With rapid economic growth and urbanization, the Yangtze River Delta(YRD) region in China has experienced serious air pollution challenges. In this study, we analyzed the air pollution characteristics and their relati...With rapid economic growth and urbanization, the Yangtze River Delta(YRD) region in China has experienced serious air pollution challenges. In this study, we analyzed the air pollution characteristics and their relationship with emissions and meteorology in the YRD region during 2014–2016. In recent years, the concentrations of all air pollutants, except O3,decreased. Spatially, the PM2.5, PM10, SO2, and CO concentrations were higher in the northern YRD region, and NO2 and O3 were higher in the central YRD region. Based on the number of non-attainment days(i.e., days with air quality index greater than 100), PM2.5 was the largest contributor to air pollution in the YRD region, followed by O3, PM10, and NO2.However, particulate matter pollution has declined gradually, while O3 pollution worsened.Meteorological conditions mainly influenced day-to-day variations in pollutant concentrations. PM2.5 concentration was inversely related to wind speed, while O3 concentration was positively correlated with temperature and negatively correlated with relative humidity.The air quality improvement in recent years was mainly attributed to emission reductions.During 2014–2016, PM2.5, PM10, SO2, NOx, CO, NH3, and volatile organic compound(VOC)emissions in the YRD region were reduced by 26.3%, 29.2%, 32.4%, 8.1%, 15.9%, 4.5%, and0.3%, respectively. Regional transport also contributed to the air pollution. During regional haze periods, pollutants from North China and East China aggravated the pollution in the YRD region. Our findings suggest that emission reduction and regional joint prevention and control helped to improve the air quality in the YRD region.展开更多
Photocatalysis—a green and energy-efficient technology for environmental remediation and energy conversion—has recently demonstrated broad application potential in intelligent building materials.This review systemat...Photocatalysis—a green and energy-efficient technology for environmental remediation and energy conversion—has recently demonstrated broad application potential in intelligent building materials.This review systematically summarizes recent advancements in incorporating photocatalytic materials into building applications,focusing on two main scenarios:pavement and wall surfaces.In pavement systems,photocatalytic materials are primarily employed to degrade pollutants such as NO_(x)and volatile organic compounds,thereby actively reducing emissions.In wall applications,the emphasis is on imparting intelligent maintenance functions,including self-cleaning,antibacterial activity,and air purification.We provide a comprehensive analysis of the performance of various photocatalytic materials,their incorporation methods,and their effects on mechanical properties and environmental durability.Building on this analysis,we propose design principles for photocatalytic building materials that balance catalytic efficiency with cost,enhance mechanical stability,and preserve the intrinsic functions of building components.Finally,we outline future research directions,emphasizing the significant potential of photocatalytic building materials in advancing green construction and sustainable development.展开更多
In clinical practice,antibiotics have historically been utilized for the treatment of pathogenic bacteria.However,the gradual emergence of antibiotic resistance among bacterial strains has posed a significant challeng...In clinical practice,antibiotics have historically been utilized for the treatment of pathogenic bacteria.However,the gradual emergence of antibiotic resistance among bacterial strains has posed a significant challenge to this approach.In 2022,Escherichia coli,a Gram-negative bacterium renowned for its widespread pathogenicity and high virulence,emerged as the predominant pathogenic bacterium in China.The rapid emergence of antibiotic-resistant E.coli strains has rendered antibiotics insufficient to fight E.coli infections.Traditional Chinese medicine(TCM)has made remarkable contributions to the health of Chinese people for thousands of years,and its significant therapeutic effects have been proven in clinical practice.In this paper,we provide a comprehensive review of the advances and mechanisms of TCM and its active ingredients against antibiotic-resistant E.coli infections.First of all,this review introduces the classification,antibiotic resistance characteristics and mechanisms of E.coli.Then,the TCM formulas and extracts are listed along with their active ingredients against E.coli,including extraction solution,minimum inhibitory concentration(MIC),and the antibacterial mechanisms.In addition,there is growing evidence supporting the synergistic therapeutic strategy of combining TCM with antibiotics for the treatment of antibiotic-resistant E.coli infections,and we provide a summary of this evidence and its underlying mechanisms.In conclusion,we present a comprehensive review of TCM and highlight its potential and advantages in the prevention and treatment of E.coli infections.We hold the opinion that TCM will play an important role in global health,pharmaceutical development,and livestock farming in the future.展开更多
The performance of hydrogel radical polymerization under ambient conditions is a major challenge because oxygen is an effective radical quencher and the steps to remove or neutralize it are time consuming and laboriou...The performance of hydrogel radical polymerization under ambient conditions is a major challenge because oxygen is an effective radical quencher and the steps to remove or neutralize it are time consuming and laborious.A self-initiating system consisting of transition metals and acetylacetone has been successfully developed.The system is capable of initiating free radical polymerization of hydrogels at room temperature under aerobic conditions,which is attributed to carbon radicals generated by the oxidation of acetylacetone.Some of these carbon radicals reduce oxygen to generate hydroxyl radicals,which together induce self-coagulation of hydrogels.The polymerization system was effective for a variety of monomer and hydrogel swelling and shrinking schemes,and the reaction remained successful when exposed to saturated oxygen.In conclusion,the results demonstrate that the present strategy is an effective approach to addressing the challenge of deoxygenation in polymer synthesis,and provides a convenient method for synthesizing multifunctional hydrogels under ambient conditions.展开更多
To address the dual challenges of resource utilization of mining solid waste(e.g.,coal gangue)and performance enhancement of cemented rockfill,this study systematically investigates the mechanisms of ultrasonic disper...To address the dual challenges of resource utilization of mining solid waste(e.g.,coal gangue)and performance enhancement of cemented rockfill,this study systematically investigates the mechanisms of ultrasonic dispersion time and polycarboxylate superplasti-cizer(PCE)on the properties of cellulose nanofiber(CNF)-modified cemented rockfill.A series of comparative experiments were de-signed with varying ultrasonic dispersion times(0-60 min)and PCE dosages(0.1wt%-0.4wt%).Through mechanical testing,hydration product analysis,and microstructural characterization,the study revealed the advantages of PCE in promoting CNF dispersion to enhance the engineering applicability of cemented rockfill.The results demonstrate that:(1)Ultrasonic dispersion for 30 min increases the com-pressive strength by 37.7%compared to the untreated group;however,excessive ultrasonication(60 min)induces hydrolysis of CNF,re-leasing reducing sugars that retard hydration.(2)PCE facilitates CNF dispersion,achieving a 29.1%increase in compressive strength at a dosage of 0.4wt%,while simultaneously improving hydration products and microstructural development.(3)While ultrasonic dispersion yields slightly higher strength improvements,PCE demonstrates superior cost-effectiveness and operational convenience,rendering it more viable for industrial adoption.This study provides a theoretical foundation for the nano-enhanced modification of cemented rockfill,offering new insights into the recycling of solid waste and the development of high-performance materials.展开更多
BACKGROUND Cholangiocarcinoma(CCA)is a highly aggressive malignancy with limited therapeutic options.Dysregulation of the Hippo-yes-associated protein(YAP)signaling pathway plays a key role in tumor progression,but th...BACKGROUND Cholangiocarcinoma(CCA)is a highly aggressive malignancy with limited therapeutic options.Dysregulation of the Hippo-yes-associated protein(YAP)signaling pathway plays a key role in tumor progression,but the effects of distinct bile acids on this pathway remain unclear.AIM To investigate the roles of glycochenodeoxycholic acid(GDCA)and deoxycholic acid(DCA)in CCA progression through Hippo-YAP signaling and to evaluate the effects of YAP-targeted interventions.METHODS The in vitro experiments were performed using HuCCT1 CCA cells treated with GDCA,DCA,and combinations with a YAP inhibitor(verteporfin)or agonist(GA-017).Key molecular changes in the Hippo-YAP pathway were assessed by western blot,immunofluorescence,and reverse transcription quantitative realtime polymerase chain reaction.Functional assays,including Cell Counting Kit-8,5-ethynyl-2’-deoxyuridine,Transwell,and terminal deoxynucleotidyl transferasemediated deoxyuridine triphosphate-nick end labelling,were conducted to evaluate cell proliferation,migration,invasion,and apoptosis.In vivo,nude mice bearing subcutaneous HuCCT1 tumors were treated with GDCA,DCA,or combined YAP modulators.Tumor growth was monitored,and molecular analyses of tumor tissues were performed using western blot.RESULTS The GDCA significantly activated YAP by reducing mammalian STE20-like protein kinase 1 and large tumor suppressor 1 phosphorylation,promoting YAP nuclear translocation,and enhancing tumor cell proliferation,migration,and invasion.In contrast,DCA inhibited YAP activation,suppressed tumor cell functions,and increased apoptosis.GDCA combined with YAP inhibitors attenuated its tumor-promoting effects,while DCA combined with YAP agonists reversed its inhibitory effects.In vivo,GDCA accelerated tumor growth,while DCA reduced tumor size and weight,with molecular changes consistent with in vitro findings.CONCLUSION The GDCA and DCA exert opposing effects on CCA progression through Hippo-YAP signaling.GDCA promotes tumor growth via YAP activation,while DCA inhibits these processes.YAP-targeted interventions demonstrate therapeutic potential,providing insights into new treatment strategies for CCA.展开更多
Urea-assisted water electrolysis offers a promising route to reduce energy consumption for hydrogen production and meanwhile treat urea-rich wastewater.Herein,we devised a shear force-involved polyoxometalate-organic ...Urea-assisted water electrolysis offers a promising route to reduce energy consumption for hydrogen production and meanwhile treat urea-rich wastewater.Herein,we devised a shear force-involved polyoxometalate-organic supramolecular self-assembly strategy to fabricate 3D hierarchical porous nanoribbon assembly Mn-VN cardoons.A bimetallic polyoxovanadate(POV)with the inherent structural feature of Mn surrounded by[VO_(6)]octahedrons was introduced to trigger precise Mn incorporation in VN lattice,thereby achieving simultaneous morphology engineering and electronic structure modulation.The lattice contraction of VN caused by Mn incorporation drives electron redistribution.The unique hierarchical architecture with modulated electronic structure that provides more exposed active sites,facilitates mass and charge transfer,and optimizes the associated adsorption behavior.Mn-VN exhibits excellent activity with low overpotentials of 86 m V and 1.346 V at 10 m A/cm^(2)for hydrogen evolution reaction(HER)and urea oxidation reaction(UOR),respectively.Accordingly,in the two-electrode urea-assisted water electrolyzer utilizing Mn-VN as a bifunctional catalyst,hydrogen production can occur at low voltage(1.456 V@10 m A/cm^(2)),which has the advantages of energy saving and competitive durability over traditional water electrolysis.This work provides a simple and mild route to construct nanostructures and modulate electronic structure for designing high-efficiency electrocatalysts.展开更多
Artificial Intelligence is profoundly transforming innovation and development in healthcare and education.In this study,we developed an AI-empowered blended learning model for disaster medicine.Leveraging the Rain Cla...Artificial Intelligence is profoundly transforming innovation and development in healthcare and education.In this study,we developed an AI-empowered blended learning model for disaster medicine.Leveraging the Rain Classroom platform,we established a comprehensive intelligent teaching support system covering the entire learning cycle-pre-class,in-class,and post-class.Through AI-driven enhancements,the model enables intelligent resource allocation,personalized learning paths,and high-fidelity simulation of practical training scenarios.Moreover,it addresses key challenges in traditional disaster medicine education,including fragmented knowledge delivery,insufficient practical training environments,and limited evaluation methods.Ultimately,the model enhances both the efficiency and effectiveness of disaster medicine education.展开更多
Nanofiber carbon aerogels with 3D interconnected microfibrillar networks exhibit fascinating physical properties and present great application potential.However,it is still a challenge to fabricate superelastic nanofi...Nanofiber carbon aerogels with 3D interconnected microfibrillar networks exhibit fascinating physical properties and present great application potential.However,it is still a challenge to fabricate superelastic nanofiber carbon aerogels owing to their extremely dilute brittle interconnections and poor fiber toughness after carbonization.Herein,aramid nanofibers(ANF)/nanocellulose(CNF)dual-fibrous carbon aerogels are prepared,which exhibited supercompressibility and superelasticity due to the"skeleton-binder"synergistic effect of ANF and CNF and the design of in-plane micro-wrinkle honeycomb structure.The"skeleton-binder"synergistic effect improves interfacial interactions of nanofibers and optimizes the stress distribution of carbon aerogel.The highly ordered honeycomb structure with in-plane microwrinkles,formed by the bidirectional freezing and the difference in volume shrinkage during the carbonization between CNFs and ANFs,endows the CNF/ANF carbon aerogel with negative Poisson's ratio and high energy absorption capacity.These strategies significantly improve the overall mechanical properties of ANF/CNF carbon aerogel including the elasticity and fatigue resistance.As a result,the ultralight carbon aerogel(3.46 mg/cm^(3))exhibits excellent supercompression(undergoing an extreme strain of 95%)and elasticity(a stress retention up to 81.38% at 90% strain with 500 cycles and 96.15% at 50%strain with 10,000 cycles).The nanofiber carbon aerogel shows excellent multifunctional properties in flexible piezoresistive sensor and anisotropic thermal insulation materials,including a desirable sensitivity(as high as 48.74 kPa^(-1))and an instant response time(~40 ms),an anisotropy factor of 3.69 and an ultralow radial thermal conductivity(0.012 W m^(-1) K^(-1)).These properties make dual-fibrous carbon aerogels highly attractive in pressure sensors and thermal management applications.展开更多
Aqueous zinc-ion batteries(AZIBs)exhibit great potential in grid-scale energy storage fields due to their inherent safety,high theoretical capacity,and low cost.However,the uncontrolled zinc(Zn)dendrites and undesirab...Aqueous zinc-ion batteries(AZIBs)exhibit great potential in grid-scale energy storage fields due to their inherent safety,high theoretical capacity,and low cost.However,the uncontrolled zinc(Zn)dendrites and undesirable side reactions severely impede the stable cycling and lifespan of AZIBs.Herein,a composite separator with hydrophilic-hydrophobic structure is designed to regulate the desolvation of Zn^(2+)and stable Zn plating/stripping.The composite separator features the differences in hydrophilicity/hydrophobicity from the hydrophilic microfibrillated cellulose(MFC)and hydrophobic aramid nanofibers(ANF).By the synergistic effect of the hydroxyl group in MFC with affinity to water and the carbonyl in hydrophobic ANF with zincophilic,the optimized cell showed rapid,low energy barrier desolvation of hydrated Zn^(2+),homogeneous deposition of Zn^(2+)and dendrite-free Zn.Benefited from the hydrophilic-hydrophobic structure,the Zn//Zn symmetric cells with ANF/MFC separator exhibit a stable lifespan of over 3800 h at 1 mA cm^(-2)(1 mAh cm^(-2)),which is nearly 20 times of the symmetric cells with glass fiber(GF)separator.In addition,the unique structure of separator can significantly enhance the stability of the anodes,which contribute to improved cyclability of full cell compared to those using other separators.This work provides new insights into designing advanced structure of separators and promotes the practical application of AZIBs.展开更多
[Objectives]This study was conducted to investigate the physicochemical and functional properties of soluble dietary fiber(SDF)from apple pomace.[Methods]Soluble dietary fiber(SDF)from apple pomace was extracted by di...[Objectives]This study was conducted to investigate the physicochemical and functional properties of soluble dietary fiber(SDF)from apple pomace.[Methods]Soluble dietary fiber(SDF)from apple pomace was extracted by direct water extraction(W),lactic acid bacteria fermentation(F)and steam explosion(SE)respectively,and the extraction methods and physicochemical and functional characteristics were compared and analyzed.[Results]The solubility,water holding capacities,oil holding capacities and swelling capacities of W-SDF,F-SDF and SE-SDF were(2.13,3.95 and 5.13 g/g),(9.02,13.75 and 15.88 g/g),(2.13,4.08 and 5.11 g/g),and(10.82,14.03 and 15.77 ml/g),respectively.Their emulsifying activity,emulsifying stability and least gelation concentration were(30.28,47.95 and 58.72 ml/100 ml),(37.88,45.25 and 57.13 ml/100 ml),and(12.11,11.25 and 9.87%),respectively.The adsorption capacities of W-SDF,F-SDF and SE-SDF for heavy metals(Pb,As and Cu)in the intestinal environment(pH 7)were(162.7,183.5 and 197.3μmol/g),(132.8,156.7 and 168.9μmol/g),and(57.2,63.5 and 89.2μmol/g)respectively.In the gastric environment(pH 2),they were(72.8,110.5,138.9μmol/g),(82.1,112.5,135.7μmol/g),and(38.9,42.7,55.1μmol/g)respectively.[Conclusions]The study can provide a theoretical basis for functional modification and comprehensive utilization of dietary fiber from apple pomace.展开更多
Radiation-induced thrombocytopenia(RIT)faces a perplexing challenge in the clinical treatment of cancer patients,and current therapeutic approaches are inadequate in the clinical settings.In this research,oxymatrine,a...Radiation-induced thrombocytopenia(RIT)faces a perplexing challenge in the clinical treatment of cancer patients,and current therapeutic approaches are inadequate in the clinical settings.In this research,oxymatrine,a new molecule capable of healing RIT was screened out,and the underlying regulatory mechanism associated with magakaryocyte(MK)differentiation and thrombopoiesis was demonstrated.The capacity of oxymatrine to induce MK differentiation was verified in K-562 and Meg-01 cells in vitro.The ability to induce thrombopoiesis was subsequently demonstrated in Tg(cd41:enhanced green fluorescent protein(eGFP))zebrafish and RIT model mice.In addition,we carried out network pharmacological prediction,drug affinity responsive target stability assay(DARTS)and cellular thermal shift assay(CETSA)analyses to explore the potential targets of oxymatrine.Moreover,the pathway underlying the effects of oxymatrine was determined by Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses,Western blot(WB),and immunofluorescence.Oxymatrine markedly promoted MK differentiation and maturation in vitro.Moreover,oxymatrine induced thrombopoiesis in Tg(cd41:eGFP)zebrafish and accelerated thrombopoiesis and platelet function recovery in RIT model mice.Mechanistically,oxymatrine directly binds to toll-like receptor 2(TLR2)and further regulates the downstream pathway stimulator of interferon genes(STING)/nuclear factor-kappaB(NF-kB),which can be blocked by C29 and C-176,which are specific inhibitors of TLR2 and STING,respectively.Taken together,we demonstrated that oxymatrine,a novel TLR2 agonist,plays a critical role in acceleratingMKdifferentiation and thrombopoiesis via the STING/NF-kB axis,suggesting that oxymatrine is a promising candidate for RIT therapy.展开更多
This study addresses the limitations of traditional disaster medicine course assessments,including single evaluation formats,delayed feedback mechanisms,and gaps in competency mapping,by developing a diversified asses...This study addresses the limitations of traditional disaster medicine course assessments,including single evaluation formats,delayed feedback mechanisms,and gaps in competency mapping,by developing a diversified assessment system leveraging the Rain Classroom platform.The system incorporates six interconnected evaluation components across the learning cycle:pre-class preparation,pre-class tests,case discussions,skills assessment,post-class tests,and post-class feedback,collectively forming a three-dimensional“cognitive-skill-attitude”assessment framework.In the assessment design,the weighting of practical skill evaluation is elevated to 40%to prioritize the development of students’disaster response competencies.Additionally,an innovative multi-subject evaluation model(“self-peer-teacher”)is implemented within disaster scenario simulations,utilizing standardized scoring rubrics.This methodology not only enables comprehensive performance evaluation but also fosters critical teamwork and reflective practice.Implementation outcomes demonstrated that the system effectively evaluates learning progress through multi-modal assessments,enhances disaster rescue knowledge and skill proficiency,and successfully achieves predefined pedagogical objectives.展开更多
<strong>Objective: </strong>To explore the clinical effect of and the method and nursing strategy for sellar reconstruction for intraoperative cerebrospinal fluid (CSF) leakage in pituitary adenoma resecti...<strong>Objective: </strong>To explore the clinical effect of and the method and nursing strategy for sellar reconstruction for intraoperative cerebrospinal fluid (CSF) leakage in pituitary adenoma resection under neuroendoscopy. <strong>Methods:</strong> The data from 20 cases of intraoperative CSF leak caused by transsphenoidal pituitary adenoma resection were retrospectively analyzed. Six patients were treated with mucosal flap and artificial dural reconstruction of sellar (simple sellar floor reconstruction). In 45 patients, autologous fat, fascia lata, and artificial dura were used to repair and reconstruct the sellar floor (multilayer sellar floor reconstruction). After the operation, all patients underwent follow-up for 6 - 24 months. <strong>Results:</strong> Fifty patients were followed up without CSF leakage. One patient was cured after leakage of CSF through the lumbar cistern 1 month after discharge. <strong>Conclusion: </strong>For patients with CSF leakage during neuroendoscopic transsphenoidal pituitary adenoma resection, individualized sellar floor reconstruction should be adopted according to the degree of CSF leakage and the size of the sellar floor defect. Strict nursing measures can effectively prevent CSF leakage and reduce postoperative complications.展开更多
<div style="text-align:justify;"> <span style="font-family:Verdana;"><strong>Background:</strong> Neuroendoscopic transsphenoidal approach for resection of pituitary adenoma...<div style="text-align:justify;"> <span style="font-family:Verdana;"><strong>Background:</strong> Neuroendoscopic transsphenoidal approach for resection of pituitary adenomas has the advantages of less damage, fewer complications, and a faster recovery than the traditional approach and has beening favored by neurosurgeons. However, there has no standard method of selecting suitable packing materials after the operation to relieve pain in patients and achieve the ideal hemostatic effect. We compared the postoperative complications and treatment effects of two different packing materials in patients with pituitary adenomas. <strong>Objective: </strong>To investigate the advantages and disadvantages of using a catheter balloon and iodoform gauze for hemostasis in patients undergoing pituitary tumor resection by neuroendoscopic transsphenoidal approach. <strong>Materials and Methods:</strong> We retrospectively analyzed these data of 48 cases treated with pituitary adenoma resection by the single nasal approach from January 2018 to October 2019 in Sun Yat-sen University Cancer Center. According to the type of sphenoid sinus packing material used, these patients were divided into balloon tamponade oppression group (24 cases) and tela iodoformum oppression group (24 cases), respectively. The balloon tamponade oppression group received catheter balloon tamponade oppression hemostasis, and the tela iodoformum oppression group underwent tela iodoformum oppression hemostasis. The outcomes and complications were compared between the two groups in which two kinds of sphenoid sinus packing materials were used for hemostasis after tumor resection by transnasal endoscopic approach. For the catheter balloon compression hemostasis method, on account of the plasticity of the balloon, the volume of water in the balloon can be adjusted according to the size of the patient’s own sphenoid cavity. The amount of bleeding and several complications in terms of discomfort during placement and removal of the packing material, rebleeding after removal of the packing, cerebrospinal fluid rhinorrhea and electrolyte disturbance are compared between the two groups. <strong>Results: </strong>48 patients were enrolled. The two groups’ data of patients were similar in age structure, sex ratio, tumor size at baseline and so on. No complications, such as abscess formation, were found in both groups. The success rate in the compression with catheter balloon group was 100% (24 of 24 patients);and in the iodoform gauze group 83.33% (20 of 24 patients). A catheter balloon was more successful in stopping bleeding at early stage than iodoform gauze. There were no statistically significant differences in the hospitalization stay time, operating day to discharge day and tampon indwelling time (P > 0.05). There were also no significant differences in pairwise comparison between the catheter balloon group and iodoform gauze groups in the incidence of cerebrospinal fluid rhinorrhea or electrolyte disturbance between the two groups (P > 0.05). The incidence of headache in the catheter balloon group was statistically significantly lower than that in the iodoform gauze group (P < 0.05). <strong>Conclusion: </strong>In patients undergoing endoscopic pituitary tumor resection, compression and hemostasis by means of catheterization expansion lead to lower rates of injury and complications and have a good effect, so this method is worthy of being recommended for clinical practice.</span> </div>展开更多
<strong>Objective:</strong><span style="font-family:Verdana;"> To explore the perioperative nursing method of brain abscess</span><span style="font-family:;" "="...<strong>Objective:</strong><span style="font-family:Verdana;"> To explore the perioperative nursing method of brain abscess</span><span style="font-family:;" "=""><span style="font-family:Verdana;"> breaking into the ventricle. </span><b><span style="font-family:Verdana;">Methods: </span></b><span style="font-family:Verdana;">By reviewing the clinical data of 1 case of right temporal lobe brain abscess into the ventricle, the effective nursing me</span><span><span style="font-family:Verdana;">thods were summarized. </span><b><span style="font-family:Verdana;">Results</span></b></span></span><b><span style="font-family:Verdana;">:</span></b><span style="font-family:Verdana;"> The patient’s condition was advanced</span><span style="font-family:;" "=""><span style="font-family:Verdana;"> quickly, and the diagnosis was treated in time to avoid brain hernia, but the treatment was difficult because of the critical condition.</span><b><span style="font-family:Verdana;"> Conclusion:</span></b><span style="font-family:Verdana;"> Brain abscess is a very serious intracranial infectious disease. It is of great significance </span><span style="font-family:Verdana;">to observe the changes in patients’ condition and take effective nursing</span><span style="font-family:Verdana;"> measures.</span></span>展开更多
To investigate the effects of magnetic stimulation at acupoints on brain functional network during mental fatigue, magnetic stimulation was applied to stimulate SHENMEN (HT7), HEGU (LI4) and LAOGONG (PC8) acupoint in ...To investigate the effects of magnetic stimulation at acupoints on brain functional network during mental fatigue, magnetic stimulation was applied to stimulate SHENMEN (HT7), HEGU (LI4) and LAOGONG (PC8) acupoint in this paper. The brain functional networks of normal state, mental fatigue state and stimulated state were constructed and the characteristic parameters were comparatively studied based on the complex network theory. The results showed that the connection of the network was enhanced by stimulating the HT7, LI4 and PC8 acupoint. In conclusion, magnetic stimulation at acupoints can effectively relieve mental fatigue.展开更多
基金supported by the National Science and Technology Program of China(Nos.2017YFC0211601,2016YFC0202700)the National Natural Science Foundation of China(No.81571130090)the National Research Program for Key Issues in Air Pollution Control(No.DQGG0103)
文摘With rapid economic growth and urbanization, the Yangtze River Delta(YRD) region in China has experienced serious air pollution challenges. In this study, we analyzed the air pollution characteristics and their relationship with emissions and meteorology in the YRD region during 2014–2016. In recent years, the concentrations of all air pollutants, except O3,decreased. Spatially, the PM2.5, PM10, SO2, and CO concentrations were higher in the northern YRD region, and NO2 and O3 were higher in the central YRD region. Based on the number of non-attainment days(i.e., days with air quality index greater than 100), PM2.5 was the largest contributor to air pollution in the YRD region, followed by O3, PM10, and NO2.However, particulate matter pollution has declined gradually, while O3 pollution worsened.Meteorological conditions mainly influenced day-to-day variations in pollutant concentrations. PM2.5 concentration was inversely related to wind speed, while O3 concentration was positively correlated with temperature and negatively correlated with relative humidity.The air quality improvement in recent years was mainly attributed to emission reductions.During 2014–2016, PM2.5, PM10, SO2, NOx, CO, NH3, and volatile organic compound(VOC)emissions in the YRD region were reduced by 26.3%, 29.2%, 32.4%, 8.1%, 15.9%, 4.5%, and0.3%, respectively. Regional transport also contributed to the air pollution. During regional haze periods, pollutants from North China and East China aggravated the pollution in the YRD region. Our findings suggest that emission reduction and regional joint prevention and control helped to improve the air quality in the YRD region.
基金supported by National Natural Science Foundation of China(No.22408235)Tianchi Talent Program of Xinjiang.
文摘Photocatalysis—a green and energy-efficient technology for environmental remediation and energy conversion—has recently demonstrated broad application potential in intelligent building materials.This review systematically summarizes recent advancements in incorporating photocatalytic materials into building applications,focusing on two main scenarios:pavement and wall surfaces.In pavement systems,photocatalytic materials are primarily employed to degrade pollutants such as NO_(x)and volatile organic compounds,thereby actively reducing emissions.In wall applications,the emphasis is on imparting intelligent maintenance functions,including self-cleaning,antibacterial activity,and air purification.We provide a comprehensive analysis of the performance of various photocatalytic materials,their incorporation methods,and their effects on mechanical properties and environmental durability.Building on this analysis,we propose design principles for photocatalytic building materials that balance catalytic efficiency with cost,enhance mechanical stability,and preserve the intrinsic functions of building components.Finally,we outline future research directions,emphasizing the significant potential of photocatalytic building materials in advancing green construction and sustainable development.
基金supported by the Fundamental Research Funds for the Central Public Welfare Research Institutes,China(Grant Nos.:ZZ16-YQ-037,JIPY2023003,and JJPY2022022)China Academy of Chinese Medical Sciences(CACMS)Innovation Fund(Grant No.:CI2021A00601).
文摘In clinical practice,antibiotics have historically been utilized for the treatment of pathogenic bacteria.However,the gradual emergence of antibiotic resistance among bacterial strains has posed a significant challenge to this approach.In 2022,Escherichia coli,a Gram-negative bacterium renowned for its widespread pathogenicity and high virulence,emerged as the predominant pathogenic bacterium in China.The rapid emergence of antibiotic-resistant E.coli strains has rendered antibiotics insufficient to fight E.coli infections.Traditional Chinese medicine(TCM)has made remarkable contributions to the health of Chinese people for thousands of years,and its significant therapeutic effects have been proven in clinical practice.In this paper,we provide a comprehensive review of the advances and mechanisms of TCM and its active ingredients against antibiotic-resistant E.coli infections.First of all,this review introduces the classification,antibiotic resistance characteristics and mechanisms of E.coli.Then,the TCM formulas and extracts are listed along with their active ingredients against E.coli,including extraction solution,minimum inhibitory concentration(MIC),and the antibacterial mechanisms.In addition,there is growing evidence supporting the synergistic therapeutic strategy of combining TCM with antibiotics for the treatment of antibiotic-resistant E.coli infections,and we provide a summary of this evidence and its underlying mechanisms.In conclusion,we present a comprehensive review of TCM and highlight its potential and advantages in the prevention and treatment of E.coli infections.We hold the opinion that TCM will play an important role in global health,pharmaceutical development,and livestock farming in the future.
基金funded by the National Key R&D Program of China(No.2022YFF0904000)Cross-disciplinary Innovation Project of Jilin University(No.JLUXKJC2021ZZ01)the financial support from National Natural Science Foundation of China(No.62201497).
文摘The performance of hydrogel radical polymerization under ambient conditions is a major challenge because oxygen is an effective radical quencher and the steps to remove or neutralize it are time consuming and laborious.A self-initiating system consisting of transition metals and acetylacetone has been successfully developed.The system is capable of initiating free radical polymerization of hydrogels at room temperature under aerobic conditions,which is attributed to carbon radicals generated by the oxidation of acetylacetone.Some of these carbon radicals reduce oxygen to generate hydroxyl radicals,which together induce self-coagulation of hydrogels.The polymerization system was effective for a variety of monomer and hydrogel swelling and shrinking schemes,and the reaction remained successful when exposed to saturated oxygen.In conclusion,the results demonstrate that the present strategy is an effective approach to addressing the challenge of deoxygenation in polymer synthesis,and provides a convenient method for synthesizing multifunctional hydrogels under ambient conditions.
基金support from the National Natural Science Foundation of China(Nos.42372328,U23B2091,52478253,and 52374147)Natural Science Foundation of Jiangsu Province,China(No.BK20240209).
文摘To address the dual challenges of resource utilization of mining solid waste(e.g.,coal gangue)and performance enhancement of cemented rockfill,this study systematically investigates the mechanisms of ultrasonic dispersion time and polycarboxylate superplasti-cizer(PCE)on the properties of cellulose nanofiber(CNF)-modified cemented rockfill.A series of comparative experiments were de-signed with varying ultrasonic dispersion times(0-60 min)and PCE dosages(0.1wt%-0.4wt%).Through mechanical testing,hydration product analysis,and microstructural characterization,the study revealed the advantages of PCE in promoting CNF dispersion to enhance the engineering applicability of cemented rockfill.The results demonstrate that:(1)Ultrasonic dispersion for 30 min increases the com-pressive strength by 37.7%compared to the untreated group;however,excessive ultrasonication(60 min)induces hydrolysis of CNF,re-leasing reducing sugars that retard hydration.(2)PCE facilitates CNF dispersion,achieving a 29.1%increase in compressive strength at a dosage of 0.4wt%,while simultaneously improving hydration products and microstructural development.(3)While ultrasonic dispersion yields slightly higher strength improvements,PCE demonstrates superior cost-effectiveness and operational convenience,rendering it more viable for industrial adoption.This study provides a theoretical foundation for the nano-enhanced modification of cemented rockfill,offering new insights into the recycling of solid waste and the development of high-performance materials.
文摘BACKGROUND Cholangiocarcinoma(CCA)is a highly aggressive malignancy with limited therapeutic options.Dysregulation of the Hippo-yes-associated protein(YAP)signaling pathway plays a key role in tumor progression,but the effects of distinct bile acids on this pathway remain unclear.AIM To investigate the roles of glycochenodeoxycholic acid(GDCA)and deoxycholic acid(DCA)in CCA progression through Hippo-YAP signaling and to evaluate the effects of YAP-targeted interventions.METHODS The in vitro experiments were performed using HuCCT1 CCA cells treated with GDCA,DCA,and combinations with a YAP inhibitor(verteporfin)or agonist(GA-017).Key molecular changes in the Hippo-YAP pathway were assessed by western blot,immunofluorescence,and reverse transcription quantitative realtime polymerase chain reaction.Functional assays,including Cell Counting Kit-8,5-ethynyl-2’-deoxyuridine,Transwell,and terminal deoxynucleotidyl transferasemediated deoxyuridine triphosphate-nick end labelling,were conducted to evaluate cell proliferation,migration,invasion,and apoptosis.In vivo,nude mice bearing subcutaneous HuCCT1 tumors were treated with GDCA,DCA,or combined YAP modulators.Tumor growth was monitored,and molecular analyses of tumor tissues were performed using western blot.RESULTS The GDCA significantly activated YAP by reducing mammalian STE20-like protein kinase 1 and large tumor suppressor 1 phosphorylation,promoting YAP nuclear translocation,and enhancing tumor cell proliferation,migration,and invasion.In contrast,DCA inhibited YAP activation,suppressed tumor cell functions,and increased apoptosis.GDCA combined with YAP inhibitors attenuated its tumor-promoting effects,while DCA combined with YAP agonists reversed its inhibitory effects.In vivo,GDCA accelerated tumor growth,while DCA reduced tumor size and weight,with molecular changes consistent with in vitro findings.CONCLUSION The GDCA and DCA exert opposing effects on CCA progression through Hippo-YAP signaling.GDCA promotes tumor growth via YAP activation,while DCA inhibits these processes.YAP-targeted interventions demonstrate therapeutic potential,providing insights into new treatment strategies for CCA.
基金supported by the National Natural Science Foundation of China(Nos.22322104,22171074)the Natural Science Foundation of Heilongjiang Province(No.YQ2021B009)+3 种基金the Reform and Development Fund Project of Local University supported by the Central Government(Outstanding Youth Program)Heilongjiang Province Young Scientific and Technological Talent Lifting Project(No.2023QNTJ019)the Basic Research Support Project for Outstanding Young Teachers in Heilongjiang Provincial University(No.YQJH2023129)the Outstanding Youth Science Foundation of Heilongjiang University(No.JCL202301)。
文摘Urea-assisted water electrolysis offers a promising route to reduce energy consumption for hydrogen production and meanwhile treat urea-rich wastewater.Herein,we devised a shear force-involved polyoxometalate-organic supramolecular self-assembly strategy to fabricate 3D hierarchical porous nanoribbon assembly Mn-VN cardoons.A bimetallic polyoxovanadate(POV)with the inherent structural feature of Mn surrounded by[VO_(6)]octahedrons was introduced to trigger precise Mn incorporation in VN lattice,thereby achieving simultaneous morphology engineering and electronic structure modulation.The lattice contraction of VN caused by Mn incorporation drives electron redistribution.The unique hierarchical architecture with modulated electronic structure that provides more exposed active sites,facilitates mass and charge transfer,and optimizes the associated adsorption behavior.Mn-VN exhibits excellent activity with low overpotentials of 86 m V and 1.346 V at 10 m A/cm^(2)for hydrogen evolution reaction(HER)and urea oxidation reaction(UOR),respectively.Accordingly,in the two-electrode urea-assisted water electrolyzer utilizing Mn-VN as a bifunctional catalyst,hydrogen production can occur at low voltage(1.456 V@10 m A/cm^(2)),which has the advantages of energy saving and competitive durability over traditional water electrolysis.This work provides a simple and mild route to construct nanostructures and modulate electronic structure for designing high-efficiency electrocatalysts.
基金supported by the Anesthesiology Department Teaching Development Foundation of Naval Medical University(2024MZQN03)the Teaching Research and Reform Project of Naval Medical University(JYG2024B24).
文摘Artificial Intelligence is profoundly transforming innovation and development in healthcare and education.In this study,we developed an AI-empowered blended learning model for disaster medicine.Leveraging the Rain Classroom platform,we established a comprehensive intelligent teaching support system covering the entire learning cycle-pre-class,in-class,and post-class.Through AI-driven enhancements,the model enables intelligent resource allocation,personalized learning paths,and high-fidelity simulation of practical training scenarios.Moreover,it addresses key challenges in traditional disaster medicine education,including fragmented knowledge delivery,insufficient practical training environments,and limited evaluation methods.Ultimately,the model enhances both the efficiency and effectiveness of disaster medicine education.
文摘Nanofiber carbon aerogels with 3D interconnected microfibrillar networks exhibit fascinating physical properties and present great application potential.However,it is still a challenge to fabricate superelastic nanofiber carbon aerogels owing to their extremely dilute brittle interconnections and poor fiber toughness after carbonization.Herein,aramid nanofibers(ANF)/nanocellulose(CNF)dual-fibrous carbon aerogels are prepared,which exhibited supercompressibility and superelasticity due to the"skeleton-binder"synergistic effect of ANF and CNF and the design of in-plane micro-wrinkle honeycomb structure.The"skeleton-binder"synergistic effect improves interfacial interactions of nanofibers and optimizes the stress distribution of carbon aerogel.The highly ordered honeycomb structure with in-plane microwrinkles,formed by the bidirectional freezing and the difference in volume shrinkage during the carbonization between CNFs and ANFs,endows the CNF/ANF carbon aerogel with negative Poisson's ratio and high energy absorption capacity.These strategies significantly improve the overall mechanical properties of ANF/CNF carbon aerogel including the elasticity and fatigue resistance.As a result,the ultralight carbon aerogel(3.46 mg/cm^(3))exhibits excellent supercompression(undergoing an extreme strain of 95%)and elasticity(a stress retention up to 81.38% at 90% strain with 500 cycles and 96.15% at 50%strain with 10,000 cycles).The nanofiber carbon aerogel shows excellent multifunctional properties in flexible piezoresistive sensor and anisotropic thermal insulation materials,including a desirable sensitivity(as high as 48.74 kPa^(-1))and an instant response time(~40 ms),an anisotropy factor of 3.69 and an ultralow radial thermal conductivity(0.012 W m^(-1) K^(-1)).These properties make dual-fibrous carbon aerogels highly attractive in pressure sensors and thermal management applications.
基金financially supported by the National Natural Science Foundation of China(No.22208117)the fellowship of China Postdoctoral Science Foundation(No.2023M741818).
文摘Aqueous zinc-ion batteries(AZIBs)exhibit great potential in grid-scale energy storage fields due to their inherent safety,high theoretical capacity,and low cost.However,the uncontrolled zinc(Zn)dendrites and undesirable side reactions severely impede the stable cycling and lifespan of AZIBs.Herein,a composite separator with hydrophilic-hydrophobic structure is designed to regulate the desolvation of Zn^(2+)and stable Zn plating/stripping.The composite separator features the differences in hydrophilicity/hydrophobicity from the hydrophilic microfibrillated cellulose(MFC)and hydrophobic aramid nanofibers(ANF).By the synergistic effect of the hydroxyl group in MFC with affinity to water and the carbonyl in hydrophobic ANF with zincophilic,the optimized cell showed rapid,low energy barrier desolvation of hydrated Zn^(2+),homogeneous deposition of Zn^(2+)and dendrite-free Zn.Benefited from the hydrophilic-hydrophobic structure,the Zn//Zn symmetric cells with ANF/MFC separator exhibit a stable lifespan of over 3800 h at 1 mA cm^(-2)(1 mAh cm^(-2)),which is nearly 20 times of the symmetric cells with glass fiber(GF)separator.In addition,the unique structure of separator can significantly enhance the stability of the anodes,which contribute to improved cyclability of full cell compared to those using other separators.This work provides new insights into designing advanced structure of separators and promotes the practical application of AZIBs.
基金Supported by High-end Talent Project of Hebei ProvinceTangshan Talent Funding Project(B202302006).
文摘[Objectives]This study was conducted to investigate the physicochemical and functional properties of soluble dietary fiber(SDF)from apple pomace.[Methods]Soluble dietary fiber(SDF)from apple pomace was extracted by direct water extraction(W),lactic acid bacteria fermentation(F)and steam explosion(SE)respectively,and the extraction methods and physicochemical and functional characteristics were compared and analyzed.[Results]The solubility,water holding capacities,oil holding capacities and swelling capacities of W-SDF,F-SDF and SE-SDF were(2.13,3.95 and 5.13 g/g),(9.02,13.75 and 15.88 g/g),(2.13,4.08 and 5.11 g/g),and(10.82,14.03 and 15.77 ml/g),respectively.Their emulsifying activity,emulsifying stability and least gelation concentration were(30.28,47.95 and 58.72 ml/100 ml),(37.88,45.25 and 57.13 ml/100 ml),and(12.11,11.25 and 9.87%),respectively.The adsorption capacities of W-SDF,F-SDF and SE-SDF for heavy metals(Pb,As and Cu)in the intestinal environment(pH 7)were(162.7,183.5 and 197.3μmol/g),(132.8,156.7 and 168.9μmol/g),and(57.2,63.5 and 89.2μmol/g)respectively.In the gastric environment(pH 2),they were(72.8,110.5,138.9μmol/g),(82.1,112.5,135.7μmol/g),and(38.9,42.7,55.1μmol/g)respectively.[Conclusions]The study can provide a theoretical basis for functional modification and comprehensive utilization of dietary fiber from apple pomace.
基金supported by grants from the National Natural Science Foundation of China(Grant Nos.:82074129,82004073,82204666,and 82374073)the Science and Technology Planning Project of Sichuan Province,China(Grant Nos.:2022JDJQ0061,2022ZYD0087,2022YFS0607,2022YFS0635,and 2022YFS0635-B1)+1 种基金the Joint Project of Xuzhou District People's Government and Southwest Medical University,China(Grant No.:2021XZXNYD01)Science and Technology Planning Project of Yibin City,China(Grant Nos.:2022NY020,2021ZYY009,and 2021ZYY005).
文摘Radiation-induced thrombocytopenia(RIT)faces a perplexing challenge in the clinical treatment of cancer patients,and current therapeutic approaches are inadequate in the clinical settings.In this research,oxymatrine,a new molecule capable of healing RIT was screened out,and the underlying regulatory mechanism associated with magakaryocyte(MK)differentiation and thrombopoiesis was demonstrated.The capacity of oxymatrine to induce MK differentiation was verified in K-562 and Meg-01 cells in vitro.The ability to induce thrombopoiesis was subsequently demonstrated in Tg(cd41:enhanced green fluorescent protein(eGFP))zebrafish and RIT model mice.In addition,we carried out network pharmacological prediction,drug affinity responsive target stability assay(DARTS)and cellular thermal shift assay(CETSA)analyses to explore the potential targets of oxymatrine.Moreover,the pathway underlying the effects of oxymatrine was determined by Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses,Western blot(WB),and immunofluorescence.Oxymatrine markedly promoted MK differentiation and maturation in vitro.Moreover,oxymatrine induced thrombopoiesis in Tg(cd41:eGFP)zebrafish and accelerated thrombopoiesis and platelet function recovery in RIT model mice.Mechanistically,oxymatrine directly binds to toll-like receptor 2(TLR2)and further regulates the downstream pathway stimulator of interferon genes(STING)/nuclear factor-kappaB(NF-kB),which can be blocked by C29 and C-176,which are specific inhibitors of TLR2 and STING,respectively.Taken together,we demonstrated that oxymatrine,a novel TLR2 agonist,plays a critical role in acceleratingMKdifferentiation and thrombopoiesis via the STING/NF-kB axis,suggesting that oxymatrine is a promising candidate for RIT therapy.
基金supported by the Anesthesiology Department Teaching Development Foundation of Naval Medical University under grant(2024MZQN02 and 2024MZQN03).
文摘This study addresses the limitations of traditional disaster medicine course assessments,including single evaluation formats,delayed feedback mechanisms,and gaps in competency mapping,by developing a diversified assessment system leveraging the Rain Classroom platform.The system incorporates six interconnected evaluation components across the learning cycle:pre-class preparation,pre-class tests,case discussions,skills assessment,post-class tests,and post-class feedback,collectively forming a three-dimensional“cognitive-skill-attitude”assessment framework.In the assessment design,the weighting of practical skill evaluation is elevated to 40%to prioritize the development of students’disaster response competencies.Additionally,an innovative multi-subject evaluation model(“self-peer-teacher”)is implemented within disaster scenario simulations,utilizing standardized scoring rubrics.This methodology not only enables comprehensive performance evaluation but also fosters critical teamwork and reflective practice.Implementation outcomes demonstrated that the system effectively evaluates learning progress through multi-modal assessments,enhances disaster rescue knowledge and skill proficiency,and successfully achieves predefined pedagogical objectives.
文摘<strong>Objective: </strong>To explore the clinical effect of and the method and nursing strategy for sellar reconstruction for intraoperative cerebrospinal fluid (CSF) leakage in pituitary adenoma resection under neuroendoscopy. <strong>Methods:</strong> The data from 20 cases of intraoperative CSF leak caused by transsphenoidal pituitary adenoma resection were retrospectively analyzed. Six patients were treated with mucosal flap and artificial dural reconstruction of sellar (simple sellar floor reconstruction). In 45 patients, autologous fat, fascia lata, and artificial dura were used to repair and reconstruct the sellar floor (multilayer sellar floor reconstruction). After the operation, all patients underwent follow-up for 6 - 24 months. <strong>Results:</strong> Fifty patients were followed up without CSF leakage. One patient was cured after leakage of CSF through the lumbar cistern 1 month after discharge. <strong>Conclusion: </strong>For patients with CSF leakage during neuroendoscopic transsphenoidal pituitary adenoma resection, individualized sellar floor reconstruction should be adopted according to the degree of CSF leakage and the size of the sellar floor defect. Strict nursing measures can effectively prevent CSF leakage and reduce postoperative complications.
文摘<div style="text-align:justify;"> <span style="font-family:Verdana;"><strong>Background:</strong> Neuroendoscopic transsphenoidal approach for resection of pituitary adenomas has the advantages of less damage, fewer complications, and a faster recovery than the traditional approach and has beening favored by neurosurgeons. However, there has no standard method of selecting suitable packing materials after the operation to relieve pain in patients and achieve the ideal hemostatic effect. We compared the postoperative complications and treatment effects of two different packing materials in patients with pituitary adenomas. <strong>Objective: </strong>To investigate the advantages and disadvantages of using a catheter balloon and iodoform gauze for hemostasis in patients undergoing pituitary tumor resection by neuroendoscopic transsphenoidal approach. <strong>Materials and Methods:</strong> We retrospectively analyzed these data of 48 cases treated with pituitary adenoma resection by the single nasal approach from January 2018 to October 2019 in Sun Yat-sen University Cancer Center. According to the type of sphenoid sinus packing material used, these patients were divided into balloon tamponade oppression group (24 cases) and tela iodoformum oppression group (24 cases), respectively. The balloon tamponade oppression group received catheter balloon tamponade oppression hemostasis, and the tela iodoformum oppression group underwent tela iodoformum oppression hemostasis. The outcomes and complications were compared between the two groups in which two kinds of sphenoid sinus packing materials were used for hemostasis after tumor resection by transnasal endoscopic approach. For the catheter balloon compression hemostasis method, on account of the plasticity of the balloon, the volume of water in the balloon can be adjusted according to the size of the patient’s own sphenoid cavity. The amount of bleeding and several complications in terms of discomfort during placement and removal of the packing material, rebleeding after removal of the packing, cerebrospinal fluid rhinorrhea and electrolyte disturbance are compared between the two groups. <strong>Results: </strong>48 patients were enrolled. The two groups’ data of patients were similar in age structure, sex ratio, tumor size at baseline and so on. No complications, such as abscess formation, were found in both groups. The success rate in the compression with catheter balloon group was 100% (24 of 24 patients);and in the iodoform gauze group 83.33% (20 of 24 patients). A catheter balloon was more successful in stopping bleeding at early stage than iodoform gauze. There were no statistically significant differences in the hospitalization stay time, operating day to discharge day and tampon indwelling time (P > 0.05). There were also no significant differences in pairwise comparison between the catheter balloon group and iodoform gauze groups in the incidence of cerebrospinal fluid rhinorrhea or electrolyte disturbance between the two groups (P > 0.05). The incidence of headache in the catheter balloon group was statistically significantly lower than that in the iodoform gauze group (P < 0.05). <strong>Conclusion: </strong>In patients undergoing endoscopic pituitary tumor resection, compression and hemostasis by means of catheterization expansion lead to lower rates of injury and complications and have a good effect, so this method is worthy of being recommended for clinical practice.</span> </div>
文摘<strong>Objective:</strong><span style="font-family:Verdana;"> To explore the perioperative nursing method of brain abscess</span><span style="font-family:;" "=""><span style="font-family:Verdana;"> breaking into the ventricle. </span><b><span style="font-family:Verdana;">Methods: </span></b><span style="font-family:Verdana;">By reviewing the clinical data of 1 case of right temporal lobe brain abscess into the ventricle, the effective nursing me</span><span><span style="font-family:Verdana;">thods were summarized. </span><b><span style="font-family:Verdana;">Results</span></b></span></span><b><span style="font-family:Verdana;">:</span></b><span style="font-family:Verdana;"> The patient’s condition was advanced</span><span style="font-family:;" "=""><span style="font-family:Verdana;"> quickly, and the diagnosis was treated in time to avoid brain hernia, but the treatment was difficult because of the critical condition.</span><b><span style="font-family:Verdana;"> Conclusion:</span></b><span style="font-family:Verdana;"> Brain abscess is a very serious intracranial infectious disease. It is of great significance </span><span style="font-family:Verdana;">to observe the changes in patients’ condition and take effective nursing</span><span style="font-family:Verdana;"> measures.</span></span>
文摘To investigate the effects of magnetic stimulation at acupoints on brain functional network during mental fatigue, magnetic stimulation was applied to stimulate SHENMEN (HT7), HEGU (LI4) and LAOGONG (PC8) acupoint in this paper. The brain functional networks of normal state, mental fatigue state and stimulated state were constructed and the characteristic parameters were comparatively studied based on the complex network theory. The results showed that the connection of the network was enhanced by stimulating the HT7, LI4 and PC8 acupoint. In conclusion, magnetic stimulation at acupoints can effectively relieve mental fatigue.
