BACKGROUND The development of slow transit constipation(STC)is associated with intestinal barrier damage.Huangqi decoction(HQD)is effective in treating STC,but me-chanisms are unclear.AIM To investigate whether HQD al...BACKGROUND The development of slow transit constipation(STC)is associated with intestinal barrier damage.Huangqi decoction(HQD)is effective in treating STC,but me-chanisms are unclear.AIM To investigate whether HQD alleviates STC by downregulating the nuclear factorκB(NF-κB)signaling pathway and restoring intestinal barrier function.METHODS KM mice were divided into control,model,and HQD treatment groups.Fresh colonic tissues were collected for single-cell RNA sequencing and spatial tra-nscriptome sequencing.The expressions of claudin-1,mucin 2,and NF-κB P65 proteins were detected by immunohistochemistry.In vitro experiments evaluated the effects of HQD on the LS174T cell line.RESULTS HQD improved intestinal motility,restored mucosal epithelium function and morphology.Single-cell RNA sequencing and spatial transcriptome sequencing data showed a reduction in goblet cells,decreased mucin 2 secretion,and activated apoptotic pathways in STC mice.The population of intestinal stem cells was reduced,and proliferation along with Wnt/β-catenin pathways were inhibited.STC also altered the distribution of intestinal cell states,increasing immune-associated Enterocyte_C3.Aberrant NF-κB pathway activation was noted across various cell types.After HQD treatment,NF-κB pathway activity was down-regulated,while cell proliferation pathways were up-regulated,alongside an increase in Enterocyte_C1 related to material transport.Immunocytochemical,Western blot,and immunohistochemistry analyses confirmed NF-κB pathway activation in goblet cells of STC mice,with HQD inhibiting this aberrant activation.CONCLUSION STC involves intestinal mucosal barrier damage.HQD may treat STC by suppressing NF-κB signaling in epithelial cells,restoring intestinal epithelial cell function,and promoting mucosal barrier repair.展开更多
The global energy demand is increasing rapidly,and it is imperative to develop shale hydrocarbon re-sources vigorously.The prerequisite for enhancing the exploitation efficiency of shale reservoirs is the systematic e...The global energy demand is increasing rapidly,and it is imperative to develop shale hydrocarbon re-sources vigorously.The prerequisite for enhancing the exploitation efficiency of shale reservoirs is the systematic elucidation of the occurrence characteristics,flow behavior,and enhanced oil recovery(EOR)mechanisms of shale oil within commonly developed nanopores.Molecular dynamics(MD)technique can simulate the occurrence,flow,and extraction processes of shale oil at the nanoscale,and then quantitatively characterize various fluid properties,flow characteristics,and action mechanisms under different reservoir conditions by calculating and analyzing a series of MD parameters.However,the existing review on the application of MD simulation in shale oil reservoirs is not systematic enough and lacks a summary of technical challenges and solutions.Therefore,recent MD studies on shale oil res-ervoirs were summarized and analyzed.Firstly,the applicability of force fields and ensembles of MD in shale reservoirs with different reservoir conditions and fluid properties was discussed.Subsequently,the calculation methods and application examples of MD parameters characterizing various properties of fluids at the microscale were summarized.Then,the application of MD simulation in the study of shale oil occurrence characteristics,flow behavior,and EOR mechanisms was reviewed,along with the elucidation of corresponding micro-mechanisms.Moreover,influencing factors of pore structure,wall properties,reservoir conditions,fluid components,injection/production parameters,formation water,and inorganic salt ions were analyzed,and some new conclusions were obtained.Finally,the main challenges associated with the application of MD simulations to shale oil reservoirs were discussed,and reasonable prospects for future MD research directions were proposed.The purpose of this review is to provide theoretical basis and methodological support for applying MD simulation to study shale oil reservoirs.展开更多
Temporal interference(TI)is a form of stimulation that epitomizes an innovative and non-invasive approach for profound neuromodulation of the brain,a technique that has been validated in mice.Yet,the thin cranial bone...Temporal interference(TI)is a form of stimulation that epitomizes an innovative and non-invasive approach for profound neuromodulation of the brain,a technique that has been validated in mice.Yet,the thin cranial bone structure of mice has a marginal influence on the effect of the TI technique and may not effectively showcase its effectiveness in larger animals.Based on this,we carried out TI stimulation experiments on rats.Following the TI intervention,analysis of electrophysiological data and immunofluorescence staining indicated the generation of a stimulation focus within the nucleus accumbens(depth,8.5 mm)in rats.Our findings affirm the viability of the TI methodology in the presence of thick cranial bones,furnishing efficacious parameters for profound stimulation with TI administered under such conditions.This experiment not only sheds light on the intervention effects of TI deep in the brain but also furnishes robust evidence in support of its prospective clinical utility.展开更多
CD5-positive(CD5+)diffuse large B-cell lymphoma(DLBCL)represents a special subgroup of DLBCL with a more aggressive disease course and is more likely to develop into relapsed/refractory(r/r)DLBCL in response to immuno...CD5-positive(CD5+)diffuse large B-cell lymphoma(DLBCL)represents a special subgroup of DLBCL with a more aggressive disease course and is more likely to develop into relapsed/refractory(r/r)DLBCL in response to immunochemotherapy.The incidence of CD5+DLBCL is 5%–10%among DLBCL patients1.展开更多
Light alloys have irreplaceable advantages such as high specific strength and low density.They are indispensable structural materials in aerospace,military,and marine engineering.It is an enduring research hotspot to ...Light alloys have irreplaceable advantages such as high specific strength and low density.They are indispensable structural materials in aerospace,military,and marine engineering.It is an enduring research hotspot to prepare high-strength and high-toughness light alloys to play a more significant role in advanced engineering applications.As a new method to improve the mechanical properties of light alloys,the magnetic field-assisted process can produce magnetoplastic effects.Therefore,in this paper,research progress on the magnetoplastic effects of light alloys assisted by magnetic fields was reviewed,and the effects of magnetic fields on dislocations,grain refinement,precipitation kinetics,phase transformation,and mechanical properties of light alloys were elucidated.Magnetic field treatment transforms radical pairs from the ground state to the excited state,which reduces the resistance between dislocations and obstacles,facilitating dislocation depinning.Moreover,magnetic field can promote grain refinement and phase transformation,increase precipitation kinetics,and synergistically improve strength and elongation.Finally,the prospects of magnetic field-assisted processes of light alloys were discussed.展开更多
The Mussau Trench between the Caroline Plate and Pacific Plate offers an important geological window into the initial subduction process.This study presents a detailed characterization of local-scale tectonic deformat...The Mussau Trench between the Caroline Plate and Pacific Plate offers an important geological window into the initial subduction process.This study presents a detailed characterization of local-scale tectonic deformation along the Mussau Trench using high-resolution multibeam bathymetry and 2D multi-channel seismic reflection profiles.The bathymetric data processed with illumination gradient analysis and low-pass filtering reveal more structural details,including distinct linear deformation features,variations in accretionary wedge morphology,and notable indentation structures within the overriding Mussau Ridge to the east of the Mussau Trench.These features are related to transform faults,stress localization and subduction termination dynamics.Furthermore,our analysis demonstrates pronounced longitudinal segmentation in tectonic deformation along the Mussau Trench,divided by the newly identified indentation features.Additionally,the local deformation patterns supports the interpretation that the intra-ridge valley within the Mussau Ridge represents the boundary between the Caroline Plate and Pacific Plate.The convergent deformation between the two plates uplifted the plate boundaries in conjunction and created an intra-ridge valley,in which a set of subparallel linear troughs developed.Based on these observations,we further propose future deep-sea drilling targets at key deformation locations,which can help constrain the tectonic evolution model of subduction initiation and termination.展开更多
Autologous stem cell transplantation(ASCT)and chimeric antigen receptor T-cell(CAR-T)therapy represent pivotal treatments for hematologic malignancies,each with distinct strengths and limitations.ASCT reduces tumor bu...Autologous stem cell transplantation(ASCT)and chimeric antigen receptor T-cell(CAR-T)therapy represent pivotal treatments for hematologic malignancies,each with distinct strengths and limitations.ASCT reduces tumor burden through myeloablative conditioning but remains susceptible to relapse,while CAR-T therapy precisely targets malignant cells but encounters challenges,including cytokine release syndrome(CRS),immune effector cell-associated neurotoxicity syndrome(ICANS),and limited persistence.Emerging evidence suggests that combining ASCT with CAR-T therapy yields synergistic effects.ASCT reshapes the immune microenvironment,lowers immunosuppressive cells and CRS risk,while CAR-T eliminates residual disease and promotes immune recovery.Clinical trials in relapsed/refractory B-cell lymphomas and multiple myeloma demonstrate complete remission rates(CRR)of 72%-100%and two-year progression-free survival(PFS)rates of 59%-83%,with severe CRS/ICANS incidences below 10%.However,the precise mechanisms underlying this synergy,optimal timing of CAR-T infusion after ASCT,and ideal dosing regimens require further definition.Future research should prioritize large-scale,randomized controlled trials and establish standardized protocols for toxicity management to maximize therapeutic benefits.By integrating the complementary strengths of ASCT and CAR-T,this combination strategy represents a promising approach for improving outcomes in high-risk hematologic malignancies;however,additional studies are necessary to validate its efficacy and expand its clinical applicability.展开更多
PbS quantum dot(QD)image sensors have emerged as promising chips for a wide range of infrared(IR)imaging applications due to their monolithic integration with silicon-based readout integrated circuits.However,avoiding...PbS quantum dot(QD)image sensors have emerged as promising chips for a wide range of infrared(IR)imaging applications due to their monolithic integration with silicon-based readout integrated circuits.However,avoiding primary toxic Pb usage and reducing the cost of PbS QDs remains crucial for widespread application.We present a novel cost-effective and environmentally friendly hydrometallurgical process for recovering PbCl_(2)from spent lead-acid battery paste to synthesize high-quality PbS QDs.The method recovers PbCl_(2)with a production ratio of 97%and a purity of 99.99%.PbS QDs and photodetectors synthesized from recycled PbCl_(2)(R-PbCl_(2))have comparable performance and quality to those made using commercial PbCl_(2).R-PbCl_(2)-derived photodetectors exhibit a high external quantum efficiency of 49.6%and a high specific detectivity of 6.95×10^(12)Jones compared to published studies.Additionally,based on R-PbCl_(2),a PbS QD image sensor with 640×512 resolution successfully discriminated common solvents.Moreover,through life-cycle assessment and economic cost analysis,this novel synthesis route offers great advantages in the environmentally friendly use of chemical reagents and reduces the production cost of PbS QDs by 23.2%compared to commercial PbCl_(2).Thus,this work not only contributes to the green recycling of spent lead paste but also provides a low-cost strategy for synthesizing PbS QDs and their optoelectronic application.展开更多
The complex grain fragmentation mechanisms of coarse grains in titanium alloys under multi-directional forging(MDF)directly influence the optimization and control of primary hot working processes.This study conducted ...The complex grain fragmentation mechanisms of coarse grains in titanium alloys under multi-directional forging(MDF)directly influence the optimization and control of primary hot working processes.This study conducted MDF experiments onβ-phase as-cast Ti-6554 alloy and simulated non-uniform deformation during cyclic multi-directional compression through macro-and micro-deformation modeling.The results revealed that friction and surface cooling caused low strain and tensile stress concentration at billet edges,leading to mixed grain structures.In contrast,high strain and triaxial compressive stress at billet centers facilitated uniform grain refinement.After 14 compressions and 4 intermediate reheating processes,coarse grains of the billet were refined from 2-5 mm to 0.25-0.50 mm,achieving uniform grain sizes across different regions.For the first time,the orientation evolution of grains with different morphologies during multi-directional compressions was visualized microscopically.Columnar grains were found to be more easily subdivided than equiaxed grains due to local strain accumulation.Under cumulative compressions,grain orientations gradually rotated from uniform to random,driving continuous dynamic recrystallization(CDRX).Slip system interactions and concentrated misorientation led to the formation and extension of transition and shear bands,inducing grain fragmentation dominated by transgranular subdivided CDRX.Smooth grain boundaries transformed into serrated ones after multiple passes,providing additional nucleation sites for discontinuous dynamic recrystallization(DDRX)and facilitating boundary expand CDRX.The interaction of diverse DRX mechanisms was the fundamental cause of grain refinement.This study clarified the principles of refining and homogenizing millimeter-grade coarse grains under increasing forging strain,offering valuable insights for the development of primary hot processing techniques for as-castβtitanium alloys.展开更多
Thick and highly conductive poly(3,4-ethylenedioxythiophene)-polystyrene sulfonate films with ideal porous structure are fulfilling as electrodes for supercapacitors.However,the homogeneous micro-structure without the...Thick and highly conductive poly(3,4-ethylenedioxythiophene)-polystyrene sulfonate films with ideal porous structure are fulfilling as electrodes for supercapacitors.However,the homogeneous micro-structure without the aid of templates or composite presents a significant obstacle,due to the intrinsic softness of the dominant PSS component.In this study,we have successfully developed a porous configuration by employing a solvothermal approach with ethylene glycol(EG)as the solvent.The synergistic action of elevated pressure and temperature was crucial in prompting EG to tailor the microstructure of the PEDOT:PSS films by removing non-conductive PSS chains and improving PEDOT crystallinity,and the formation of a porous network.The resulting porous PEDOT:PSS films exhibited a high conductivity of 1644 S cm^(-1)and achieved a volumetric capacitance record of 270 F cm^(-3),markedly exceeding previous records.The flexible all-solid-state supercapacitor assembled by the films had an outstanding volumetric capacitance of 97.8 F cm^(-3)and an energy density of 8.7 mWh cm^(-3),which is best one for pure PEDOT:PSS-based supercapacitors.Grazing-incidence wide-angle X-ray scattering,X-ray photoelectron spectroscopy,and other characterizations were carried out to characterize the structure evolution.This work offers an effective novel method for conducting polymer morphology control and promotes PEDOT:PSS applications in energy storage field.展开更多
Triclocarban(TCC)is a broad-spectrum antimicrobial widely used in various personal care products,textiles,and children’s toys.TCC has potential reproductive and developmental toxicity in animals.However,little is kno...Triclocarban(TCC)is a broad-spectrum antimicrobial widely used in various personal care products,textiles,and children’s toys.TCC has potential reproductive and developmental toxicity in animals.However,little is known regarding the effect of TCC on human sperm function.In this study,an in vitro assay was used to investigate the effects of TCC on normal human spermatozoa and the possible underlying mechanisms involved.Semen from healthy male donors was collected and cultured in complete Biggers,Whitten and Whittingham(BWW)and low-sugar BWW media,followed by treatment with TCC at concentrations of 0,0.1μmol l^(−1),1μmol l^(−1),10μmol l^(−1),and 100μmol l^(−1) for 4 h.TCC was found to reduce the sperm total motility and progressive motility.Moreover,the sperm kinematic parameters,straight-line velocity(VSL),average path velocity(VAP),and curvilinear velocity(VCL)were affected in a dose-dependent manner.After treatment with TCC at the lowest effective concentration of 10μmol l^(−1),TCC caused a significant decrease in mitochondrial adenosine triphosphate(ATP)production and mitochondrial membrane potential(MMP)and a significant increase in reactive oxygen species(ROS),similar to the observations with the positive control carbonyl cyanide 4-(trifluoromethoxy)phenylhydrazone(FCCP),suggesting that TCC may decrease sperm motility by affecting the oxidative phosphorylation(OXPHOS)pathway.In a sugar-free and low-sugar BWW culture environment,TCC enhanced the damaging effect on sperm motility and ATP,MMP,and lactate decreased significantly,suggesting that TCC may also affect the glycolytic pathway that supplies energy to spermatozoa.This study demonstrates a possible mechanism of TCC toxicity in spermatozoa involving both the OXPHOS and glycolysis pathways.展开更多
Although supported solid amine adsorbents have attracted great attention for CO_(2) capture,critical chemical deactivation problems including oxidative degradation and urea formation have severely restricted their pra...Although supported solid amine adsorbents have attracted great attention for CO_(2) capture,critical chemical deactivation problems including oxidative degradation and urea formation have severely restricted their practical applications for flue gas CO_(2) capture.In this work,we reveal that the nature of surface hydroxyl groups(metal hydroxyl Al–OH and nonmetal hydroxyl Si–OH)plays a key role in the deactivation mechanisms.The polyethyleneimine(PEI)supported on Al–OH-containing substrates suffers from severe oxidative degradation during the CO_(2) capture step due to the breakage of amine-support hydrogen bonding networks,but exhibits an excellent anti-urea formation feature by preventing dehydration of carbamate products under a pure CO_(2) regeneration atmosphere.In contrast,PEI supported on Si–OHcontaining substrates exhibits excellent anti-oxidative stability under simulated flue gas conditions by forming a robust hydrogen bonding protective network with Si–OH,but suffers from obvious urea formation during the pure CO_(2) regeneration step.We also reveal that the urea formation problem for PEI-SBA-15 can be avoided by the incorporation of an OH-containing PEG additive.Based on the intrinsic understanding of degradation mechanisms,we successfully synthesized an adsorbent 40PEI-20PEG-SBA-15 that demonstrates outstanding stability and retention of a high CO_(2) capacity of 2.45 mmol g^(−1) over 1000 adsorption–desorption cycles,together with negligible capacity loss during aging in simulated flue gas(10%CO_(2)+5%O_(2)+3%H_(2)O)for one month at 60–70℃.We believe this work makes great contribution to the advancement in the field of ultra-stable solid amine-based CO_(2) capture materials.展开更多
The high-temperature deformation and dynamic recrystallization(DRX)behaviors of GH4698 superalloy were investigated via hot compression tests,and an improved unified dislocation density-based constitutive model was es...The high-temperature deformation and dynamic recrystallization(DRX)behaviors of GH4698 superalloy were investigated via hot compression tests,and an improved unified dislocation density-based constitutive model was established.The results indicate that with the temperature decreasing or the strain rate increasing,the flow stress increases and the DRX fraction decreases.However,as the strain rate increases from 1 to 10 s^(-1),rapid dislocation multiplication and deformation heat accelerate the DRX nucleation,which further increases the DRX fraction.Discontinuous DRX nucleation is the dominant DRX nucleation mechanism,and continuous DRX nucleation mainly occurs under low strain rates.For the developed improved unified dislocation density-based constitutive model,the correlation coefficient,average absolute relative error,and root mean square error between the measured and predicted stresses are 0.994,7.32%and 10.8 MPa,respectively.Meanwhile,the correlation coefficient between the measured and predicted DRX fractions is 0.976.These indicate that the developed model exhibits high accuracy in predicting the high-temperature deformation and DRX behaviors of GH4698 superalloy.展开更多
Hot compression experiments were conducted under conditions of deformation temperatures ranging from 950 to 1150℃,strain rates of 0.001-10 s^(-1),and deformation degrees ranging from 20%to 80%.The hot deformation beh...Hot compression experiments were conducted under conditions of deformation temperatures ranging from 950 to 1150℃,strain rates of 0.001-10 s^(-1),and deformation degrees ranging from 20%to 80%.The hot deformation behavior and microstructure evolution of millimeter-grade coarse grains(MCGs)in the as-cast Ti-6Cr-5Mo-5V-4Al(Ti-6554)alloy were studied,and a hot processing map was established.Under compression along the rolling direction(RD),continuous dynamic recrystallization(CDRX)ensues due to the progressive rotation of subgrains within the MCGs.Along the transverse direction(TD),discontinuous dynamic recrystallization(DDRX)resulting from grain boundary bulging or bridging,occurs on the boundaries of the MCGs.With decreasing strain rate,increasing temperature,and higher deformation degree,dynamic recrystallization becomes more pronounced,resulting in a reduction in the original average grain size.The optimal processing parameters fall within a temperature range of 1050-1150℃,a strain rate of 0.01 s^(-1),and a deformation degree between 40%and 60%.展开更多
With the continuous expansion and increasing complexity of power system scales,the binary classifica-tion for transient stability assessment in power systems can no longer meet the safety requirements of power system ...With the continuous expansion and increasing complexity of power system scales,the binary classifica-tion for transient stability assessment in power systems can no longer meet the safety requirements of power system control and regulation.Therefore,this paper proposes a multi-class transient stability assessment model based on an improved Transformer.The model is designed with a dual-tower encoder structure:one encoder focuses on the time dependency of data,while the other focuses on the dynamic correlations between variables.Feature extraction is conducted from both time and variable perspectives to ensure the completeness of the feature extraction process,thereby enhancing the accuracy of multi-class evaluation in power systems.Additionally,this paper introduces a hybrid sampling strategy based on sample boundaries,which addresses the issue of sample imbalance by increasing the number of boundary samples in the minority class and reducing the number of non-boundary samples in the majority class.Considering the frequent changes in power grid topology or operation modes,this paper proposes a two-stage updating scheme based on self-supervised learning:In the first stage,self-supervised learning is employed to mine the structural information from unlabeled data in the target domain,enhancing the model’s generalization capability in new scenarios.In the second stage,a sample screening mechanism is used to select key samples,which are labeled through long-term simulation techniques for fine-tuning the model parameters.This allows for rapid model updates without relying on many labeled samples.This paper’s proposed model and update scheme have been simulated and verified on two node systems,the IEEE New England 10-machine 39-bus system and the IEEE 47-machine 140-bus system,demonstrating their effectiveness and reliability.展开更多
Designing catalysts with high reaction efficiency is essential for reducing heavy metal Cr(VI)ions in wastewater via microwave induction.In this paper,a unique microwave-responsive lychee-like Ni/C/ZnFe_(2)O_(4) compo...Designing catalysts with high reaction efficiency is essential for reducing heavy metal Cr(VI)ions in wastewater via microwave induction.In this paper,a unique microwave-responsive lychee-like Ni/C/ZnFe_(2)O_(4) composite catalyst with a double-shell hollow porous heterojunction structure was constructed for the efficient reduction of Cr(VI).Benefiting from the novel hollow porous structure and“carbon nanocage”structure of the Ni/C/ZnFe_(2)O_(4),coupled with excellent electromagnetic wave absorption ability,the prepared lychee-like Ni/C/ZnFe_(2)O_(4) com-posite catalyst could remove up to 98%of Cr(VI)(50 mg L 1,50 mL)after 40 min of microwave irradiation,even in nearly neutral water conditions.Additionally,density functional theory calculations indicated that the heterojunction interface between Ni/C and ZnFe_(2)O_(4) enhances electron transfer from ZnFe_(2)O_(4) to Ni/C,ultimately facilitating the removal of Cr(VI).Furthermore,the incorporation of Ni/C facilitated the 2 acceleration of H ion transfer to*Cr_(2)O_(7),thereby expediting the conversion kinetics of the latter.This research aims to establish a theoretical and experimental foundation for the effective and stable microwave-assisted catalytic reduction of heavy metal Cr(VI)ions,presenting new insights and methods to combat heavy metal contamination.展开更多
AIM:To assess the alterations in the resting-state function connections between the two cerebral hemispheres in patients with optic neuritis(ON)and healthy controls(HCs).METHODS:A total of 12 ON patients(six males and...AIM:To assess the alterations in the resting-state function connections between the two cerebral hemispheres in patients with optic neuritis(ON)and healthy controls(HCs).METHODS:A total of 12 ON patients(six males and six females)and 12 HCs(six males and six females)who were highly matched for sex,age,and educational level were recruited.They underwent functional magnetic resonance imaging(fMRI),testing and brain activities were assessed using the degree centrality(DC)method.Correlation analysis between the mean DC values in specific brain areas and behavior performances was analyzed as well.Linear correlations between A anxiety scale(AS)and depression scale(DS)values and DC values in brain regions of patients with ON were also analyzed.RESULTS:The areas that showed a higher DC value in ON patients were the right angular gyrus and bilateral precuneus,while the left insula and left superior temporal gyrus(LSTG)were regions that presented a lower DC value in ON patients.A receiver operating characteristic(ROC)curve analysis confirmed the accuracy of the area under the curve(AUC)assessment.Linear analysis showed anxiety scale(AS)and depression scale(DS)values in the left insula were both negatively correlated with DC values,while best corrected visual acuity logMAR-R(BCVA logMAR-R)showed a negative correlation with DC in the LSTG.CONCLUSION:The study explores altered brain activities of specific regions in patients with ON.The results provide clues for revealing the underlying mechanism of ON development.展开更多
<strong>Objective:</strong> The aim of this study was to observe and investigate the location of mental foramen, providing scientific and reasonable anatomic basic for clinical mental nerve block. <stro...<strong>Objective:</strong> The aim of this study was to observe and investigate the location of mental foramen, providing scientific and reasonable anatomic basic for clinical mental nerve block. <strong>Methods:</strong> The shape, orientations, relationship with teeth and number of accessory mental foramina in 50 (100 side) adult mental foramina were observed. The long and short diameters of the mental foramen and the distance between the mental foramen and the peripheral anatomical markers were measured by a vernier caliper, and statistical analysis of the data was performed to obtain the final results. <strong>Results:</strong> The probability of mental foramen being elliptical in shape accounted for 27%, circular for 73%;10% of the mental foramen openings are outward and 90% are outward and upward;The mental foramina were located under the first premolars in 20%, under the second premolars in 75%, and 5% situated in the bottom of the first molars. The incidence of accessory mental foramina was 1%;the long diameter of the mental foramen was (2.42 ± 0.71) mm, and the short diameter of the mental foramen was (2.15 ± 0.14) mm;the vertical distance from the mental foramen center to the alveolar crest and the lower margin of the mandible were (14.09 ± 3.23) mm and (14.56 ± 1.74) mm;the distance between the midpoints of the vertical line to the center of the mental foramen was (1.26 ± 0.97) mm;the horizontal distance from the center of the mental foramen to the anterior median line was (23.57 ± 1.82) mm. <strong>Conclusion:</strong> The point of mental nerve block was selected below and behind the second premolars, above the midline of the mandible. The distance from the anterior median line was 2.5 cm, and the mental foramen was explored forward and downward after the insertion.展开更多
<strong>Background:</strong><span><span><span style="font-family:""><span style="font-family:Verdana;"> Treatment strategy for recurrent hepatocellular carc...<strong>Background:</strong><span><span><span style="font-family:""><span style="font-family:Verdana;"> Treatment strategy for recurrent hepatocellular carcinoma (HCC) remains scantily defined. This study was aimed to establish a treatment strategy to manage post-hepatectomy recurrent HCC and report the clinical outcomes. </span><b><span style="font-family:Verdana;">Methods: </span></b><span style="font-family:Verdana;">From January 2006 to December 2016, 556 consecutive patients who developed post-hepatectomy HCC recurrence were enrolled in the study. The patients were clinically stratified and treated according to a strategy established by a multi-disciplinary team. Clinical data and survival times were collected prospectively and analyzed retrospectively. </span><b><span style="font-family:Verdana;">Results: </span></b><span style="font-family:Verdana;">According to the strategy, there were 298 (53.6%), 214 (38.5%), 32 (5.7%) and 12 (2.2%) patients stratified into Early, Intermediate, Advanced and Terminal stages, respectively. In Early stage patients, 164 (55.0%) received curative treatment in the form of repeat resection or local ablation, 134 (45.0%) received transarterial chemoe</span><span style="font-family:Verdana;">mbolization (TACE), and the 1-, 3-, and 5-year overall survival (OS) rates were 82.0%, 46.8% and 37.3%, respectively. In Intermediate stage patients, 207 (96.7%) received TACE, 7 (3.3%) radiotherapy, and the 1-, 3-, and 5-year OS rates were 73.2%, 31.8% and 15.9%, respectively. In Advanced stage patients, 22 patients received sorafenib, 10 radiotherapy, and the mean survival time (MST) was 25.1 ± 3.1 months. All the 12 patients in Terminal stage rece</span><span style="font-family:Verdana;">ived the best supportive treatment, and the MST was 6.5 ± 3.4 months. Clinical stages and duration of disease-free interval were independent factors relating to overall survival. </span><b><span style="font-family:Verdana;">Conclusions: </span></b><span style="font-family:Verdana;">A treatment strategy derived from the Barcelona Clinic Liver Cancer staging system, with some modifications, has been successfully established to manage post-hepatectomy recurrent HCC, and the clinical outcomes were commendable.</span></span></span></span>展开更多
基金Supported by the Natural Science Foundation of Guangdong Province for Distinguished Young Scholars,No.2022B1515020003the National Natural Science Foundation of China,No.82174369,No.82405397,No.82374442,and No.81973847+2 种基金Postdoctoral Fellowship Program of CPSF No.GZC20233247National Key Clinical Disciplineand the Program of Guangdong Provincial Clinical Research Center for Digestive Diseases,No.2020B1111170004.
文摘BACKGROUND The development of slow transit constipation(STC)is associated with intestinal barrier damage.Huangqi decoction(HQD)is effective in treating STC,but me-chanisms are unclear.AIM To investigate whether HQD alleviates STC by downregulating the nuclear factorκB(NF-κB)signaling pathway and restoring intestinal barrier function.METHODS KM mice were divided into control,model,and HQD treatment groups.Fresh colonic tissues were collected for single-cell RNA sequencing and spatial tra-nscriptome sequencing.The expressions of claudin-1,mucin 2,and NF-κB P65 proteins were detected by immunohistochemistry.In vitro experiments evaluated the effects of HQD on the LS174T cell line.RESULTS HQD improved intestinal motility,restored mucosal epithelium function and morphology.Single-cell RNA sequencing and spatial transcriptome sequencing data showed a reduction in goblet cells,decreased mucin 2 secretion,and activated apoptotic pathways in STC mice.The population of intestinal stem cells was reduced,and proliferation along with Wnt/β-catenin pathways were inhibited.STC also altered the distribution of intestinal cell states,increasing immune-associated Enterocyte_C3.Aberrant NF-κB pathway activation was noted across various cell types.After HQD treatment,NF-κB pathway activity was down-regulated,while cell proliferation pathways were up-regulated,alongside an increase in Enterocyte_C1 related to material transport.Immunocytochemical,Western blot,and immunohistochemistry analyses confirmed NF-κB pathway activation in goblet cells of STC mice,with HQD inhibiting this aberrant activation.CONCLUSION STC involves intestinal mucosal barrier damage.HQD may treat STC by suppressing NF-κB signaling in epithelial cells,restoring intestinal epithelial cell function,and promoting mucosal barrier repair.
基金supported by the National Natural Science Foundation of China(52304021,52104022,52204031)the Natural Science Foundation of Sichuan Province(2022NSFSC0205,2024NSFSC0201,2023NSFSC0947)the National Science and Technology Major Projects of China(2017ZX05049006-010).
文摘The global energy demand is increasing rapidly,and it is imperative to develop shale hydrocarbon re-sources vigorously.The prerequisite for enhancing the exploitation efficiency of shale reservoirs is the systematic elucidation of the occurrence characteristics,flow behavior,and enhanced oil recovery(EOR)mechanisms of shale oil within commonly developed nanopores.Molecular dynamics(MD)technique can simulate the occurrence,flow,and extraction processes of shale oil at the nanoscale,and then quantitatively characterize various fluid properties,flow characteristics,and action mechanisms under different reservoir conditions by calculating and analyzing a series of MD parameters.However,the existing review on the application of MD simulation in shale oil reservoirs is not systematic enough and lacks a summary of technical challenges and solutions.Therefore,recent MD studies on shale oil res-ervoirs were summarized and analyzed.Firstly,the applicability of force fields and ensembles of MD in shale reservoirs with different reservoir conditions and fluid properties was discussed.Subsequently,the calculation methods and application examples of MD parameters characterizing various properties of fluids at the microscale were summarized.Then,the application of MD simulation in the study of shale oil occurrence characteristics,flow behavior,and EOR mechanisms was reviewed,along with the elucidation of corresponding micro-mechanisms.Moreover,influencing factors of pore structure,wall properties,reservoir conditions,fluid components,injection/production parameters,formation water,and inorganic salt ions were analyzed,and some new conclusions were obtained.Finally,the main challenges associated with the application of MD simulations to shale oil reservoirs were discussed,and reasonable prospects for future MD research directions were proposed.The purpose of this review is to provide theoretical basis and methodological support for applying MD simulation to study shale oil reservoirs.
基金supported by the National Key Research and Development Program Project(2021YFC2400203)the Shaanxi Province Key Research and Development Program Project(2023-YBSF-120)+1 种基金the Shandong Provincial Natural Science Foundation(ZR2024QF287)the National Natural Science Foundation of China(31972907).
文摘Temporal interference(TI)is a form of stimulation that epitomizes an innovative and non-invasive approach for profound neuromodulation of the brain,a technique that has been validated in mice.Yet,the thin cranial bone structure of mice has a marginal influence on the effect of the TI technique and may not effectively showcase its effectiveness in larger animals.Based on this,we carried out TI stimulation experiments on rats.Following the TI intervention,analysis of electrophysiological data and immunofluorescence staining indicated the generation of a stimulation focus within the nucleus accumbens(depth,8.5 mm)in rats.Our findings affirm the viability of the TI methodology in the presence of thick cranial bones,furnishing efficacious parameters for profound stimulation with TI administered under such conditions.This experiment not only sheds light on the intervention effects of TI deep in the brain but also furnishes robust evidence in support of its prospective clinical utility.
基金supported by funding from the National Natural Science Foundation of China(Grant No.82170167 to Xiaoxi Zhou and Grant No.82300226 to Hui Luo)。
文摘CD5-positive(CD5+)diffuse large B-cell lymphoma(DLBCL)represents a special subgroup of DLBCL with a more aggressive disease course and is more likely to develop into relapsed/refractory(r/r)DLBCL in response to immunochemotherapy.The incidence of CD5+DLBCL is 5%–10%among DLBCL patients1.
基金supported by the National Natural Science Foundation of China(No.52274382)the National Key Research and Development Program of China(No.2023YFB3407000).
文摘Light alloys have irreplaceable advantages such as high specific strength and low density.They are indispensable structural materials in aerospace,military,and marine engineering.It is an enduring research hotspot to prepare high-strength and high-toughness light alloys to play a more significant role in advanced engineering applications.As a new method to improve the mechanical properties of light alloys,the magnetic field-assisted process can produce magnetoplastic effects.Therefore,in this paper,research progress on the magnetoplastic effects of light alloys assisted by magnetic fields was reviewed,and the effects of magnetic fields on dislocations,grain refinement,precipitation kinetics,phase transformation,and mechanical properties of light alloys were elucidated.Magnetic field treatment transforms radical pairs from the ground state to the excited state,which reduces the resistance between dislocations and obstacles,facilitating dislocation depinning.Moreover,magnetic field can promote grain refinement and phase transformation,increase precipitation kinetics,and synergistically improve strength and elongation.Finally,the prospects of magnetic field-assisted processes of light alloys were discussed.
基金The National Key Research and Development Program of China under contract No.2023YFF0803404the National Natural Science Foundation of China under contract Nos 91858213 and 4257060245+1 种基金the Hainan Provincial Natural Science Foundation under contract No.421CXTD441the Zhoushan Science and Technology Bureau Project under contract No.2020C81058.
文摘The Mussau Trench between the Caroline Plate and Pacific Plate offers an important geological window into the initial subduction process.This study presents a detailed characterization of local-scale tectonic deformation along the Mussau Trench using high-resolution multibeam bathymetry and 2D multi-channel seismic reflection profiles.The bathymetric data processed with illumination gradient analysis and low-pass filtering reveal more structural details,including distinct linear deformation features,variations in accretionary wedge morphology,and notable indentation structures within the overriding Mussau Ridge to the east of the Mussau Trench.These features are related to transform faults,stress localization and subduction termination dynamics.Furthermore,our analysis demonstrates pronounced longitudinal segmentation in tectonic deformation along the Mussau Trench,divided by the newly identified indentation features.Additionally,the local deformation patterns supports the interpretation that the intra-ridge valley within the Mussau Ridge represents the boundary between the Caroline Plate and Pacific Plate.The convergent deformation between the two plates uplifted the plate boundaries in conjunction and created an intra-ridge valley,in which a set of subparallel linear troughs developed.Based on these observations,we further propose future deep-sea drilling targets at key deformation locations,which can help constrain the tectonic evolution model of subduction initiation and termination.
基金supported by funding from the National KeyR&D Program of China(No.2022YFC2502604)the National Natural Science Foundation of China(No.82470194)+1 种基金the CAMS Innovation Fund for Medical Sciences(CIFMS)(No.2024-I2M-3-021)the ChenXiaoping Foundation for the development of Science and Technology of Hubei Province(No.CXPJJH122001-2221)。
文摘Autologous stem cell transplantation(ASCT)and chimeric antigen receptor T-cell(CAR-T)therapy represent pivotal treatments for hematologic malignancies,each with distinct strengths and limitations.ASCT reduces tumor burden through myeloablative conditioning but remains susceptible to relapse,while CAR-T therapy precisely targets malignant cells but encounters challenges,including cytokine release syndrome(CRS),immune effector cell-associated neurotoxicity syndrome(ICANS),and limited persistence.Emerging evidence suggests that combining ASCT with CAR-T therapy yields synergistic effects.ASCT reshapes the immune microenvironment,lowers immunosuppressive cells and CRS risk,while CAR-T eliminates residual disease and promotes immune recovery.Clinical trials in relapsed/refractory B-cell lymphomas and multiple myeloma demonstrate complete remission rates(CRR)of 72%-100%and two-year progression-free survival(PFS)rates of 59%-83%,with severe CRS/ICANS incidences below 10%.However,the precise mechanisms underlying this synergy,optimal timing of CAR-T infusion after ASCT,and ideal dosing regimens require further definition.Future research should prioritize large-scale,randomized controlled trials and establish standardized protocols for toxicity management to maximize therapeutic benefits.By integrating the complementary strengths of ASCT and CAR-T,this combination strategy represents a promising approach for improving outcomes in high-risk hematologic malignancies;however,additional studies are necessary to validate its efficacy and expand its clinical applicability.
基金supported by Key program of National Natural Science Foundation of China(52330004)National Natural Science Foundation of China General Project(51978301)National Key Research and Development Program of China(2023YFC3902802)。
文摘PbS quantum dot(QD)image sensors have emerged as promising chips for a wide range of infrared(IR)imaging applications due to their monolithic integration with silicon-based readout integrated circuits.However,avoiding primary toxic Pb usage and reducing the cost of PbS QDs remains crucial for widespread application.We present a novel cost-effective and environmentally friendly hydrometallurgical process for recovering PbCl_(2)from spent lead-acid battery paste to synthesize high-quality PbS QDs.The method recovers PbCl_(2)with a production ratio of 97%and a purity of 99.99%.PbS QDs and photodetectors synthesized from recycled PbCl_(2)(R-PbCl_(2))have comparable performance and quality to those made using commercial PbCl_(2).R-PbCl_(2)-derived photodetectors exhibit a high external quantum efficiency of 49.6%and a high specific detectivity of 6.95×10^(12)Jones compared to published studies.Additionally,based on R-PbCl_(2),a PbS QD image sensor with 640×512 resolution successfully discriminated common solvents.Moreover,through life-cycle assessment and economic cost analysis,this novel synthesis route offers great advantages in the environmentally friendly use of chemical reagents and reduces the production cost of PbS QDs by 23.2%compared to commercial PbCl_(2).Thus,this work not only contributes to the green recycling of spent lead paste but also provides a low-cost strategy for synthesizing PbS QDs and their optoelectronic application.
基金supported by the National Key Research and Development Program of China(No.2022YFB3706901)the National Natural Science Foundation of China(No.52274382)。
文摘The complex grain fragmentation mechanisms of coarse grains in titanium alloys under multi-directional forging(MDF)directly influence the optimization and control of primary hot working processes.This study conducted MDF experiments onβ-phase as-cast Ti-6554 alloy and simulated non-uniform deformation during cyclic multi-directional compression through macro-and micro-deformation modeling.The results revealed that friction and surface cooling caused low strain and tensile stress concentration at billet edges,leading to mixed grain structures.In contrast,high strain and triaxial compressive stress at billet centers facilitated uniform grain refinement.After 14 compressions and 4 intermediate reheating processes,coarse grains of the billet were refined from 2-5 mm to 0.25-0.50 mm,achieving uniform grain sizes across different regions.For the first time,the orientation evolution of grains with different morphologies during multi-directional compressions was visualized microscopically.Columnar grains were found to be more easily subdivided than equiaxed grains due to local strain accumulation.Under cumulative compressions,grain orientations gradually rotated from uniform to random,driving continuous dynamic recrystallization(CDRX).Slip system interactions and concentrated misorientation led to the formation and extension of transition and shear bands,inducing grain fragmentation dominated by transgranular subdivided CDRX.Smooth grain boundaries transformed into serrated ones after multiple passes,providing additional nucleation sites for discontinuous dynamic recrystallization(DDRX)and facilitating boundary expand CDRX.The interaction of diverse DRX mechanisms was the fundamental cause of grain refinement.This study clarified the principles of refining and homogenizing millimeter-grade coarse grains under increasing forging strain,offering valuable insights for the development of primary hot processing techniques for as-castβtitanium alloys.
基金supported by the National Natural Science Foundation of China(No.51902134)Zhejiang Public Welfare Technology Application Research Program(No.LGJ22B040001)+1 种基金the Innovation Jiaxing Elite Leading Plan 2020,Jiaxing Public Welfare Technology Application Research Program(No.2023AY11051)the Fundamental Research Funds for the Jiaxing University(No.CD70519019,No.CDN70518005,No.CD70623018).
文摘Thick and highly conductive poly(3,4-ethylenedioxythiophene)-polystyrene sulfonate films with ideal porous structure are fulfilling as electrodes for supercapacitors.However,the homogeneous micro-structure without the aid of templates or composite presents a significant obstacle,due to the intrinsic softness of the dominant PSS component.In this study,we have successfully developed a porous configuration by employing a solvothermal approach with ethylene glycol(EG)as the solvent.The synergistic action of elevated pressure and temperature was crucial in prompting EG to tailor the microstructure of the PEDOT:PSS films by removing non-conductive PSS chains and improving PEDOT crystallinity,and the formation of a porous network.The resulting porous PEDOT:PSS films exhibited a high conductivity of 1644 S cm^(-1)and achieved a volumetric capacitance record of 270 F cm^(-3),markedly exceeding previous records.The flexible all-solid-state supercapacitor assembled by the films had an outstanding volumetric capacitance of 97.8 F cm^(-3)and an energy density of 8.7 mWh cm^(-3),which is best one for pure PEDOT:PSS-based supercapacitors.Grazing-incidence wide-angle X-ray scattering,X-ray photoelectron spectroscopy,and other characterizations were carried out to characterize the structure evolution.This work offers an effective novel method for conducting polymer morphology control and promotes PEDOT:PSS applications in energy storage field.
基金supported by Non-Profit Central Research Institute Fund of National Research Institute for Family Planning(No.2022GJZD01 and No.2022GJZD0101)Jiangxi Provincial Health Commission Science and Technology Program(No.202410288).
文摘Triclocarban(TCC)is a broad-spectrum antimicrobial widely used in various personal care products,textiles,and children’s toys.TCC has potential reproductive and developmental toxicity in animals.However,little is known regarding the effect of TCC on human sperm function.In this study,an in vitro assay was used to investigate the effects of TCC on normal human spermatozoa and the possible underlying mechanisms involved.Semen from healthy male donors was collected and cultured in complete Biggers,Whitten and Whittingham(BWW)and low-sugar BWW media,followed by treatment with TCC at concentrations of 0,0.1μmol l^(−1),1μmol l^(−1),10μmol l^(−1),and 100μmol l^(−1) for 4 h.TCC was found to reduce the sperm total motility and progressive motility.Moreover,the sperm kinematic parameters,straight-line velocity(VSL),average path velocity(VAP),and curvilinear velocity(VCL)were affected in a dose-dependent manner.After treatment with TCC at the lowest effective concentration of 10μmol l^(−1),TCC caused a significant decrease in mitochondrial adenosine triphosphate(ATP)production and mitochondrial membrane potential(MMP)and a significant increase in reactive oxygen species(ROS),similar to the observations with the positive control carbonyl cyanide 4-(trifluoromethoxy)phenylhydrazone(FCCP),suggesting that TCC may decrease sperm motility by affecting the oxidative phosphorylation(OXPHOS)pathway.In a sugar-free and low-sugar BWW culture environment,TCC enhanced the damaging effect on sperm motility and ATP,MMP,and lactate decreased significantly,suggesting that TCC may also affect the glycolytic pathway that supplies energy to spermatozoa.This study demonstrates a possible mechanism of TCC toxicity in spermatozoa involving both the OXPHOS and glycolysis pathways.
基金supported by the Fundamental Research Funds for the National Natural Science Foundation of China 52225003,22208021,22109004the National Key R&D Program of China 2022YFB4101702.
文摘Although supported solid amine adsorbents have attracted great attention for CO_(2) capture,critical chemical deactivation problems including oxidative degradation and urea formation have severely restricted their practical applications for flue gas CO_(2) capture.In this work,we reveal that the nature of surface hydroxyl groups(metal hydroxyl Al–OH and nonmetal hydroxyl Si–OH)plays a key role in the deactivation mechanisms.The polyethyleneimine(PEI)supported on Al–OH-containing substrates suffers from severe oxidative degradation during the CO_(2) capture step due to the breakage of amine-support hydrogen bonding networks,but exhibits an excellent anti-urea formation feature by preventing dehydration of carbamate products under a pure CO_(2) regeneration atmosphere.In contrast,PEI supported on Si–OHcontaining substrates exhibits excellent anti-oxidative stability under simulated flue gas conditions by forming a robust hydrogen bonding protective network with Si–OH,but suffers from obvious urea formation during the pure CO_(2) regeneration step.We also reveal that the urea formation problem for PEI-SBA-15 can be avoided by the incorporation of an OH-containing PEG additive.Based on the intrinsic understanding of degradation mechanisms,we successfully synthesized an adsorbent 40PEI-20PEG-SBA-15 that demonstrates outstanding stability and retention of a high CO_(2) capacity of 2.45 mmol g^(−1) over 1000 adsorption–desorption cycles,together with negligible capacity loss during aging in simulated flue gas(10%CO_(2)+5%O_(2)+3%H_(2)O)for one month at 60–70℃.We believe this work makes great contribution to the advancement in the field of ultra-stable solid amine-based CO_(2) capture materials.
基金supported by the National Natural Science Foundation of China(No.52375337)the Key Research and Development Program of Hubei Province,China(No.2022BAA024)the Fundamental Research Funds for the Central Universities,China(No.2019kfyXJJS001).
文摘The high-temperature deformation and dynamic recrystallization(DRX)behaviors of GH4698 superalloy were investigated via hot compression tests,and an improved unified dislocation density-based constitutive model was established.The results indicate that with the temperature decreasing or the strain rate increasing,the flow stress increases and the DRX fraction decreases.However,as the strain rate increases from 1 to 10 s^(-1),rapid dislocation multiplication and deformation heat accelerate the DRX nucleation,which further increases the DRX fraction.Discontinuous DRX nucleation is the dominant DRX nucleation mechanism,and continuous DRX nucleation mainly occurs under low strain rates.For the developed improved unified dislocation density-based constitutive model,the correlation coefficient,average absolute relative error,and root mean square error between the measured and predicted stresses are 0.994,7.32%and 10.8 MPa,respectively.Meanwhile,the correlation coefficient between the measured and predicted DRX fractions is 0.976.These indicate that the developed model exhibits high accuracy in predicting the high-temperature deformation and DRX behaviors of GH4698 superalloy.
基金supported by the National Key Research and Development Program of China(Nos.2022YFB3706901,2022YFB3706903)the National Natural Science Foundation of China(No.52274382)。
文摘Hot compression experiments were conducted under conditions of deformation temperatures ranging from 950 to 1150℃,strain rates of 0.001-10 s^(-1),and deformation degrees ranging from 20%to 80%.The hot deformation behavior and microstructure evolution of millimeter-grade coarse grains(MCGs)in the as-cast Ti-6Cr-5Mo-5V-4Al(Ti-6554)alloy were studied,and a hot processing map was established.Under compression along the rolling direction(RD),continuous dynamic recrystallization(CDRX)ensues due to the progressive rotation of subgrains within the MCGs.Along the transverse direction(TD),discontinuous dynamic recrystallization(DDRX)resulting from grain boundary bulging or bridging,occurs on the boundaries of the MCGs.With decreasing strain rate,increasing temperature,and higher deformation degree,dynamic recrystallization becomes more pronounced,resulting in a reduction in the original average grain size.The optimal processing parameters fall within a temperature range of 1050-1150℃,a strain rate of 0.01 s^(-1),and a deformation degree between 40%and 60%.
基金the National Natural Science Foundation of China(5227-7084).
文摘With the continuous expansion and increasing complexity of power system scales,the binary classifica-tion for transient stability assessment in power systems can no longer meet the safety requirements of power system control and regulation.Therefore,this paper proposes a multi-class transient stability assessment model based on an improved Transformer.The model is designed with a dual-tower encoder structure:one encoder focuses on the time dependency of data,while the other focuses on the dynamic correlations between variables.Feature extraction is conducted from both time and variable perspectives to ensure the completeness of the feature extraction process,thereby enhancing the accuracy of multi-class evaluation in power systems.Additionally,this paper introduces a hybrid sampling strategy based on sample boundaries,which addresses the issue of sample imbalance by increasing the number of boundary samples in the minority class and reducing the number of non-boundary samples in the majority class.Considering the frequent changes in power grid topology or operation modes,this paper proposes a two-stage updating scheme based on self-supervised learning:In the first stage,self-supervised learning is employed to mine the structural information from unlabeled data in the target domain,enhancing the model’s generalization capability in new scenarios.In the second stage,a sample screening mechanism is used to select key samples,which are labeled through long-term simulation techniques for fine-tuning the model parameters.This allows for rapid model updates without relying on many labeled samples.This paper’s proposed model and update scheme have been simulated and verified on two node systems,the IEEE New England 10-machine 39-bus system and the IEEE 47-machine 140-bus system,demonstrating their effectiveness and reliability.
基金financially supported by National Natural Science Foundation of China(Grant No.52272021,52232002 and U23A20559)Natural Science Foundation of Wuhan(2024040701010051)+1 种基金Program for Innovative Teams of Outstanding Young and Middle-aged Researchers in the Higher Education Institutions of Hubei Province(T201602)The work was supported by the Open Fund of the Key Laboratory of Mineral Metallurgical Resources Utilization and Pollution Control,Ministry of Ecology and Environment of the People's Republic of China(No.HB202402)。
文摘Designing catalysts with high reaction efficiency is essential for reducing heavy metal Cr(VI)ions in wastewater via microwave induction.In this paper,a unique microwave-responsive lychee-like Ni/C/ZnFe_(2)O_(4) composite catalyst with a double-shell hollow porous heterojunction structure was constructed for the efficient reduction of Cr(VI).Benefiting from the novel hollow porous structure and“carbon nanocage”structure of the Ni/C/ZnFe_(2)O_(4),coupled with excellent electromagnetic wave absorption ability,the prepared lychee-like Ni/C/ZnFe_(2)O_(4) com-posite catalyst could remove up to 98%of Cr(VI)(50 mg L 1,50 mL)after 40 min of microwave irradiation,even in nearly neutral water conditions.Additionally,density functional theory calculations indicated that the heterojunction interface between Ni/C and ZnFe_(2)O_(4) enhances electron transfer from ZnFe_(2)O_(4) to Ni/C,ultimately facilitating the removal of Cr(VI).Furthermore,the incorporation of Ni/C facilitated the 2 acceleration of H ion transfer to*Cr_(2)O_(7),thereby expediting the conversion kinetics of the latter.This research aims to establish a theoretical and experimental foundation for the effective and stable microwave-assisted catalytic reduction of heavy metal Cr(VI)ions,presenting new insights and methods to combat heavy metal contamination.
基金Supported by National Natural Science Foundation of China(No.82160195No.82460203)Key R&D Program of Jiangxi Province(No.20223BBH80014).
文摘AIM:To assess the alterations in the resting-state function connections between the two cerebral hemispheres in patients with optic neuritis(ON)and healthy controls(HCs).METHODS:A total of 12 ON patients(six males and six females)and 12 HCs(six males and six females)who were highly matched for sex,age,and educational level were recruited.They underwent functional magnetic resonance imaging(fMRI),testing and brain activities were assessed using the degree centrality(DC)method.Correlation analysis between the mean DC values in specific brain areas and behavior performances was analyzed as well.Linear correlations between A anxiety scale(AS)and depression scale(DS)values and DC values in brain regions of patients with ON were also analyzed.RESULTS:The areas that showed a higher DC value in ON patients were the right angular gyrus and bilateral precuneus,while the left insula and left superior temporal gyrus(LSTG)were regions that presented a lower DC value in ON patients.A receiver operating characteristic(ROC)curve analysis confirmed the accuracy of the area under the curve(AUC)assessment.Linear analysis showed anxiety scale(AS)and depression scale(DS)values in the left insula were both negatively correlated with DC values,while best corrected visual acuity logMAR-R(BCVA logMAR-R)showed a negative correlation with DC in the LSTG.CONCLUSION:The study explores altered brain activities of specific regions in patients with ON.The results provide clues for revealing the underlying mechanism of ON development.
文摘<strong>Objective:</strong> The aim of this study was to observe and investigate the location of mental foramen, providing scientific and reasonable anatomic basic for clinical mental nerve block. <strong>Methods:</strong> The shape, orientations, relationship with teeth and number of accessory mental foramina in 50 (100 side) adult mental foramina were observed. The long and short diameters of the mental foramen and the distance between the mental foramen and the peripheral anatomical markers were measured by a vernier caliper, and statistical analysis of the data was performed to obtain the final results. <strong>Results:</strong> The probability of mental foramen being elliptical in shape accounted for 27%, circular for 73%;10% of the mental foramen openings are outward and 90% are outward and upward;The mental foramina were located under the first premolars in 20%, under the second premolars in 75%, and 5% situated in the bottom of the first molars. The incidence of accessory mental foramina was 1%;the long diameter of the mental foramen was (2.42 ± 0.71) mm, and the short diameter of the mental foramen was (2.15 ± 0.14) mm;the vertical distance from the mental foramen center to the alveolar crest and the lower margin of the mandible were (14.09 ± 3.23) mm and (14.56 ± 1.74) mm;the distance between the midpoints of the vertical line to the center of the mental foramen was (1.26 ± 0.97) mm;the horizontal distance from the center of the mental foramen to the anterior median line was (23.57 ± 1.82) mm. <strong>Conclusion:</strong> The point of mental nerve block was selected below and behind the second premolars, above the midline of the mandible. The distance from the anterior median line was 2.5 cm, and the mental foramen was explored forward and downward after the insertion.
文摘<strong>Background:</strong><span><span><span style="font-family:""><span style="font-family:Verdana;"> Treatment strategy for recurrent hepatocellular carcinoma (HCC) remains scantily defined. This study was aimed to establish a treatment strategy to manage post-hepatectomy recurrent HCC and report the clinical outcomes. </span><b><span style="font-family:Verdana;">Methods: </span></b><span style="font-family:Verdana;">From January 2006 to December 2016, 556 consecutive patients who developed post-hepatectomy HCC recurrence were enrolled in the study. The patients were clinically stratified and treated according to a strategy established by a multi-disciplinary team. Clinical data and survival times were collected prospectively and analyzed retrospectively. </span><b><span style="font-family:Verdana;">Results: </span></b><span style="font-family:Verdana;">According to the strategy, there were 298 (53.6%), 214 (38.5%), 32 (5.7%) and 12 (2.2%) patients stratified into Early, Intermediate, Advanced and Terminal stages, respectively. In Early stage patients, 164 (55.0%) received curative treatment in the form of repeat resection or local ablation, 134 (45.0%) received transarterial chemoe</span><span style="font-family:Verdana;">mbolization (TACE), and the 1-, 3-, and 5-year overall survival (OS) rates were 82.0%, 46.8% and 37.3%, respectively. In Intermediate stage patients, 207 (96.7%) received TACE, 7 (3.3%) radiotherapy, and the 1-, 3-, and 5-year OS rates were 73.2%, 31.8% and 15.9%, respectively. In Advanced stage patients, 22 patients received sorafenib, 10 radiotherapy, and the mean survival time (MST) was 25.1 ± 3.1 months. All the 12 patients in Terminal stage rece</span><span style="font-family:Verdana;">ived the best supportive treatment, and the MST was 6.5 ± 3.4 months. Clinical stages and duration of disease-free interval were independent factors relating to overall survival. </span><b><span style="font-family:Verdana;">Conclusions: </span></b><span style="font-family:Verdana;">A treatment strategy derived from the Barcelona Clinic Liver Cancer staging system, with some modifications, has been successfully established to manage post-hepatectomy recurrent HCC, and the clinical outcomes were commendable.</span></span></span></span>
