight measurement system regarding measurement resolution and accuracy through the construction of a blade motion posture experimental platform.The proposed method has been applied to the flight measurement of a medium-sized single-rotor helicopter,and the obtained results have been compared with theoretical analysis outcomes.Furthermore,this paper examines the characteristics of blade motion parameters during flight and discusses the challenges and potential solutions for measuring rotor motion parameters during helicopter flight using the proposed method.
基金supported by the National Natural Science Foundation of China(Grant No.41825018)Strategic Priority Research Program of the Chinese Academy of Sciences(Grant No.XDA23090402)the National Natural Science Foundation of China(Grant No.42141009).
文摘Experimental research into the hydraulic conductivity curve (HCC) of unsaturated soil is limited due to the inherent challenge associated with labor, cost, and time. Typically, the HCC is estimated using the soil water characteristic curve (SWCC) based models and saturated hydraulic conductivity (SHC). However, the efficiency of the SWCC-based model is rarely assessed, and the influence of soil density and pore structure on HCC remains incomplete due to limited experimental data. To address this gap, this study employs an innovative filter-paper-based column method, which can measure the HCC over a wide suction range (e.g. 0−105 kPa), to capture the HCCs of both intact and compacted specimens with varying dry densities. The efficiency of two typical SWCC-based models is assessed using the measured data. Meanwhile, the mercury intrusion porosity (MIP) technique is employed to obtain the pore characteristic (i.e. pore size distribution (PSD)) and a method of predicting the HCC using the PSD data is proposed, emphasizing the dominant role of the pore structure in shaping the HCC. The results reveal that the dry density's influence on the HCC is primarily observed within the low suction range, corresponding to variations in the dominant and large pores. In the high suction range, the HCCs align along a linear trajectory when plotted in a log-log format. A notable finding is the overestimation of the HCC obtained from the SWCC-based models using the measured SHC. When the SHC is regarded as a fitting parameter, good agreement is achieved. The adjusted SHC value is typically 0-1 order of magnitude lower than the measured value, and this discrepancy diminishes as dry density increases. On the other hand, the proposed PSD-based model performs well with the measured SHC data. Caution is exercised when using the SHC to estimate the HCC for modeling water movement in partially saturated soil.
基金supported by the National Key Research and Development Program(2019YFC0120303)and was sponsored by the Beijing Nova Program(20240484678).
文摘Background:To evaluate the feasibility and safety of a novel cable-transmitted magnetically controlled capsule endoscopy(CTMCE)system for upper gastrointestinal examination.Methods:Twenty-six participants(19 healthy volunteers and seven patients with gastrointestinal symptoms)willing to undergo upper gastrointestinal endoscopy were recruited.Each participant underwent CT-MCE followed by conventional gastroscopy within 24 h.Maneuverability and visibility of the CT-MCE capsule in the upper gastrointestinal tract,adverse events,and discomfort during the procedure were evaluated.The sensitivity and specificity of CT-MCE for diagnosing upper gastrointestinal lesions were evaluated using conventional gastroscopy findings as the standard.Results:Maneuverability was graded as“good”for all segments of the esophagus.The percentage of participants in which maneuverability was good according to gastric region was as follows:cardia(100.00%),pylorus(96.15%),angulus(92.31%),antrum(88.46%),fundus(84.62%),and body(73.08%).In the duodenal bulb and descending duodenum,it was good in only 20.83% and 16.67% of participants,respectively.Visibility was graded as“excellent”or“good”in the esophagus,Z line,and duodenal bulb in all participants;excellent/good visibility was achieved in the stomach and descending duodenum in 96.15% and 79.17% of participants,respectively.Forty-one lesions were detected overall.The sensitivity and specificity of CT-MCE in diagnosing upper gastrointestinal lesions were 85.00% and 98.15%,respectively.The CT-MCE capsule was successfully removed through the mouth in all participants.No serious adverse events or capsule retention occurred.Conclusions:CT-MCE showed good feasibility and safety for upper gastrointestinal examination.The system was effective in examining the esophagus and stomach with no risk of capsule retention.
基金supported by the National Natural Science Foundation of China(Grant Nos.61971078,61501070)the Scientific Research Foundation of Chongqing University of Technology(Grant No.0121230236)the Science and Technology Research Program of Chongqing Municipal Education Commission(Grant No.KJ202301165).
文摘Low-light images often have defects such as low visibility,low contrast,high noise,and high color distortion compared with well-exposed images.If the low-light region of an image is enhanced directly,the noise will inevitably blur the whole image.Besides,according to the retina-and-cortex(retinex)theory of color vision,the reflectivity of different image regions may differ,limiting the enhancement performance of applying uniform operations to the entire image.Therefore,we design a Hierarchical Flow Learning(HFL)framework,which consists of a Hierarchical Image Network(HIN)and a normalized invertible Flow Learning Network(FLN).HIN can extract hierarchical structural features from low-light images,while FLN maps the distribution of normally exposed images to a Gaussian distribution using the learned hierarchical features of low-light images.In subsequent testing,the reversibility of FLN allows inferring and obtaining enhanced low-light images.Specifically,the HIN extracts as much image information as possible from three scales,local,regional,and global,using a Triple-branch Hierarchical Fusion Module(THFM)and a Dual-Dconv Cross Fusion Module(DCFM).The THFM aggregates regional and global features to enhance the overall brightness and quality of low-light images by perceiving and extracting more structure information,whereas the DCFM uses the properties of the activation function and local features to enhance images at the pixel-level to reduce noise and improve contrast.In addition,in this paper,the model was trained using a negative log-likelihood loss function.Qualitative and quantitative experimental results demonstrate that our HFL can better handle many quality degradation types in low-light images compared with state-of-the-art solutions.The HFL model enhances low-light images with better visibility,less noise,and improved contrast,suitable for practical scenarios such as autonomous driving,medical imaging,and nighttime surveillance.Outperforming them by PSNR=27.26 dB,SSIM=0.93,and LPIPS=0.10 on benchmark dataset LOL-v1.The source code of HFL is available at https://github.com/Smile-QT/HFL-for-LIE.
基金supported in part by grants from the National Natural Science Foundation of China(32472141,32101746,and 32102231)Natural Science Foundation of Hubei Province(JCZRLH202500540,2021CFB033,and 2022CFB393)。
文摘Rice grain size and chalkiness are important traits that influence grain yield and quality,respectively.Mining of genes for grain yield and appearance quality and clarification of their action modes are of great importance in rice breeding.In this study,a rice protein disulfide isomerase-like enzyme PDIL2-3 was characterized.Expression analysis revealed that PDIL2-3 was highly expressed in endosperm and spikelet hulls.The PDIL2-3-cri lines generated by CRISPR/Cas9 technology exhibited a chalky grain phenotype with altered storage substance accumulation and increased grain size and weight,whereas exactly opposite results were obtained for PDIL2-3 overexpression lines.Cytological experiments revealed that PDIL2-3-cri increased rice seed length mainly by increasing the cell number and rice seed width mainly by increasing the cell size in grains,implying that PDIL2-3 regulates the grain size by influencing both cell division and expansion of spikelet hulls.Further flow cytometric analysis validated that PDIL2-3 has a negative effect on cell proliferation,preventing DNA duplication and cell division in spikelet hulls.Moreover,q RT-PCR results showed that the expression levels of genes related to cell cycle and storage substance synthesis were significantly changed in PDIL2-3-cri transgenic lines.Thus,our results indicated that PDIL2-3 plays a pivotal role in influencing grain size and quality of rice by affecting cell division/expansion and storage substance accumulation,providing new insights into the function of PDIL family members in rice and enriching the genetic resources for rice breeding.
基金Supported by the Key Discipline of Zhejiang Province in Medical Technology(First Class,Category A)Wenzhou Science&Technological Project,No.Y20240103.
文摘BACKGROUND Deoxycholic acid(DCA),a secondary bile acid,is associated with colorectal carcinogenesis,but its mechanisms remain unclear.AIM To investigate how DCA regulates apoptosis in colorectal cancer(CRC)cells.METHODS SW480 and DLD-1 CRC cell lines were used to investigate the mechanism of apoptosis by western blotting,flow cytometry,confocal microscopy,and other methods.RESULTS DCA significantly induced apoptosis,with rates increasing to 7.2%±1.5%in SW480 cells and 14.3%±0.6%in DLD-1 cells after treatment,compared to 4.7%±1.0%and 11.6%±0.8%in controls(P<0.05).Western blot analysis showed upregulation of pro-apoptotic proteins Bax and Cleaved-PARP,with a significant increase in the Cleaved-PARP/PARP ratio(P<0.001).DCA treatment also increased the intracellular reactive oxygen species(ROS)levels of SW480 and DLD-1 cells to 1.2-fold and 1.3-fold,respectively(P<0.01),while the increase of mitochondrial ROS levels in these cells was statistically significant under confocal microscopy.Additionally,cytosolic and mitochondrial Ca^(2+)levels increased 1.3-fold and 1.2-fold,respectively,in SW480 cells(P<0.01),and 1.1-fold and 1.1-fold,respectively,in DLD-1 cells compared with controls(P<0.05).p-CaMKII protein levels were also elevated(P<0.01),indicating activation of the Ca^(2+)-CaMKII signaling pathway.Pharmacological inhibition with BAPTAAM(1μM)reduced mitochondrial Ca^(2+)accumulation and ROS levels in SW480 cells(P<0.05),and suppressed apoptosis.CONCLUSION DCA activates the Ca^(2+)-CaMKII pathway,leading to ROS-mediated apoptosis in CRC cells,providing insights for potential therapeutic targets.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.12375261,12175287,12205350,and 62234013)the Youth Innovation Promotion Association of the Chinese Academy of Sciences(Grant No.2022424).
文摘Influences of swift heavy ion(SHI)irradiation induced defects on electronic properties of the bulk SnSe_(2)based FETs are explored.Latent tracks and amounts of Se vacancies in the irradiated SnSe_(2)were confirmed.Red shift of the A1g peak indicates that the resonance frequency of the phonons is reduced due to the defect generation in SnSe_(2).The source–drain current Ids increased at ion fluence of 1×10^(10)ions·cm^(-2),which was attributeded to the irradiation caused Se vacancies,which hence increases the concentration of conduction electrons.The carrier mobility was about 16.9 cm^(2)·V^(-1)·s^(-1)for the devices irradiated at ion fluence of 1×10^(9)ions·cm^(-2),which benefited from heavy ion irradiation enhanced interlayer coupling.The mechanism of device performance optimization after irradiation is discussed in detail.This work provides evidence that,given the electronic properties of two-dimensional material-based device,vacancies and interlayer coupling effects caused by SHI irradiation should not be ignored.
基金Supported by National Key R&D Program of China,No.2022YFC2304505 and No.2021YFC2301801the Beijing Municipal of Science and Technology Major Project,No.Z221100007422002+1 种基金the Capital Funds for Health Improvement and Research,No.CFH-2024-1-2181Beijing Igandan Foundation,No.iGandanF-1082023-GSH011.
文摘Chronic liver disease has become a global health crisis,with increasing incidence and mortality rates placing a substantial burden on healthcare systems worldwide.A key factor in the progression of chronic liver disease is intestinal microbiota dysbiosis,which influences liver function via the intricate liver-gut axis.This axis plays a central role in various physiological processes,and disruptions in microbial composition can exacerbate liver pathology.Fecal microbiota transplantation(FMT)has emerged as a promising therapeutic strategy,with the potential to restore the composition and metabolic functions of the intestinal microbiota.Supported by encouraging findings from clinical trials and animal studies,FMT has demonstrated therapeutic benefits,including improvements in clinical symptoms,objective indicators,and long-term prognosis.These benefits encompass reductions in hepatic lipid deposition and inflammation,mitigation of complications in advanced liver disease,promotion of hepatitis B e antigen seroconversion,and enhancement of cognitive function.Although clinical evidence remains preliminary,current data underscore the transformative potential of FMT in managing chronic liver diseases.Nonetheless,challenges persist,including the need for standardized procedures,variability among donors,potential risks,and concerns regarding long-term safety.This review provides a comprehensive evaluation of the current literature on the efficacy and safety of FMT,while exploring future research directions to expand its application in liver disease management.
