The advancement in extraterrestrial exploration has highlighted the crucial need for studying how the human cardiovascular system adapts to space conditions.Human development occurs under the influence of gravity,shie...The advancement in extraterrestrial exploration has highlighted the crucial need for studying how the human cardiovascular system adapts to space conditions.Human development occurs under the influence of gravity,shielded from space radiation by Earth’s magnetic field,and within an environment characterized by 24-hour day-night cycles resulting from Earth’s rotation,thus deviating from these conditions necessitates adaptive responses for survival.With upcoming manned lunar and Martian missions approaching rapidly,it is essential to understand the impact of various stressors induced by outer-space environments on cardiovascular health.This comprehensive review integrates insights from both actual space missions and simulated experiments on Earth,to analyze how microgravity,space radiation,and disrupted circadian affect cardiovascular well-being.Prolonged exposure to microgravity induces myocardial atrophy and endothelial dysfunction,which may be exacerbated by space radiation.Mitochondrial dysfunction and oxidative stress emerge as key underlying mechanisms along with disturbances in ion channel perturbations,cytoskeletal damage,and myofibril changes.Disruptions in circadian rhythms caused by factors such as microgravity,light exposure,and irregular work schedules,could further exacerbate cardiovascular issues.However,current research tends to predominantly focus on disruptions in the core clock gene,overlooking the multifactorial nature of circadian rhythm disturbances in space.Future space missions should prioritize targeted prevention strategies and early detection methods for identifying cardiovascular risks,to preserve astronaut health and ensure mission success.展开更多
Volatile organic compounds(VOCs)present significant risks to both human health and the environment.As a result,there has been increasing research on their formation processes,emission patterns,and emission reduction t...Volatile organic compounds(VOCs)present significant risks to both human health and the environment.As a result,there has been increasing research on their formation processes,emission patterns,and emission reduction technologies.Sintered ore,a key raw material in ironmaking,requires substantial amounts of fossil fuels such as coal and coke in its production,leading to significant VOC emissions.However,research on VOC emission patterns during the sintering process remains limited.Thus,the influence of factors such as moisture content in the sintering mixture,fuel type,fuel ratio,and coal-to-coke ratio on VOC emissions was investigated through sintering cup experiments.Additionally,the reaction pathways of hydrocarbons within the sintering bed were analyzed using temperature distribution and thermodynamic calculations.In the sintering process using coke powder,the emissions of total volatile organic compounds and non-methane hydrocarbons per ton of sintered ore are 18.78 and 11.14 g,respectively,whereas emissions from coal are substantially higher at 378.27 and 32.55 g.VOC emissions exhibit a linear correlation with the total volatile matter input during sintering,with most VOCs originating from volatile matter.The improved heat transfer conditions reduce the preheating zone thickness,allowing more VOCs to remain in the high-temperature region.展开更多
The shortage of CO_(2) source and the challenges associated with the separation of pure CO_(2) have led to a growing interest in the potential utilization of CO_(2)-contained IWG.Therefore,this study has established a...The shortage of CO_(2) source and the challenges associated with the separation of pure CO_(2) have led to a growing interest in the potential utilization of CO_(2)-contained IWG.Therefore,this study has established an acid-rock interaction kinetic model to characterize the long-term interactions between CO_(2)-contained IWG and shale.The findings delineate the reaction process into three phases:during the initial 10 years,solubility trapping predominates,with minimal mineral dissolution.This increases shale porosity,promoting the diffusion and storage range of CO_(2)-contained IWG.Between 10 and 300 years,mineral dissolution/precipitation assumes primacy,with mineral trapping gradually supplanting dissolution.Notably,shale porosity diminishes by a minimum of approximately 40%,effectively inhibiting gas leakage.After 300 years,equilibrium is reached,with rock porosity consistently lower than the initial porosity.Throughout the entire reaction process,as the initial CO_(2) concentration decreases,the initial pH drops from 4.42 to 3.61,resulting in a roughly 20%increase in porosity.Additionally,it is necessary to regulate its concentration to avoid H_(2)S leakage during CO_(2)-contained IWG geological sequestration.And particular attention should be directed towards the risk of gas leakage when the IWG exhibit high levels of SO_(2) or NO_(2).展开更多
Integrating the magneto-optical effect into a waveguide-based photonic device becomes more and more interesting.In the work,the planar optical waveguide firstly was prepared in a terbium gallium garnet crystal(TGG)via...Integrating the magneto-optical effect into a waveguide-based photonic device becomes more and more interesting.In the work,the planar optical waveguide firstly was prepared in a terbium gallium garnet crystal(TGG)via the proton implantation with the energy of 4×10^(-1)MeV and the fluence of 6×10^(8)ions/μm^(2).Subsequently,a femtosecond laser with a central wavelength of 800 nm and a power of 3 mW was used to ablate the surface of the planar waveguide,forming the ridge optical waveguide.The dark-mode curve of the planar waveguide was measured by a prism coupling technique.The top-view morphology of the ridge waveguide was observed via a Nikon microscope.The mode field distributions of the planar and ridge waveguides were obtained by an end-face coupling system,and the propagation losses of the two waveguides were measured to be 2.26 dB/cm and 2.58 dB/cm,respectively.The Verdet constants were measured to be-72.7°/T·cm for the TGG substrate and-60.7°/T·cm for the ridge waveguide.The TGG waveguides have a potential in the fabrication of magneto-optical waveguide devices.展开更多
Psychiatric disorders constitute a complex health issue,primarily manifesting as significant disturbances in cognition,emotional regulation,and behavior.However,due to limited resources within health care systems,only...Psychiatric disorders constitute a complex health issue,primarily manifesting as significant disturbances in cognition,emotional regulation,and behavior.However,due to limited resources within health care systems,only a minority of patients can access effective treatment and care services,highlighting an urgent need for improvement.large language models(LLMs),with their natural language understanding and generation capabilities,are gradually penetrating the entire process of psychiatric diagnosis and treatment,including outpatient reception,diagnosis and therapy,clinical nursing,medication safety,and prognosis follow-up.They hold promise for improving the current severe shortage of health system resources and promoting equal access to mental health care.This article reviews the application scenarios and research progress of LLMs.It explores optimization methods for LLMs in psychiatry.Based on the research findings,we propose a clinical LLM for mental health using the Mixture of Experts framework to improve the accuracy of psychiatric diagnosis and therapeutic interventions.展开更多
Despite the cost and activity advantages,ruthenium-based oxygen evolution reaction(OER)catalysts face severe stability problems for proton exchange membrane water electrolysis(PEM-WE)due to Ru dissolution.Although tre...Despite the cost and activity advantages,ruthenium-based oxygen evolution reaction(OER)catalysts face severe stability problems for proton exchange membrane water electrolysis(PEM-WE)due to Ru dissolution.Although tremendous attention has been paid to enhancing the stability and activity under small current density in three electrode systems,there still lacks validation under industrial current density at the device level.Aiming at this issue,we report highly active and durable ruthenium-iridium alloyed oxides(IrRuO_(x))as the acidic OER catalyst for PEM-WE with exceptional durability for 1600 h at an industrial current density of 2.0 A·cm^(−2).X-ray absorption spectroscopy reveals that the introduction of iridium modulates the electronic structure of Ru and strengthens the local Ru–O bonds in RuO_(2),which is crucial for ensuring activity and stability.As a result,in comparison with its RuO_(2) counterpart,IrRuO_(x) works stably against the Ru leaching-induced catalytic layer breakage during the stability test.This work demonstrates the great potential of IrRuO_(x) as the practical OER catalyst for the application in PEM-WE.展开更多
Steel slag(SS)accumulates unavoidably due to its complex and unstable composition,high production volumes,and limited value-added resource utilization.Single or multiple interface modifiers were proposed to enhance th...Steel slag(SS)accumulates unavoidably due to its complex and unstable composition,high production volumes,and limited value-added resource utilization.Single or multiple interface modifiers were proposed to enhance the properties of SS through high-speed dispersion,transforming its inherent hydrophilic and oleophobic characteristics into hydrophily and lipophilicity.The modification effects were innovatively assessed by observing the color changes of modified steel slag solutions following the dissolution-settlement equilibrium constant.This approach avoided human-induced errors and improved estimated accuracy in conformance with conventional methods such as oil absorption value,activation index,sedimentation volume,and lipophilicity.The hydrolysis of 3-aminopropyltriethoxysilane(KH)generated–Si(OH)_(3)structure to form hydrogen or covalent bonds with active substances(OH groups)from SS.Concurrently,SS underwent encapsulation via Si–O–Si structure resulting from the dehydration of–Si(OH)_(3).The stearic acid coupling agent(SA),aluminate coupling agent(AC),and titanate coupling agent(TN)underwent chemical reactions with Ca(OH)_(2),Al(OH)_(3),and CaCO_(3)in SS.The acidic SA primarily created stable chemical bonds and acted as a supplement due to its package,reducing surface activity and hydrophilicity while enhancing lipophilicity.Specifically,the optimal modification effect was obtained at 3 wt.%SA.Consequently,3 wt.%SA was established as the benchmark for multiple modifiers and the most effective combination was 3 wt.%SA and 3 wt.%AC.Compared with a single interface modifier,SA corroded the SS surface to provide numerous active sites for further modification by KH,AC,or TN,resulting in a more densely packed structure.In addition,more organic groups on SS prevent the proximity of other particles from agglomerating to achieve dispersion and a synergistic modification,laying a theoretical foundation of SS in a new pathway for organic composite materials.展开更多
AIM To investigate the role of nuclear division cycle(NDC)80in human hepatocellular carcinogenesis.METHODS NDC80 gene expression was analyzed by real-time reverse transcription polymerase chain reaction in 47paired he...AIM To investigate the role of nuclear division cycle(NDC)80in human hepatocellular carcinogenesis.METHODS NDC80 gene expression was analyzed by real-time reverse transcription polymerase chain reaction in 47paired hepatocellular carcinoma(HCC)and adjacent tissues.The HCC cell line SMMC-7721 was transfected with lentivirus to silence endogenous NDC80 gene expression,which was confirmed by real-time polymerase chain reaction and western blotting.The effects of NDC80silencing on SMMC-7721 cell proliferation were evaluated by Cellomics Array Scan VTI imaging.Cell cycle analysis and apoptosis were detected with flow cytometry.Colony formation was assessed by fluorescence microscopy.RESULTS NDC80 expression levels in HCC tissues were significantly higher than those in the adjacent tissues.Functional studies demonstrated that NDC80 silencing significantly reduced SMMC-7721 cell proliferation and colony formation.Knockdown of NDC80 resulted in increased apoptosis and cell cycle arrest at S-phase.NDC80 contributed to HCC progression by reducing apoptosis and overcoming cell cycle arrest. CONCLUSION Elevated expression of NDC80 may play a role in promoting the development of HCC.展开更多
AIM To establish a rat model for evaluating the maturity of liver regeneration derived from associating liver partition and portal vein ligation for staged hepatectomy(ALPPS).METHODS In the present study, ALPPS, parti...AIM To establish a rat model for evaluating the maturity of liver regeneration derived from associating liver partition and portal vein ligation for staged hepatectomy(ALPPS).METHODS In the present study, ALPPS, partial hepatecotmy(PHx), and sham rat models were established initially, which were validated by significant increase of proliferative markers including Ki-67, proliferating cell nuclear antigen, and cyclin D1. In the setting of accelerated proliferation in volume at the second and fifth day after ALPPS, the characteristics of newborn hepatocytes, as well as specific markers of progenitor hepatic cell, were identified. Afterwards, the detection of liver function followed by cluster analysis of functional gene expression were performed to evaluate the maturity.RESULTS Compared with PHx and sham groups, the proliferation of f LR was significantly higher in ALPPS group(P = 0.023 and 0.001 at second day, P = 0.034 and P < 0.001 at fifth day after stage I). Meanwhile, the increased expression of proliferative markers including Ki-67, proliferating cell nuclear antigen, and cyclin D1 verified the accelerated liver regeneration derived from ALPPS procedure. However, ALPPS-induced Sox9 positive hepatocytes significantly increased beyond the portal triad, which indicated the progenitor hepatic cell was potentially involved. And the characteristics of ALPPSinduced hepatocytes indicated the lower expression of hepatocyte nuclear factor 4 and anti-tryptase in early proliferative stage. Both suggested the immaturity of ALPPS-derived liver regeneration. Additionally, the detection of liver function and functional genes expression confirmed the immaturity of renascent hepatocytes derived in early stage of ALPPS-derived liver regeneration.CONCLUSION Our study revealed the immaturity of ALPPS-derived proliferation in early regenerative response, which indicated that the volumetric assessment overestimated the functional proliferation. This could be convincing evidence that the stage Ⅱ of ALPPS should be performed prudently in patients with marginally adequate f LR, as the ALPPS-derived proliferation in volume lags behind the functional regeneration.展开更多
AIM: To introduce and evaluate a new method to re- pair bile duct defect with a degradable stent and au- tologous tissues. METHODS: Eight Ba-Ma mini-pigs were used in this study, Experimental models with common bile...AIM: To introduce and evaluate a new method to re- pair bile duct defect with a degradable stent and au- tologous tissues. METHODS: Eight Ba-Ma mini-pigs were used in this study, Experimental models with common bile duct (CBD) defect (0,5-1,0 cm segment of CBD resected) were established and then CBD was reconstructed by duct to duct anastomosis with a novel degradable stent made of poly [sebacic acid-co-(1,3-propanediol)-co- (1,2-propanediol)]. In addition, a vascularized greater omentum was placed around the stent and both ends of CBD. Cholangiography via gall bladder was per- formed for each pig at postoperative months 1 and 3 to rule out stent translocation and bile duct stricture. Complete blood count was examined pre- and post- operatively to estimate the inflammatory reaction. Liver enzymes and serum bilirubin were examined pre- and post-operatively to evaluate the liver function. Five pigs were sacrificed at month 3 to evaluate the healing of anastomosis. The other three pigs were raised for one year for long-term observation. RESULTS: All the animals underwent surgery success- fully. There was no intraoperative mortality and no bile leakage during the observation period, The white blood cell counts were only slightly increased on day 14 and month 3 postoperatively compared with that before operation, the difference was not statistically significant (P = 0.652). The plasma level of alanine aminotrans- ferase on day 14 and month 3 postoperatively was also not significantly elevated compared with that before operation (P = 0.810). Nevertheless, the plasma level of y-glutamyl transferase was increased after opera- tion in both groups (P = 0.004), especially 2 wk after operation. The level of serum total bilirubin after opera- tion was not significantly elevated compared with that before operation (P = 0.227), so did the serum direct bilirubin (P = 0.759). By cholangiography yia gall blad- der, we found that the stent maintained its integrity of shape and was stillin situ at month 1, and it disap- peared completely at month 3. No severe CBD dilation and stricture were observed at both months 1 and 3. No pig died during the 3-too postoperative observation period. No sign of necrosis, bile duct stricture, bile leak- age or abdominal abscess was found at reoperation at month 3 postoperatively. Pigs had neither fragments of stent nor stones formed in the CBD. Collagen deposit was observed in the anastomosis by hematoxylin and eosin (HE) and Masson's trichrome stains. No severe cholestasis was observed in liver parenchyma by HE staining. Intestinal obstruction was found in a pig 4 mo after operation, and no bile leakage, bile duct stricture or biliary obstruction were observed in laparotomy. No sign of bile duct stricture or bile leakage was observed in the other two pigs. CONCLUSION: The novel method for repairing bile duct defect yielded a good short-term effect without postoperative bile duct stricture. However, the long- term effect should be further studied.展开更多
There is a lack of systematic research on the expression of internal control genes used for gene expression normalization in real-time reverse transcription polymerase chain reaction in spinal cord injury research.In ...There is a lack of systematic research on the expression of internal control genes used for gene expression normalization in real-time reverse transcription polymerase chain reaction in spinal cord injury research.In this study,we used rat models of spinal cord hemisection to analyze the expression stability of 13 commonly applied reference genes:Actb,Ankrd27,CypA,Gapdh,Hprt1,Mrpl10,Pgk1,Rictor,Rn18s,Tbp,Ubc,Ubxn11,and Ywhaz.Our results show that the expression of Ankrd27,Ubc,and Tbp were stable after spinal cord injury,while Actb was the most unstable internal control gene.Ankrd27,Ubc,Tbp,and Actb were consequently used to investigate the effects of internal control genes with differing stabilities on the normalization of target gene expression.Target gene expression levels and changes over time were similar when Ankrd27,Ubc,and Tbp were used as internal controls but different when Actb was used as an internal control.We recommend that Ankrd27,Ubc,and Tbp are used as internal control genes for real-time reverse transcription polymerase chain reaction in spinal cord injury research.This study was approved by the Administration Committee of Experimental Animals,Jiangsu Province,China(approval No.20180304-008)on March 4,2018.展开更多
The critical role of vanadium in metallurgy and the increasing commercialization of vanadium redox flow batteries have contributed to a rise in market demand for vanadium,emphasizing the need to ensure the sustainabil...The critical role of vanadium in metallurgy and the increasing commercialization of vanadium redox flow batteries have contributed to a rise in market demand for vanadium,emphasizing the need to ensure the sustainability of vanadium production.Converter vanadium slag and stone coal,generated during the smelting process of vanadium–titanium magnetite,serve as primary raw materials for vanadium extraction.This paper reviews the process mineralogy of converter vanadium slag and stone coal,encompassing the chemical and physical phase compositions of the raw materials and the state of vanadium occurrence.The aim is to establish a theoretical foundation for the mechanistic study of the vanadium extraction techniques and to provide a reference for the optimization of the process afterward.This paper systematically summarizes the current vanadium extraction technology from converter vanadium slag,covering roasting,direct leaching,sub-molten salt method,and the technology and research status of vanadium extraction from stone coal.Most importantly,it identifies key issues in the current vanadium extraction techniques and challenges faced in actual production,based on the analysis of the current vanadium extraction process and mechanism research.The forward feasibility and prospects for the development of vanadium extraction technology are outlined.展开更多
Improving the combustion efficiency of fuels is essential to reducing pollutant emissions in the iron ore sintering process.The sintering bed surface steam-injection technology has attracted significant research inter...Improving the combustion efficiency of fuels is essential to reducing pollutant emissions in the iron ore sintering process.The sintering bed surface steam-injection technology has attracted significant research interest for its potential advantages in low-energy consumption and low emission.The effect of steam injection on fuel combustion efficiency and CO emission was studied by comparing the thermodynamic response from the sintering process before and after steam injection.The mechanism of improving combustion efficiency was also revealed.The results indicated that the sintering gas medium of H_(2)O-H_(2)-N_(2)-O_(2) with the blown steam improved the heat transfer conditions of fuel combustion and promoted the water gas reaction.The optimum state of steam injection was achieved at 15 min after ignition with 0.02 m^(3) min^(-1).The CO emission reduction is 10.91% compared with the base case.The combustion efficiency was 88.83%,6.15% higher than conventional sintering,and the solid fuel consumption was reduced by 1.15 kg t^(-1).It was indicated that steam injection would improve combustion efficiency and reduce solid fuel consumption.Meanwhile,the steam injection could improve the combustion kinetic conditions in the zone of unburned fuel and low oxygen partial pressure.It was conducive to the reaction of H_(2)O with C and CO to convert the CO of reducing atmosphere to CO_(2),which in turn realized the complete combustion of fuel and CO and improved the efficiency of fuel combustion.展开更多
BACKGROUND Colorectal cancer(CRC)is a highly prevalent malignancy worldwide,and new therapeutic targets urgently need to be found to prolong patient survival.5-methoxytryptophan(5-MTP)is a tryptophan metabolite found ...BACKGROUND Colorectal cancer(CRC)is a highly prevalent malignancy worldwide,and new therapeutic targets urgently need to be found to prolong patient survival.5-methoxytryptophan(5-MTP)is a tryptophan metabolite found in animals and humans.However,the effects of 5-MTP on proliferation and apoptosis of CRC cells are currently unknown.AIM To investigate the effects of 5-MTP on the proliferation,migration,invasion,and apoptosis abilities of CRC cells.Additionally,we seek to explore whether 5-MTP has the potential to be utilized as a drug for the treatment of CRC.METHODS In order to evaluate the effect of 5-MTP on CRC cells,a series of experiments were conducted for evaluation.Colony formation assay and Cell Counting Kit 8 assays were used to investigate the impact of 5-MTP on the proliferation of CRC cell lines.Cell cycle assays were employed to examine the effect of 5-MTP on cellular growth.In addition,we investigated the effects of 5-MTP on apoptosis and reactive oxygen species in HCT-116 cells.To obtain a deeper understanding of how 5-MTP affects CRC,we conducted a study to examine its influence on the PI3K/Akt signaling pathway in CRC cells.RESULTS This article showed that 5-MTP promoted apoptosis and cell cycle arrest and inhibited cell proliferation in CRC cells.In many articles,it has been reported that PI3K/Akt/FoxO3a signaling pathway is one of the most important signaling pathways involved in internal regulating cell proliferation and differentiation. Nevertheless, 5-MTP combined with PI3K/Akt/FoxO3a signaling pathway inhibitors significantly promotedapoptosis and cell cycle arrest and inhibited cell proliferation in CRC cells compared with 5-MTP alone in ourstudy.CONCLUSIONTherefore, there is strong evidence that 5-MTP can be used as an effective medicine for CRC treatment.展开更多
As a noninvasive technique,ultrasound stimulation is known to modulate neuronal activity both in vitro and in vivo.The latest explanation of this phenomenon is that the acoustic wave can activate the ion channels and ...As a noninvasive technique,ultrasound stimulation is known to modulate neuronal activity both in vitro and in vivo.The latest explanation of this phenomenon is that the acoustic wave can activate the ion channels and further impact the electrophysiological properties of targeted neurons.However,the underlying mechanism of low-intensity pulsed ultrasound(LIPUS)-induced neuro-modulation effects is still unclear.Here,we characterize the excitatory effects of LIPUS on spontaneous activity and the intracellular Ca^(2+)homeostasis in cultured hippocampal neurons.By whole-cell patch clamp recording,we found that 15 min of 1-MHz LIPUS boosts the frequency of both spontaneous action potentials and spontaneous excitatory synaptic currents(sEPSCs)and also increases the amplitude of sEPSCs in hippocampal neurons.This phenomenon lasts for>10 min after LIPUS exposure.Together with Ca^(2+)imaging,we clarified that LIPUS increases the[Ca^(2+)]cyto level by facilitating L-type Ca^(2+)channels(LTCCs).In addition,due to the[Ca^(2+)]cyto elevation by LIPUS exposure,the Ca^(2+)-dependent CaMKII-CREB pathway can be activated within 30 min to further regulate the gene transcription and protein expression.Our work suggests that LIPUS regulates neuronal activity in a Ca^(2+)-dependent manner via LTCCs.This may also explain the multi-activation effects of LIPUS beyond neurons.LIPUS stimulation potentiates spontaneous neuronal activity by increasing Ca^(2+)influx.展开更多
BACKGROUND Despite significant advances in multimodality treatments,hepatocellular carcinoma(HCC)remains one of the most common malignant tumors.Identification of novel prognostic biomarkers and molecular targets is u...BACKGROUND Despite significant advances in multimodality treatments,hepatocellular carcinoma(HCC)remains one of the most common malignant tumors.Identification of novel prognostic biomarkers and molecular targets is urgently needed.AIM To identify potential key genes associated with tumor microenvironments and the prognosis of HCC.METHODS The infiltration levels of immune cells and stromal cells were calculated and quantified based on the ESTIMATE algorithm.Differentially expressed genes(DEGs)between high and low groups according to immune or stromal scores were screened using the gene expression profile of HCC patients in The Cancer Genome Atlas and were further linked to the prognosis of HCC.These genes were validated in four independent HCC cohorts.Survival-related key genes were identified by a LASSO Cox regression model.RESULTS HCC patients with a high immune/stromal score had better survival benefits than patients with a low score.A total of 899 DEGs were identified and found to be involved in immune responses and extracellular matrices,147 of which were associated with overall survival.Subsequently,52 of 147 survival-related DEGs were validated in additional cohorts.Finally,ten key genes(STSL2,TMC5,DOK5,RASGRP2,NLRC3,KLRB1,CD5L,CFHR3,ADH1C,and UGT2B15)were selected and used to construct a prognostic gene signature,which presented a good performance in predicting overall survival.CONCLUSION This study extracted a list of genes associated with tumor microenvironments and the prognosis of HCC,thereby providing several valuable directions for the prognostic prediction and molecular targeted therapy of HCC in the future.展开更多
基金supported by the National Natural Science Fund for Distinguished Young Scholars of China(82125004).
文摘The advancement in extraterrestrial exploration has highlighted the crucial need for studying how the human cardiovascular system adapts to space conditions.Human development occurs under the influence of gravity,shielded from space radiation by Earth’s magnetic field,and within an environment characterized by 24-hour day-night cycles resulting from Earth’s rotation,thus deviating from these conditions necessitates adaptive responses for survival.With upcoming manned lunar and Martian missions approaching rapidly,it is essential to understand the impact of various stressors induced by outer-space environments on cardiovascular health.This comprehensive review integrates insights from both actual space missions and simulated experiments on Earth,to analyze how microgravity,space radiation,and disrupted circadian affect cardiovascular well-being.Prolonged exposure to microgravity induces myocardial atrophy and endothelial dysfunction,which may be exacerbated by space radiation.Mitochondrial dysfunction and oxidative stress emerge as key underlying mechanisms along with disturbances in ion channel perturbations,cytoskeletal damage,and myofibril changes.Disruptions in circadian rhythms caused by factors such as microgravity,light exposure,and irregular work schedules,could further exacerbate cardiovascular issues.However,current research tends to predominantly focus on disruptions in the core clock gene,overlooking the multifactorial nature of circadian rhythm disturbances in space.Future space missions should prioritize targeted prevention strategies and early detection methods for identifying cardiovascular risks,to preserve astronaut health and ensure mission success.
基金supported by the National Key Research and Development Program of China(2022YFC3901405)the National Program for Supporting Postdoctoral Researchers of China(GZC20230016)the 2023 Provincial Quality Project Program for Nurturing People in the New Era(Graduate Education)(2023xscx065).
文摘Volatile organic compounds(VOCs)present significant risks to both human health and the environment.As a result,there has been increasing research on their formation processes,emission patterns,and emission reduction technologies.Sintered ore,a key raw material in ironmaking,requires substantial amounts of fossil fuels such as coal and coke in its production,leading to significant VOC emissions.However,research on VOC emission patterns during the sintering process remains limited.Thus,the influence of factors such as moisture content in the sintering mixture,fuel type,fuel ratio,and coal-to-coke ratio on VOC emissions was investigated through sintering cup experiments.Additionally,the reaction pathways of hydrocarbons within the sintering bed were analyzed using temperature distribution and thermodynamic calculations.In the sintering process using coke powder,the emissions of total volatile organic compounds and non-methane hydrocarbons per ton of sintered ore are 18.78 and 11.14 g,respectively,whereas emissions from coal are substantially higher at 378.27 and 32.55 g.VOC emissions exhibit a linear correlation with the total volatile matter input during sintering,with most VOCs originating from volatile matter.The improved heat transfer conditions reduce the preheating zone thickness,allowing more VOCs to remain in the high-temperature region.
基金supported by the National Natural ScienceFoundation of China(No.52074316)PetroChina CompanyLimited(grant number 2019E-2608)。
文摘The shortage of CO_(2) source and the challenges associated with the separation of pure CO_(2) have led to a growing interest in the potential utilization of CO_(2)-contained IWG.Therefore,this study has established an acid-rock interaction kinetic model to characterize the long-term interactions between CO_(2)-contained IWG and shale.The findings delineate the reaction process into three phases:during the initial 10 years,solubility trapping predominates,with minimal mineral dissolution.This increases shale porosity,promoting the diffusion and storage range of CO_(2)-contained IWG.Between 10 and 300 years,mineral dissolution/precipitation assumes primacy,with mineral trapping gradually supplanting dissolution.Notably,shale porosity diminishes by a minimum of approximately 40%,effectively inhibiting gas leakage.After 300 years,equilibrium is reached,with rock porosity consistently lower than the initial porosity.Throughout the entire reaction process,as the initial CO_(2) concentration decreases,the initial pH drops from 4.42 to 3.61,resulting in a roughly 20%increase in porosity.Additionally,it is necessary to regulate its concentration to avoid H_(2)S leakage during CO_(2)-contained IWG geological sequestration.And particular attention should be directed towards the risk of gas leakage when the IWG exhibit high levels of SO_(2) or NO_(2).
基金supported by the Postgraduate Research and Innovation Program of Jiangsu Province,China(Grant No.KYCX241133)the National Natural Science Foundation of China(Grant No.11405041)+1 种基金the Key Research and Development Program of Jiangxi Province,China(Grant No.20223BBE51020)the Opening Fund of Key Laboratory of Rare Earths(Chinese Academy of Sciences).
文摘Integrating the magneto-optical effect into a waveguide-based photonic device becomes more and more interesting.In the work,the planar optical waveguide firstly was prepared in a terbium gallium garnet crystal(TGG)via the proton implantation with the energy of 4×10^(-1)MeV and the fluence of 6×10^(8)ions/μm^(2).Subsequently,a femtosecond laser with a central wavelength of 800 nm and a power of 3 mW was used to ablate the surface of the planar waveguide,forming the ridge optical waveguide.The dark-mode curve of the planar waveguide was measured by a prism coupling technique.The top-view morphology of the ridge waveguide was observed via a Nikon microscope.The mode field distributions of the planar and ridge waveguides were obtained by an end-face coupling system,and the propagation losses of the two waveguides were measured to be 2.26 dB/cm and 2.58 dB/cm,respectively.The Verdet constants were measured to be-72.7°/T·cm for the TGG substrate and-60.7°/T·cm for the ridge waveguide.The TGG waveguides have a potential in the fabrication of magneto-optical waveguide devices.
基金Supported by the STI2030-Major Projects,No.2021ZD0203400 and No.2021ZD0200800the National Natural Science Foundation of China,No.82171477。
文摘Psychiatric disorders constitute a complex health issue,primarily manifesting as significant disturbances in cognition,emotional regulation,and behavior.However,due to limited resources within health care systems,only a minority of patients can access effective treatment and care services,highlighting an urgent need for improvement.large language models(LLMs),with their natural language understanding and generation capabilities,are gradually penetrating the entire process of psychiatric diagnosis and treatment,including outpatient reception,diagnosis and therapy,clinical nursing,medication safety,and prognosis follow-up.They hold promise for improving the current severe shortage of health system resources and promoting equal access to mental health care.This article reviews the application scenarios and research progress of LLMs.It explores optimization methods for LLMs in psychiatry.Based on the research findings,we propose a clinical LLM for mental health using the Mixture of Experts framework to improve the accuracy of psychiatric diagnosis and therapeutic interventions.
基金supported by the National Key Research and Development Program of China(No.2021YFA1500400)the National Natural Science Foundation of China(No.22175163)+3 种基金the Natural Science Foundation of Anhui Province(No.2208085UD04)Anhui Development and Reform Commission(Nos.AHZDCYCX-LSDT2023-08 and AHZDCYCX-LSDT2023-07)the Department of Ecology and Environment of Anhui Province(No.2023hb0018)the Fundamental Research Funds for the Central Universities(No.WK2060000016).
文摘Despite the cost and activity advantages,ruthenium-based oxygen evolution reaction(OER)catalysts face severe stability problems for proton exchange membrane water electrolysis(PEM-WE)due to Ru dissolution.Although tremendous attention has been paid to enhancing the stability and activity under small current density in three electrode systems,there still lacks validation under industrial current density at the device level.Aiming at this issue,we report highly active and durable ruthenium-iridium alloyed oxides(IrRuO_(x))as the acidic OER catalyst for PEM-WE with exceptional durability for 1600 h at an industrial current density of 2.0 A·cm^(−2).X-ray absorption spectroscopy reveals that the introduction of iridium modulates the electronic structure of Ru and strengthens the local Ru–O bonds in RuO_(2),which is crucial for ensuring activity and stability.As a result,in comparison with its RuO_(2) counterpart,IrRuO_(x) works stably against the Ru leaching-induced catalytic layer breakage during the stability test.This work demonstrates the great potential of IrRuO_(x) as the practical OER catalyst for the application in PEM-WE.
基金supported by the National Natural Science Foundation of China(U23A20605)Anhui Graduate Innovation and Entrepreneurship Practice Project(2022cxcysj090)+2 种基金China Baowu Low Carbon Metallurgy Innovation Foundation(BWLCF202202)the University Synergy Innovation Program of Anhui Province(GXXT-2020-072)the Outstanding Youth Fund of Anhui Province(2208085J19).
文摘Steel slag(SS)accumulates unavoidably due to its complex and unstable composition,high production volumes,and limited value-added resource utilization.Single or multiple interface modifiers were proposed to enhance the properties of SS through high-speed dispersion,transforming its inherent hydrophilic and oleophobic characteristics into hydrophily and lipophilicity.The modification effects were innovatively assessed by observing the color changes of modified steel slag solutions following the dissolution-settlement equilibrium constant.This approach avoided human-induced errors and improved estimated accuracy in conformance with conventional methods such as oil absorption value,activation index,sedimentation volume,and lipophilicity.The hydrolysis of 3-aminopropyltriethoxysilane(KH)generated–Si(OH)_(3)structure to form hydrogen or covalent bonds with active substances(OH groups)from SS.Concurrently,SS underwent encapsulation via Si–O–Si structure resulting from the dehydration of–Si(OH)_(3).The stearic acid coupling agent(SA),aluminate coupling agent(AC),and titanate coupling agent(TN)underwent chemical reactions with Ca(OH)_(2),Al(OH)_(3),and CaCO_(3)in SS.The acidic SA primarily created stable chemical bonds and acted as a supplement due to its package,reducing surface activity and hydrophilicity while enhancing lipophilicity.Specifically,the optimal modification effect was obtained at 3 wt.%SA.Consequently,3 wt.%SA was established as the benchmark for multiple modifiers and the most effective combination was 3 wt.%SA and 3 wt.%AC.Compared with a single interface modifier,SA corroded the SS surface to provide numerous active sites for further modification by KH,AC,or TN,resulting in a more densely packed structure.In addition,more organic groups on SS prevent the proximity of other particles from agglomerating to achieve dispersion and a synergistic modification,laying a theoretical foundation of SS in a new pathway for organic composite materials.
基金Health Bureau of Nantong City,No.WQ2016011Nantong Science and Technology Bureau,No.MS22015105+2 种基金National Natural Science Foundation of China,No.81601842Science and Technology Development Project of Nantong City,China,No.HS2014061Jiangsu Provincial Commission of Health and Family Planning,No.H201453
文摘AIM To investigate the role of nuclear division cycle(NDC)80in human hepatocellular carcinogenesis.METHODS NDC80 gene expression was analyzed by real-time reverse transcription polymerase chain reaction in 47paired hepatocellular carcinoma(HCC)and adjacent tissues.The HCC cell line SMMC-7721 was transfected with lentivirus to silence endogenous NDC80 gene expression,which was confirmed by real-time polymerase chain reaction and western blotting.The effects of NDC80silencing on SMMC-7721 cell proliferation were evaluated by Cellomics Array Scan VTI imaging.Cell cycle analysis and apoptosis were detected with flow cytometry.Colony formation was assessed by fluorescence microscopy.RESULTS NDC80 expression levels in HCC tissues were significantly higher than those in the adjacent tissues.Functional studies demonstrated that NDC80 silencing significantly reduced SMMC-7721 cell proliferation and colony formation.Knockdown of NDC80 resulted in increased apoptosis and cell cycle arrest at S-phase.NDC80 contributed to HCC progression by reducing apoptosis and overcoming cell cycle arrest. CONCLUSION Elevated expression of NDC80 may play a role in promoting the development of HCC.
基金Supported by the Major Scientific and Technological Project of Zhejiang Province,China,No.2015C03026
文摘AIM To establish a rat model for evaluating the maturity of liver regeneration derived from associating liver partition and portal vein ligation for staged hepatectomy(ALPPS).METHODS In the present study, ALPPS, partial hepatecotmy(PHx), and sham rat models were established initially, which were validated by significant increase of proliferative markers including Ki-67, proliferating cell nuclear antigen, and cyclin D1. In the setting of accelerated proliferation in volume at the second and fifth day after ALPPS, the characteristics of newborn hepatocytes, as well as specific markers of progenitor hepatic cell, were identified. Afterwards, the detection of liver function followed by cluster analysis of functional gene expression were performed to evaluate the maturity.RESULTS Compared with PHx and sham groups, the proliferation of f LR was significantly higher in ALPPS group(P = 0.023 and 0.001 at second day, P = 0.034 and P < 0.001 at fifth day after stage I). Meanwhile, the increased expression of proliferative markers including Ki-67, proliferating cell nuclear antigen, and cyclin D1 verified the accelerated liver regeneration derived from ALPPS procedure. However, ALPPS-induced Sox9 positive hepatocytes significantly increased beyond the portal triad, which indicated the progenitor hepatic cell was potentially involved. And the characteristics of ALPPSinduced hepatocytes indicated the lower expression of hepatocyte nuclear factor 4 and anti-tryptase in early proliferative stage. Both suggested the immaturity of ALPPS-derived liver regeneration. Additionally, the detection of liver function and functional genes expression confirmed the immaturity of renascent hepatocytes derived in early stage of ALPPS-derived liver regeneration.CONCLUSION Our study revealed the immaturity of ALPPS-derived proliferation in early regenerative response, which indicated that the volumetric assessment overestimated the functional proliferation. This could be convincing evidence that the stage Ⅱ of ALPPS should be performed prudently in patients with marginally adequate f LR, as the ALPPS-derived proliferation in volume lags behind the functional regeneration.
基金Supported by Grants from Science and Technology Department of Zhejiang Province, No. 2009C33027 and No. 2009R50040
文摘AIM: To introduce and evaluate a new method to re- pair bile duct defect with a degradable stent and au- tologous tissues. METHODS: Eight Ba-Ma mini-pigs were used in this study, Experimental models with common bile duct (CBD) defect (0,5-1,0 cm segment of CBD resected) were established and then CBD was reconstructed by duct to duct anastomosis with a novel degradable stent made of poly [sebacic acid-co-(1,3-propanediol)-co- (1,2-propanediol)]. In addition, a vascularized greater omentum was placed around the stent and both ends of CBD. Cholangiography via gall bladder was per- formed for each pig at postoperative months 1 and 3 to rule out stent translocation and bile duct stricture. Complete blood count was examined pre- and post- operatively to estimate the inflammatory reaction. Liver enzymes and serum bilirubin were examined pre- and post-operatively to evaluate the liver function. Five pigs were sacrificed at month 3 to evaluate the healing of anastomosis. The other three pigs were raised for one year for long-term observation. RESULTS: All the animals underwent surgery success- fully. There was no intraoperative mortality and no bile leakage during the observation period, The white blood cell counts were only slightly increased on day 14 and month 3 postoperatively compared with that before operation, the difference was not statistically significant (P = 0.652). The plasma level of alanine aminotrans- ferase on day 14 and month 3 postoperatively was also not significantly elevated compared with that before operation (P = 0.810). Nevertheless, the plasma level of y-glutamyl transferase was increased after opera- tion in both groups (P = 0.004), especially 2 wk after operation. The level of serum total bilirubin after opera- tion was not significantly elevated compared with that before operation (P = 0.227), so did the serum direct bilirubin (P = 0.759). By cholangiography yia gall blad- der, we found that the stent maintained its integrity of shape and was stillin situ at month 1, and it disap- peared completely at month 3. No severe CBD dilation and stricture were observed at both months 1 and 3. No pig died during the 3-too postoperative observation period. No sign of necrosis, bile duct stricture, bile leak- age or abdominal abscess was found at reoperation at month 3 postoperatively. Pigs had neither fragments of stent nor stones formed in the CBD. Collagen deposit was observed in the anastomosis by hematoxylin and eosin (HE) and Masson's trichrome stains. No severe cholestasis was observed in liver parenchyma by HE staining. Intestinal obstruction was found in a pig 4 mo after operation, and no bile leakage, bile duct stricture or biliary obstruction were observed in laparotomy. No sign of bile duct stricture or bile leakage was observed in the other two pigs. CONCLUSION: The novel method for repairing bile duct defect yielded a good short-term effect without postoperative bile duct stricture. However, the long- term effect should be further studied.
基金the National Natural Science Foundation of China,No.81901257(to YXW)the Natural Science Foundation of Jiangsu Province of China,No.BK20180951(to YXW)+1 种基金Postgraduate Research and Practice Innovation Program of Jiangsu Province of China,No.KYCX20_2818(to WL)and Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD,to Key Laboratory of Neuroregeneration of Jiangsu and Ministry of Education).
文摘There is a lack of systematic research on the expression of internal control genes used for gene expression normalization in real-time reverse transcription polymerase chain reaction in spinal cord injury research.In this study,we used rat models of spinal cord hemisection to analyze the expression stability of 13 commonly applied reference genes:Actb,Ankrd27,CypA,Gapdh,Hprt1,Mrpl10,Pgk1,Rictor,Rn18s,Tbp,Ubc,Ubxn11,and Ywhaz.Our results show that the expression of Ankrd27,Ubc,and Tbp were stable after spinal cord injury,while Actb was the most unstable internal control gene.Ankrd27,Ubc,Tbp,and Actb were consequently used to investigate the effects of internal control genes with differing stabilities on the normalization of target gene expression.Target gene expression levels and changes over time were similar when Ankrd27,Ubc,and Tbp were used as internal controls but different when Actb was used as an internal control.We recommend that Ankrd27,Ubc,and Tbp are used as internal control genes for real-time reverse transcription polymerase chain reaction in spinal cord injury research.This study was approved by the Administration Committee of Experimental Animals,Jiangsu Province,China(approval No.20180304-008)on March 4,2018.
基金supported by the National Natural Science Foundation of China(Nos.51774140,82204604 and 22304055)Hebei Province High-end Iron and Steel Metallurgy Joint Fund Project(No.E2021209147)+4 种基金Hebei Natural Science Fund for Distinguished Young Scholar(No.E2019209433)the Natural Science Foundation of Hebei Province(No.E2022209158)the Science and Technology Planning Project of Hebei Province(No.23564101D)the Key Research Project of North China University of Science and Technology(No.ZD-ST-202308)the Operation Expenses for Universities’Basic Scientific Research of Hebei Province(No.JQN2021018)。
文摘The critical role of vanadium in metallurgy and the increasing commercialization of vanadium redox flow batteries have contributed to a rise in market demand for vanadium,emphasizing the need to ensure the sustainability of vanadium production.Converter vanadium slag and stone coal,generated during the smelting process of vanadium–titanium magnetite,serve as primary raw materials for vanadium extraction.This paper reviews the process mineralogy of converter vanadium slag and stone coal,encompassing the chemical and physical phase compositions of the raw materials and the state of vanadium occurrence.The aim is to establish a theoretical foundation for the mechanistic study of the vanadium extraction techniques and to provide a reference for the optimization of the process afterward.This paper systematically summarizes the current vanadium extraction technology from converter vanadium slag,covering roasting,direct leaching,sub-molten salt method,and the technology and research status of vanadium extraction from stone coal.Most importantly,it identifies key issues in the current vanadium extraction techniques and challenges faced in actual production,based on the analysis of the current vanadium extraction process and mechanism research.The forward feasibility and prospects for the development of vanadium extraction technology are outlined.
基金support from the National Natural Science Foundation of China (NSFC) (Grant No.52174290)the China Scholarship Council (CSC)via the Joint-Training Ph.D.Program (Grant No.202008340093)for supportingthis research.
文摘Improving the combustion efficiency of fuels is essential to reducing pollutant emissions in the iron ore sintering process.The sintering bed surface steam-injection technology has attracted significant research interest for its potential advantages in low-energy consumption and low emission.The effect of steam injection on fuel combustion efficiency and CO emission was studied by comparing the thermodynamic response from the sintering process before and after steam injection.The mechanism of improving combustion efficiency was also revealed.The results indicated that the sintering gas medium of H_(2)O-H_(2)-N_(2)-O_(2) with the blown steam improved the heat transfer conditions of fuel combustion and promoted the water gas reaction.The optimum state of steam injection was achieved at 15 min after ignition with 0.02 m^(3) min^(-1).The CO emission reduction is 10.91% compared with the base case.The combustion efficiency was 88.83%,6.15% higher than conventional sintering,and the solid fuel consumption was reduced by 1.15 kg t^(-1).It was indicated that steam injection would improve combustion efficiency and reduce solid fuel consumption.Meanwhile,the steam injection could improve the combustion kinetic conditions in the zone of unburned fuel and low oxygen partial pressure.It was conducive to the reaction of H_(2)O with C and CO to convert the CO of reducing atmosphere to CO_(2),which in turn realized the complete combustion of fuel and CO and improved the efficiency of fuel combustion.
文摘BACKGROUND Colorectal cancer(CRC)is a highly prevalent malignancy worldwide,and new therapeutic targets urgently need to be found to prolong patient survival.5-methoxytryptophan(5-MTP)is a tryptophan metabolite found in animals and humans.However,the effects of 5-MTP on proliferation and apoptosis of CRC cells are currently unknown.AIM To investigate the effects of 5-MTP on the proliferation,migration,invasion,and apoptosis abilities of CRC cells.Additionally,we seek to explore whether 5-MTP has the potential to be utilized as a drug for the treatment of CRC.METHODS In order to evaluate the effect of 5-MTP on CRC cells,a series of experiments were conducted for evaluation.Colony formation assay and Cell Counting Kit 8 assays were used to investigate the impact of 5-MTP on the proliferation of CRC cell lines.Cell cycle assays were employed to examine the effect of 5-MTP on cellular growth.In addition,we investigated the effects of 5-MTP on apoptosis and reactive oxygen species in HCT-116 cells.To obtain a deeper understanding of how 5-MTP affects CRC,we conducted a study to examine its influence on the PI3K/Akt signaling pathway in CRC cells.RESULTS This article showed that 5-MTP promoted apoptosis and cell cycle arrest and inhibited cell proliferation in CRC cells.In many articles,it has been reported that PI3K/Akt/FoxO3a signaling pathway is one of the most important signaling pathways involved in internal regulating cell proliferation and differentiation. Nevertheless, 5-MTP combined with PI3K/Akt/FoxO3a signaling pathway inhibitors significantly promotedapoptosis and cell cycle arrest and inhibited cell proliferation in CRC cells compared with 5-MTP alone in ourstudy.CONCLUSIONTherefore, there is strong evidence that 5-MTP can be used as an effective medicine for CRC treatment.
基金supported by the National Key Research&Development Program of China(2022YFC3602700 and 2022YFC3602702)the Science and Technology Innovation 2030—Brain Science and Brain-Inspired Intelligence Project(2021ZD0201301)+5 种基金the National Natural Science Foundation of China(32170688,31971159,and 12034015)the Innovation Program of Shanghai Municipal Education Commission(2019-01-07-00-07-E00041)the Shanghai Municipal Science and Technology Major Project(2018SHZDZX01)the ZJ Labthe Shanghai Center for Brain Science and Brain-Inspired Technology,the Program of Shanghai Academic Research Leaders(21XD1403600)the Fundamental Research Funds for the Central Universities(22120230562).
文摘As a noninvasive technique,ultrasound stimulation is known to modulate neuronal activity both in vitro and in vivo.The latest explanation of this phenomenon is that the acoustic wave can activate the ion channels and further impact the electrophysiological properties of targeted neurons.However,the underlying mechanism of low-intensity pulsed ultrasound(LIPUS)-induced neuro-modulation effects is still unclear.Here,we characterize the excitatory effects of LIPUS on spontaneous activity and the intracellular Ca^(2+)homeostasis in cultured hippocampal neurons.By whole-cell patch clamp recording,we found that 15 min of 1-MHz LIPUS boosts the frequency of both spontaneous action potentials and spontaneous excitatory synaptic currents(sEPSCs)and also increases the amplitude of sEPSCs in hippocampal neurons.This phenomenon lasts for>10 min after LIPUS exposure.Together with Ca^(2+)imaging,we clarified that LIPUS increases the[Ca^(2+)]cyto level by facilitating L-type Ca^(2+)channels(LTCCs).In addition,due to the[Ca^(2+)]cyto elevation by LIPUS exposure,the Ca^(2+)-dependent CaMKII-CREB pathway can be activated within 30 min to further regulate the gene transcription and protein expression.Our work suggests that LIPUS regulates neuronal activity in a Ca^(2+)-dependent manner via LTCCs.This may also explain the multi-activation effects of LIPUS beyond neurons.LIPUS stimulation potentiates spontaneous neuronal activity by increasing Ca^(2+)influx.
文摘BACKGROUND Despite significant advances in multimodality treatments,hepatocellular carcinoma(HCC)remains one of the most common malignant tumors.Identification of novel prognostic biomarkers and molecular targets is urgently needed.AIM To identify potential key genes associated with tumor microenvironments and the prognosis of HCC.METHODS The infiltration levels of immune cells and stromal cells were calculated and quantified based on the ESTIMATE algorithm.Differentially expressed genes(DEGs)between high and low groups according to immune or stromal scores were screened using the gene expression profile of HCC patients in The Cancer Genome Atlas and were further linked to the prognosis of HCC.These genes were validated in four independent HCC cohorts.Survival-related key genes were identified by a LASSO Cox regression model.RESULTS HCC patients with a high immune/stromal score had better survival benefits than patients with a low score.A total of 899 DEGs were identified and found to be involved in immune responses and extracellular matrices,147 of which were associated with overall survival.Subsequently,52 of 147 survival-related DEGs were validated in additional cohorts.Finally,ten key genes(STSL2,TMC5,DOK5,RASGRP2,NLRC3,KLRB1,CD5L,CFHR3,ADH1C,and UGT2B15)were selected and used to construct a prognostic gene signature,which presented a good performance in predicting overall survival.CONCLUSION This study extracted a list of genes associated with tumor microenvironments and the prognosis of HCC,thereby providing several valuable directions for the prognostic prediction and molecular targeted therapy of HCC in the future.
