Recommendation systems are key to boosting user engagement,satisfaction,and retention,particularly on media platforms where personalized content is vital.Sequential recommendation systems learn from user-item interact...Recommendation systems are key to boosting user engagement,satisfaction,and retention,particularly on media platforms where personalized content is vital.Sequential recommendation systems learn from user-item interactions to predict future items of interest.However,many current methods rely on unique user and item IDs,limiting their ability to represent users and items effectively,especially in zero-shot learning scenarios where training data is scarce.With the rapid development of Large Language Models(LLMs),researchers are exploring their potential to enhance recommendation systems.However,there is a semantic gap between the linguistic semantics of LLMs and the collaborative semantics of recommendation systems,where items are typically indexed by IDs.Moreover,most research focuses on item representations,neglecting personalized user modeling.To address these issues,we propose a sequential recommendation framework using LLMs,called CIT-Rec,a model that integrates Collaborative semantics for user representation and Image and Text information for item representation to enhance Recommendations.Specifically,by aligning intuitive image information with text containing semantic features,we can more accurately represent items,improving item representation quality.We focus not only on item representations but also on user representations.To more precisely capture users’personalized preferences,we use traditional sequential recommendation models to train on users’historical interaction data,effectively capturing behavioral patterns.Finally,by combining LLMs and traditional sequential recommendation models,we allow the LLM to understand linguistic semantics while capturing collaborative semantics.Extensive evaluations on real-world datasets show that our model outperforms baseline methods,effectively combining user interaction history with item visual and textual modalities to provide personalized recommendations.展开更多
The rapid identification of γ-emitting radionuclides with low activity levels in public areas is crucial for nuclear safety.However,classical methods rely on full-energy peaks in the integral spectrum,requiring suffi...The rapid identification of γ-emitting radionuclides with low activity levels in public areas is crucial for nuclear safety.However,classical methods rely on full-energy peaks in the integral spectrum,requiring sufficient count accumulation for evaluation,thereby limiting response time.The sequential Bayesian approach,which utilizes prior information and considers both photon energies and interarrival times,can significantly enhance the performance of radionuclides identification.This study proposes a theoretical optimization method for the traditional sequential Bayesian approach.Each photon is processed sequentially,and the corresponding posterior probability is updated in real time using a noninformative prior from the Bayesian theory.By comparing the posterior probabilities of the background and radionuclides based on the energy variance and time interval,the type of γ-rays can be identified(background characteristic γ-rays,Compton plateaus γ-rays,or radionuclide-specific characteristic γ-rays).By integrating the information from these multiple characteristic γ-rays,the presence and type of radionuclides were determined based on the final decision function and a set threshold.Based on theoretical research,verification experiments were conducted using a LaBr_(3)(Ce)detector in both low-and natural background radiation environments with typical radionuclides(^(137)Cs,^(60)Co,and ^(133)Ba).The results show that this approach can identify ^(137)Cs in 7.9 s and 8.5 s(source dose rate contribution:approximately 6.5×10^(−3)μGy/h),^(60)Co in 8.1 s and 9.8 s(approximately 4.8×10^(−2)μGy/h),and ^(133)Ba in 4.05 s and 5.99 s(approximately 3.4×10^(−2)μGy/h)under low and natural background radiation,respectively,with a miss rate below 0.01%.This demonstrates the effectiveness of the proposed approach for fast radionuclides identification,even at low activity levels and highlights its potential for enhancing public safety in diverse radiation environments.展开更多
Generating dynamically feasible trajectory for fixed-wing Unmanned Aerial Vehicles(UAVs)in dense obstacle environments remains computationally intractable.This paper proposes a Safe Flight Corridor constrained Sequent...Generating dynamically feasible trajectory for fixed-wing Unmanned Aerial Vehicles(UAVs)in dense obstacle environments remains computationally intractable.This paper proposes a Safe Flight Corridor constrained Sequential Convex Programming(SFC-SCP)to improve the computation efficiency and reliability of trajectory generation.SFC-SCP combines the front-end convex polyhedron SFC construction and back-end SCP-based trajectory optimization.A Sparse A^(*)Search(SAS)driven SFC construction method is designed to efficiently generate polyhedron SFC according to the geometric relation among obstacles and collision-free waypoints.Via transforming the nonconvex obstacle-avoidance constraints to linear inequality constraints,SFC can mitigate infeasibility of trajectory planning and reduce computation complexity.Then,SCP casts the nonlinear trajectory optimization subject to SFC into convex programming subproblems to decrease the problem complexity.In addition,a convex optimizer based on interior point method is customized,where the search direction is calculated via successive elimination to further improve efficiency.Simulation experiments on dense obstacle scenarios show that SFC-SCP can generate dynamically feasible safe trajectory rapidly.Comparative studies with state-of-the-art SCP-based methods demonstrate the efficiency and reliability merits of SFC-SCP.Besides,the customized convex optimizer outperforms off-the-shelf optimizers in terms of computation time.展开更多
For uncertainty quantification of complex models with high-dimensional,nonlinear,multi-component coupling like digital twins,traditional statistical sampling methods,such as random sampling and Latin hypercube samplin...For uncertainty quantification of complex models with high-dimensional,nonlinear,multi-component coupling like digital twins,traditional statistical sampling methods,such as random sampling and Latin hypercube sampling,require a large number of samples,which entails huge computational costs.Therefore,how to construct a small-size sample space has been a hot issue of interest for researchers.To this end,this paper proposes a sequential search-based Latin hypercube sampling scheme to generate efficient and accurate samples for uncertainty quantification.First,the sampling range of the samples is formed by carving the polymorphic uncertainty based on theoretical analysis.Then,the optimal Latin hypercube design is selected using the Latin hypercube sampling method combined with the"space filling"criterion.Finally,the sample selection function is established,and the next most informative sample is optimally selected to obtain the sequential test sample.Compared with the classical sampling method,the generated samples can retain more information on the basis of sparsity.A series of numerical experiments are conducted to demonstrate the superiority of the proposed sequential search-based Latin hypercube sampling scheme,which is a way to provide reliable uncertainty quantification results with small sample sizes.展开更多
Vertical root fracture(VRF)in molars is a complex and frequently encountered dental condition.Successful management relies on accurate diagnosis,sequential treatment strategies,and systematic care.This paper provides ...Vertical root fracture(VRF)in molars is a complex and frequently encountered dental condition.Successful management relies on accurate diagnosis,sequential treatment strategies,and systematic care.This paper provides a comprehensive review of the sequential therapeutic approaches and systematic management models for molar VRF over the past five years.Particular attention is given to the diagnostic value of cone-beam computed tomography(CBCT),recent advances in tooth-preserving techniques,and the establishment of full-course management frameworks.By constructing an integrated pathway encompassing diagnostic assessment,treatment decision-making,clinical intervention,and long-term maintenance,a“dentist–nurse–patient community”model is proposed to promote standardized clinical guidance.This collaborative model aims to extend the lifespan of affected teeth and restore optimal masticatory function.展开更多
A gradient coating containing collagen and inorganic strontium/calcium phosphate(Sr/CaP)was fabricated on plasma-electrolytically oxidised magnesium via one-step cathodic electrodeposition.First,Sr-doped dicalcium pho...A gradient coating containing collagen and inorganic strontium/calcium phosphate(Sr/CaP)was fabricated on plasma-electrolytically oxidised magnesium via one-step cathodic electrodeposition.First,Sr-doped dicalcium phosphate dihydrate and hydroxyapatite(DCPD and HA)was deposited,followed by a collagen/CaP layer.The morphological evolution,sequential degradation behaviour,and in vitro bio-properties of the coatings were investigated.The incorporation of collagen remarkably refined the morphology of the CaP,and a more aggregated nano-spherical morphology was observed with increasing collagen concentration.Sr could partially replace Ca in the CaP crystals.Collagen combined with CaP formed a relatively stable skeletal frame,which provided sufficient barrier properties and more sites for the re-precipitation of bone tissue,as well as a more promising proliferation and differentiation ability of osteoblasts.A gradient coating that matches the requirements of bone growth at various periods is suggested for implantation.展开更多
Achieving artificial simulations of multi-step energy transfer processes and conversions in nature remains a challenge.In this study,we present a three-step sequential energy transfer process,which was constructed thr...Achieving artificial simulations of multi-step energy transfer processes and conversions in nature remains a challenge.In this study,we present a three-step sequential energy transfer process,which was constructed through host-vip interactions between a piperazine derivative(PPE-BPI)with aggregationinduced emission(AIE)and cucurbit[7]uril(CB[7])in water to serve as ideal energy donors.To achieve multi-step sequential energy transfer,we employ three distinct fluorescent dyes Eosin B(EsB),Sulforhodamine 101(SR101),and Cyanine 5(Cy5)as energy acceptors.The PPE-PBI-2CB[7]+EsB+SR101+Cy5 system demonstrates a highly efficient three-step sequential energy transfer mechanism,starting with PPEPBI-2CB[7]and transferring energy successively to EsB,SR101,and finally to Cy5,with remarkable energy transfer efficiencies.More interestingly,with the progressive transfer of energy in the multi-step energy transfer system,the generation efficiency of superoxide anion radical(O_(2)•-)increased gradually,which can be used as photocatalysts for selectively photooxidation of N-phenyltetrahydroisoquinoline in an aqueous medium with a high yield of 86%after irradiation for 18 h.This study offers a valuable investigation into the simulation of multi-step energy transfer processes and transformations in the natural world,paving the way for further research in the field.展开更多
Background:Recent scholarly attention has increasingly focused on filial piety beliefs'impact on youth's psychological development.However,the mechanisms by which filial piety indirectly influences adolescent ...Background:Recent scholarly attention has increasingly focused on filial piety beliefs'impact on youth's psychological development.However,the mechanisms by which filial piety indirectly influences adolescent autonomy through depression and well-being remain underexplored.This study aimed to test a sequential mediation model among filial piety beliefs,depression,well-being,and autonomy in Taiwan region of China university students.Methods:A total of 566 Taiwan region of China undergraduate and graduate students,comprising 390 females and 176 males,and including 399 undergraduates and 167 graduate students,were recruited through convenience sampling.Data were collected via an online questionnaire.Validated instruments were employed,including the Filial Piety Scale(FPS),the Center for Epidemiological Studies Depression Scale(CES-D),the Chinese Well-being Inventory(CHI),and the Adolescent Autonomy Scale-Short Form(AAS-SF).Statistical analyses included group comparisons,correlation analyses,and structural equation modeling to examine the hypothesized relationships and mediation effects.Results:The results revealed that filial piety beliefs exerted a significant positive impact on adolescent autonomy,with depression and well-being serving as key mediators in this relationship.A sequential mediation effect was confirmed through structural equation modeling(β=0.052,95%CI[0.028,0.091]),with good model fit indices(x^(2)/df=4.25,RMSEA=0.076,CFI=0.968),supporting the hypothesized pathway from filial piety to autonomy via depression and well-being.In terms of demographic differences,male students showed significantly higher autonomy than females(p<0.001);students from single-parent families reported significantly higher depression levels than those from two-parent families(p<0.05);and graduate students exhibited significantly higher autonomy and well-being than undergraduates(p<0.05).Conclusions:These findings underscore not only the importance of filial piety beliefs for developing youth autonomy but also the critical role that mental health factors,such as depression and well-being,play in this process.The study concludes with a discussion of both theoretical implications and practical recommendations.These include strategies to foster reciprocal filial piety,strengthen parent-child relationships,and promote mental health.Additionally,the study outlines its limitations and proposes directions for future research.展开更多
Antitumor nanomedicines are usually decorated with ligands to achieve multiple functions,such as targeting delivery,tissue penetration and enhanced cellular uptake.However,a single ligand with multiple functions is ge...Antitumor nanomedicines are usually decorated with ligands to achieve multiple functions,such as targeting delivery,tissue penetration and enhanced cellular uptake.However,a single ligand with multiple functions is generally preferred for use in practice.Herein,a versatile peptide,(HE)_(10)G_(5)R_(6)GDK(HE-RK),was engineered by integrating several motifs into a single sequence,including a masking segment(HE),a flexible linker(G_(5)),and a tumor-penetrating head(RK)which comprised a cell-penetrating peptide(R_(6))and a C-end Rule peptide(RGDK).The RK moiety in HE-RK was sequentially activated following the gradual charge reversal of HE to facilitate the accumulation of its cargos in deep tumor tissue and the cytosol of cancer cells.Moreover,in our study,polymer micelles conjugated with the HE-RK peptide(PM-HE-RK)showed superior cellular internalization at pH 6.5 compared to pH 7.4 in vitro,as well as extended blood circulation time and improved tumor targeting and penetration in vivo.Furthermore,the paclitaxel-loaded micelles(PTX/PM-HERK)demonstrated considerable antitumor efficacy,with an 81.48%tumor inhibition rate in the 4T1 mouse model.Overall,the construction of this all-in-one multisegment peptide presents a synergistic and complementary approach to advancing multifunctional peptide ligand design.展开更多
Sequential processing(SqP)of the active layer offers independent optimization of the donor and acceptor with more targeted solvent design,which is considered the most promising strategy for achieving efficient organic...Sequential processing(SqP)of the active layer offers independent optimization of the donor and acceptor with more targeted solvent design,which is considered the most promising strategy for achieving efficient organic solar cells(OSCs).In the SqP method,the favorable interpenetrating network seriously depends on the fine control of the bottom layer swelling.However,the choice of solvent(s)for both the donor and acceptor have been mostly based on a trial-and-error manner.A single solvent often cannot achieve sufficient yet not excessive swelling,which has long been a difficulty in the high efficient SqP OSCs.Herein,two new isomeric molecules are introduced to fine-tune the nucleation and crystallization dynamics that allows judicious control over the swelling of the bottom layer.The strong non-covalent interaction between the isomeric molecule and active materials provides an excellent driving force for optimize the swelling-process.Among them,the molecule with high dipole moment promotes earlier nucleation of the PM6 and provides extended time for crystallization during SqP,improving bulk morphology and vertical phase segregation.As a result,champion efficiencies of 17.38%and 20.00%(certified 19.70%)are achieved based on PM6/PYF-T-o(all-polymer)and PM6/BTP-eC9 devices casted by toluene solvent.展开更多
BACKGROUND Pediatric short bowel syndrome(SBS)poses management challenges,and teduglutide is a potential therapy.However,comprehensive data on its pediatric safety are lacking.AIM To evaluate the impact of teduglutide...BACKGROUND Pediatric short bowel syndrome(SBS)poses management challenges,and teduglutide is a potential therapy.However,comprehensive data on its pediatric safety are lacking.AIM To evaluate the impact of teduglutide on infection and gastrointestinal adverse events in pediatric SBS patients via systematic review and meta-analysis.METHODS Following PRISMA 2009 guidelines and PROSPERO registration,we searched PubMed,Web of Science,and EMBASE for randomized controlled trials(RCTs)(pediatric SBS patients≤18 years;teduglutide vs placebo/standard care).Two reviewers screened studies,extracted data,and assessed bias(ROB2).Metaanalyses used RevMan 5.4(Mantel-Haenszel method,random-effects if I^(2)≠0).Trial sequential analysis and GRADE were applied.RESULTS Three RCTs involving 115 pediatric patients were included.Pooled analysis revealed no statistically significant differences between the teduglutide and control groups for the primary outcome of infection events[RR=0.83;(95%CI:0.44-1.56);P=0.57;I^(2)=0%;2 studies,n=55].Similarly,no significant differences were found for secondary outcomes:Upper respiratory tract infection[RR=0.68;(95%CI:0.32-1.47);P=0.33;I^(2)=0%],catheter site infection[RR=1.86;(95%CI:0.23-14.78);P=0.56;I^(2)=0%],vomiting[RR=1.35;(95%CI:0.10-18.23);P=0.82;I^(2)=72%],abdominal pain[RR=2.47;(95%CI:0.50-12.16);P=0.27;I^(2)=0%],nausea[RR=1.31;(95%CI:0.24-7.22);P=0.75;I^(2)=0%],diarrhea[RR=1.02;(95%CI:0.23-4.43);P=0.98;I^(2)=0%],and abdominal distension[RR=1.49;(95%CI:0.18-12.35);P=0.71;I^(2)=0%].The overall certainty of evidence assessed by GRADE was moderate.CONCLUSION Teduglutide does not increase infection or gastrointestinal adverse event risk in pediatric SBS,but small sample sizes limit conclusions.Larger studies are needed.展开更多
Due to the complexity of the lithofacies associated with shale oil in saline lacustrine basins,the differences of shale oil occurrence state and its controlling factors in different lithofacies are not completely clea...Due to the complexity of the lithofacies associated with shale oil in saline lacustrine basins,the differences of shale oil occurrence state and its controlling factors in different lithofacies are not completely clear.This hinders efficient shale oil exploration and development.We investigated the shale oil in the Permian Lucaogou Formation in the Jimusar Sag,Junggar Basin,China,based mainly on sequential solvent extraction,petrological,organic geochemical,and nuclear magnetic resonance techniques.The fluidity of extractable organic matter decreased from the first extract to the fourth extract,which was caused by the gradual decrease in the contents of saturated and aromatic hydrocarbons,and gradual increase in the contents of NSO compounds and asphaltenes.The contents of free hydrocarbons(the first and second extracts)and adsorbed hydrocarbons(the third and fourth extracts)are very different among the lithofacies.The free hydrocarbon ratios in the siltstones and carbonate rocks are>70%and the main pore throats are>1μm in size,corresponding to the best sweet spots.The contents of free hydrocarbons in the laminated silty mudstones and shales with bedding fractures are>50%,which are also available.The free hydrocarbons in the siltstones and carbonates are saturated with migrated hydrocarbons,with the contents being more affected by the physical properties of rocks.In contrast,the free hydrocarbons in the mudstones are mainly self-generated and-stored,and their contents are controlled by total organic carbon contents and maturity.For the adsorbed hydrocarbons,the contents in all lithofacies are controlled mainly by the total organic carbon contents.The biomarker parameters record a slight increase in maturity from the fourth to the first extract.The ∑C22-/∑C23+values of n-alkanes in the third extract are the lowest,because carbonate minerals tend to capture long-chain n-alkanes.The sequential solvent extraction method provides new insights into the occurrence state and molecular geochemical characteristics of lacustrine shale oil in different lithofacies.Future exploration should focus on siltstones and carbonate rocks with a relatively high proportion of the first extract(free hydrocarbons occurring in large pores and fractures),and mudstones with a relatively high proportion of the second extract(free to adsorbed hydrocarbons occurring in matrix pores)that are suitable for hydraulic fracturing to aid production.展开更多
Objective:A risk-based sequential screening strategy,from questionnaire-based assessment to biomarker measurement and then to endoscopic examination,has the potential to enhance gastric cancer(GC)screening efficiency....Objective:A risk-based sequential screening strategy,from questionnaire-based assessment to biomarker measurement and then to endoscopic examination,has the potential to enhance gastric cancer(GC)screening efficiency.We aimed to evaluate the ability of five common stomach-specific serum biomarkers to further enrich high-risk individuals for GC in the questionnaire-identified high-risk population.Methods:This study was conducted based on a risk-based screening program in Ningxia Hui Autonomous Region,China.We first performed questionnaire assessment involving 23,381 individuals(7,042 outpatients and 16,339 individuals from the community),and those assessed as“high-risk”were then invited to participate in serological assays and endoscopic examinations.The serological biomarker model was derived based on logistic regression,with predictors selected via the Akaike information criterion.Model performance was evaluated by the area under the receiver operating characteristic curve(AUC).Results:A total of 2,011 participants were ultimately included for analysis.The final serological biomarker model had three predictors,comprising pepsinogenⅠ(PGI),pepsinogenⅠ/Ⅱratio(PGR),and anti-Helicobacter pylori immunoglobulin G(anti-H.pylori IgG)antibodies.This model generated an AUC of 0.733(95%confidence interval:0.655-0.812)and demonstrated the best discriminative ability compared with previously developed serological biomarker models.As the risk cut-off value of our model rose,the detection rate increased and the number of endoscopies needed to detect one case decreased.Conclusions:PGI,PGR,and anti-H.pylori Ig G could be jointly used to further enrich high-risk individuals for GC among those selected by questionnaire assessment,providing insight for the development of a multi-stage riskbased sequential strategy for GC screening.展开更多
Polycyclic compounds are widely found in natural products and drug molecules with important biological activities,which attracted the attention of many chemists.Phosphine-catalyzed nucleophilic addition is one of the ...Polycyclic compounds are widely found in natural products and drug molecules with important biological activities,which attracted the attention of many chemists.Phosphine-catalyzed nucleophilic addition is one of the most powerful tools for the construction of various cyclic compounds with the advantages of atom economy,mild reaction conditions and simplicity of operation.Allenolates,Morita−Baylis−Hillman(MBH)alcohols and their derivatives(MBHADs),electron-deficient olefins and alkynes are very efficient substrates in phosphine mediated annulations,which formed many phosphonium species such asβ-phosphonium enolates,β-phosphonium dienolates and vinyl phosphonium ylides as intermediates.This review describes the reactivities of these phosphonium zwitterions and summarizes the synthesis of polycycle compounds through phosphine-mediated intramolecular and intermolecular sequential annulations.Thus,a systematic summary of the research process based on the phosphine-mediated sequential annulations of allenolates,MBH alcohols and MBHADs,electron-deficient olefins and alkynes are presented in Chapters 2-6,respectively.展开更多
To address postoperative melanoma issues of high recurrence and poor wound healing,we developed a nanocomposite hydrogel wound patch(M_(xNd/yCe)@M SAC)for cascade sequential therapy.Methotrexate(MTX)loaded Nd/Ce-doped...To address postoperative melanoma issues of high recurrence and poor wound healing,we developed a nanocomposite hydrogel wound patch(M_(xNd/yCe)@M SAC)for cascade sequential therapy.Methotrexate(MTX)loaded Nd/Ce-doped mesoporous bioactive glass was encapsulated in a sulfobetaine-polyacrylamide-carboxymethyl chitosan hydrogel via thermal polymerization.Under the acidic microenvironment of the residual tumor,the amide bonds in M_(xNd/yCe)@M SAC are broken,releasing M_(xNd/yCe)@M.M_(xNd/yCe)@M targets tumor cells,and the combined therapy of mild photothermal treatment and chemotherapy ablates tumor cells.Subsequently,the continuously released MTX downregulates the expression of pro-inflammatory factors and reshapes the immune microenvironment.Finally,M_(xNd/yCe)@M disintegrates,releasing Si^(4+),Ca^(2+),P^(5+)and Ce^(3+)ions,which can effectively promote angiogenesis and tissue repair.In the postoperative melanoma model,this method effectively cleared the residual tumors after surgery,shortened the inflammatory period,and promoted tissue regeneration.In conclusion,the nanocomposite hydrogel wound patch for cascade sequential treatment prepared in this study has excellent anti-tumor,immune regulation and tissue repair properties,providing prospective insights for the postoperative treatment of malignant melanoma.展开更多
This study uses Baidu News data and introduces a novel proxy for the rate of information flow to examine its relationship with return volatility in Chinese commodity futures and to test two competing hypotheses.We exa...This study uses Baidu News data and introduces a novel proxy for the rate of information flow to examine its relationship with return volatility in Chinese commodity futures and to test two competing hypotheses.We examine the contemporaneous relationships using correlation coefficient analysis,and find apparent differences between the information flow-return volatility relationship and the information flowtrading volume relationship.The empirical evidence contradicts the mixture of distribution hypothesis(MDH)and suggests that the rate of information flow distinctly affects trading volume and volatility.We conducted linear and nonlinear Granger causality tests to explore the sequential information arrival hypothesis(SIAH).The empirical results prove that a lead-lag linear and nonlinear causality exists between the information flow and return volatility of commodity futures,which is consistent with SIAH.In other words,a partial equilibrium exists before reaching the ultimate equilibrium when the new information arrives in the market.Finally,these findings are robust to alternative measurement of return volatility and subperiod analysis.Our findings reject the MDH and support the SIAH in the context of Chinese commodity futures.展开更多
Nuclear mass is an important property in both nuclear and astrophysics.In this study,we explore an improved mass model that incorporates a higher-order term of symmetry energy using algorithms.The sequential least squ...Nuclear mass is an important property in both nuclear and astrophysics.In this study,we explore an improved mass model that incorporates a higher-order term of symmetry energy using algorithms.The sequential least squares programming(SLSQP)algorithm augments the precision of this multinomial mass model by reducing the error from 1.863 MeV to 1.631 MeV.These algorithms were further examined using 200 sample mass formulae derived from theδE term of the E_(isospin) mass model.The SLSQP method exhibited superior performance compared to the other algorithms in terms of errors and convergence speed.This algorithm is advantageous for handling large-scale multiparameter optimization tasks in nuclear physics.展开更多
BACKGROUND Occult hepatitis B virus infection(OBI)is defined by the detection of replication-competent hepatitis B virus(HBV)DNA in the liver and/or blood despite the ab-sence of detectable hepatitis B surface antigen...BACKGROUND Occult hepatitis B virus infection(OBI)is defined by the detection of replication-competent hepatitis B virus(HBV)DNA in the liver and/or blood despite the ab-sence of detectable hepatitis B surface antigen(HBsAg)using conventional ser-ological assays.Although OBI has been well-documented in individuals with resolved HBV infection or those receiving immunosuppressive therapy,reports of its occurrence during sequential antiviral treatment remain scarce.This report describes a case of chronic hepatitis B(CHB)transitioning through OBI during sequential combination therapy before ultimately achieving a functional cure.This case provides new insights into the emergence of OBI as a transitional phase during CHB treatment and emphasizes the importance of monitoring its clinical significance.CASE SUMMARY A 33-year-old Chinese male was diagnosed with HBV infection in 2001.The patient first presented in 2012 with abnormal liver function tests and received initial treatment with conventional interferon therapy,which failed to achieve a virological response.Antiviral therapy was subsequently switched to entecavir monotherapy.By August 2019,the patient exhibited an HBsAg level of 29.93 IU/mL with undetectable HBV DNA(<25 IU/mL).At this point,combination therapy with entecavir and pegylated interferonα(PEG-IFNα)was initiated.Remarkably,while HBsAg declined to 0.42 IU/mL by April 2020,a paradoxical HBV DNA rebound to 173 IU/mL was observed.The regimen was consequently modified to tenofovir alafenamide and PEG-IFNα.By October 2020,the patient achieved HBsAg seroconversion(HBsAg 0.01 IU/mL,hepatitis B surface antibody 52.18 mIU/mL)for the first time,while maintaining low-level viremia(37 IU/mL),consistent with transition to OBI.The patient was then switched to PEG-IFNαmonotherapy.In November 2021,he discontinued PEG-IFNαtherapy,and one month later,both HBV DNA(<10 IU/mL)and HBsAg(<0.05 IU/mL)were negative.This response has been sustained through follow-up.CONCLUSION This case study illustrates the efficacy of sequential combination therapy in achieving functional cure in CHB patients,including those with a prolonged infection history.It highlights OBI as a transitional yet underrecognized phase during sequential antiviral therapy.While the patient ultimately achieved functional cure,the transient persistence of HBV DNA despite HBsAg clearance suggests the need for continued monitoring.This case provides new insights into OBI development during treatment and underscores the importance of further research into its long-term implications.展开更多
Morphological control is recognized as a pivotal factor in developing high-performing solution-processed organic photovoltaics(OPVs).The essence of achieving optimal morphology in a sequentially deposited active layer...Morphological control is recognized as a pivotal factor in developing high-performing solution-processed organic photovoltaics(OPVs).The essence of achieving optimal morphology in a sequentially deposited active layer lies in the precise modulation of the micro-morphology of the donor phase,encompassing molecular arrangement,orientation,and crystalline structure.The micro-morphology of the polymer donor layer plays a significant role in determining the vertical composition distribution and the adequacy of the donor/acceptor(D/A)interfaces.In this work,self-solvent vapor annealing(S-SVA)is employed to meticulously engineer the π-πstacking and crystalline domains of polymer donor PM6.This is accomplished by precisely adjusting the evaporation kinetics of the self-solvent and leveraging the swelling effect induced by residual self-solvents,thereby enhancing the self-assembly of PM6 molecules.The resultant improvements inπ-πstacking and coherence length have led to efficient charge transport.These refinements have translated into a power conversion efficiency of 18.2%,accompanied by an open-circuit voltage of 0.886 V,a short-circuit current density of 25.9 mA cm^(-2),and a fill factor of 79.4%.The straightforward yet impactful method not only enhances film crystallinity and device performance but also holds broad application potential.展开更多
The single-point bending method,based on atomic force microscopy(AFM),has been extensively validated for characterizing the structural mechanical properties of micro-and nanobeams.Nevertheless,the influence of AFM pro...The single-point bending method,based on atomic force microscopy(AFM),has been extensively validated for characterizing the structural mechanical properties of micro-and nanobeams.Nevertheless,the influence of AFM probe loading and positioning has yet to be subjected to comprehensive investigation.This paper proposes a novel bending-test method based on sequential loading points,in which a series of evenly distributed loads are applied along the length of the central axis on the upper surface of the cantilever.The preliminary measured values of Young’s modulus for an unknown alloy material were 193,178,and 176 GPa,exhibiting a considerable degree of dispersion.An algorithm for self-correction of the positioning error was developed,and this resulted in a positioning error of 53 nm and a final converged Young’s modulus of 161 GPa.展开更多
基金supported by the National Key R&D Program of China[2022YFF0902703]the State Administration for Market Regulation Science and Technology Plan Project(2024MK033).
文摘Recommendation systems are key to boosting user engagement,satisfaction,and retention,particularly on media platforms where personalized content is vital.Sequential recommendation systems learn from user-item interactions to predict future items of interest.However,many current methods rely on unique user and item IDs,limiting their ability to represent users and items effectively,especially in zero-shot learning scenarios where training data is scarce.With the rapid development of Large Language Models(LLMs),researchers are exploring their potential to enhance recommendation systems.However,there is a semantic gap between the linguistic semantics of LLMs and the collaborative semantics of recommendation systems,where items are typically indexed by IDs.Moreover,most research focuses on item representations,neglecting personalized user modeling.To address these issues,we propose a sequential recommendation framework using LLMs,called CIT-Rec,a model that integrates Collaborative semantics for user representation and Image and Text information for item representation to enhance Recommendations.Specifically,by aligning intuitive image information with text containing semantic features,we can more accurately represent items,improving item representation quality.We focus not only on item representations but also on user representations.To more precisely capture users’personalized preferences,we use traditional sequential recommendation models to train on users’historical interaction data,effectively capturing behavioral patterns.Finally,by combining LLMs and traditional sequential recommendation models,we allow the LLM to understand linguistic semantics while capturing collaborative semantics.Extensive evaluations on real-world datasets show that our model outperforms baseline methods,effectively combining user interaction history with item visual and textual modalities to provide personalized recommendations.
基金supported by the Program for NIM-Basic Research Business Expenses Key Field Program,China(No.AKYCX2315).
文摘The rapid identification of γ-emitting radionuclides with low activity levels in public areas is crucial for nuclear safety.However,classical methods rely on full-energy peaks in the integral spectrum,requiring sufficient count accumulation for evaluation,thereby limiting response time.The sequential Bayesian approach,which utilizes prior information and considers both photon energies and interarrival times,can significantly enhance the performance of radionuclides identification.This study proposes a theoretical optimization method for the traditional sequential Bayesian approach.Each photon is processed sequentially,and the corresponding posterior probability is updated in real time using a noninformative prior from the Bayesian theory.By comparing the posterior probabilities of the background and radionuclides based on the energy variance and time interval,the type of γ-rays can be identified(background characteristic γ-rays,Compton plateaus γ-rays,or radionuclide-specific characteristic γ-rays).By integrating the information from these multiple characteristic γ-rays,the presence and type of radionuclides were determined based on the final decision function and a set threshold.Based on theoretical research,verification experiments were conducted using a LaBr_(3)(Ce)detector in both low-and natural background radiation environments with typical radionuclides(^(137)Cs,^(60)Co,and ^(133)Ba).The results show that this approach can identify ^(137)Cs in 7.9 s and 8.5 s(source dose rate contribution:approximately 6.5×10^(−3)μGy/h),^(60)Co in 8.1 s and 9.8 s(approximately 4.8×10^(−2)μGy/h),and ^(133)Ba in 4.05 s and 5.99 s(approximately 3.4×10^(−2)μGy/h)under low and natural background radiation,respectively,with a miss rate below 0.01%.This demonstrates the effectiveness of the proposed approach for fast radionuclides identification,even at low activity levels and highlights its potential for enhancing public safety in diverse radiation environments.
基金supported by the National Natural Science Foundation of China(No.62203256)。
文摘Generating dynamically feasible trajectory for fixed-wing Unmanned Aerial Vehicles(UAVs)in dense obstacle environments remains computationally intractable.This paper proposes a Safe Flight Corridor constrained Sequential Convex Programming(SFC-SCP)to improve the computation efficiency and reliability of trajectory generation.SFC-SCP combines the front-end convex polyhedron SFC construction and back-end SCP-based trajectory optimization.A Sparse A^(*)Search(SAS)driven SFC construction method is designed to efficiently generate polyhedron SFC according to the geometric relation among obstacles and collision-free waypoints.Via transforming the nonconvex obstacle-avoidance constraints to linear inequality constraints,SFC can mitigate infeasibility of trajectory planning and reduce computation complexity.Then,SCP casts the nonlinear trajectory optimization subject to SFC into convex programming subproblems to decrease the problem complexity.In addition,a convex optimizer based on interior point method is customized,where the search direction is calculated via successive elimination to further improve efficiency.Simulation experiments on dense obstacle scenarios show that SFC-SCP can generate dynamically feasible safe trajectory rapidly.Comparative studies with state-of-the-art SCP-based methods demonstrate the efficiency and reliability merits of SFC-SCP.Besides,the customized convex optimizer outperforms off-the-shelf optimizers in terms of computation time.
基金co-supported by the National Natural Science Foundation of China(Nos.51875014,U2233212 and 51875015)the Natural Science Foundation of Beijing Municipality,China(No.L221008)+1 种基金Science,Technology Innovation 2025 Major Project of Ningbo of China(No.2022Z005)the Tianmushan Laboratory Project,China(No.TK2023-B-001)。
文摘For uncertainty quantification of complex models with high-dimensional,nonlinear,multi-component coupling like digital twins,traditional statistical sampling methods,such as random sampling and Latin hypercube sampling,require a large number of samples,which entails huge computational costs.Therefore,how to construct a small-size sample space has been a hot issue of interest for researchers.To this end,this paper proposes a sequential search-based Latin hypercube sampling scheme to generate efficient and accurate samples for uncertainty quantification.First,the sampling range of the samples is formed by carving the polymorphic uncertainty based on theoretical analysis.Then,the optimal Latin hypercube design is selected using the Latin hypercube sampling method combined with the"space filling"criterion.Finally,the sample selection function is established,and the next most informative sample is optimally selected to obtain the sequential test sample.Compared with the classical sampling method,the generated samples can retain more information on the basis of sparsity.A series of numerical experiments are conducted to demonstrate the superiority of the proposed sequential search-based Latin hypercube sampling scheme,which is a way to provide reliable uncertainty quantification results with small sample sizes.
文摘Vertical root fracture(VRF)in molars is a complex and frequently encountered dental condition.Successful management relies on accurate diagnosis,sequential treatment strategies,and systematic care.This paper provides a comprehensive review of the sequential therapeutic approaches and systematic management models for molar VRF over the past five years.Particular attention is given to the diagnostic value of cone-beam computed tomography(CBCT),recent advances in tooth-preserving techniques,and the establishment of full-course management frameworks.By constructing an integrated pathway encompassing diagnostic assessment,treatment decision-making,clinical intervention,and long-term maintenance,a“dentist–nurse–patient community”model is proposed to promote standardized clinical guidance.This collaborative model aims to extend the lifespan of affected teeth and restore optimal masticatory function.
基金support from Mobility Programme of the Sino-German Center(M-0056)National Natural Science Foundation of China(52101286)+2 种基金Natural Science Foundation of Liaoning Province(2022-YGJC-16)Fundamental Research Funds for the Central Universities(N2302017)Supported by Sichuan Science and Technology Program 2023ZYD0115Shenyang Young and Middle-aged Science and Technology Innovation Talent Support Program(RC231178).
文摘A gradient coating containing collagen and inorganic strontium/calcium phosphate(Sr/CaP)was fabricated on plasma-electrolytically oxidised magnesium via one-step cathodic electrodeposition.First,Sr-doped dicalcium phosphate dihydrate and hydroxyapatite(DCPD and HA)was deposited,followed by a collagen/CaP layer.The morphological evolution,sequential degradation behaviour,and in vitro bio-properties of the coatings were investigated.The incorporation of collagen remarkably refined the morphology of the CaP,and a more aggregated nano-spherical morphology was observed with increasing collagen concentration.Sr could partially replace Ca in the CaP crystals.Collagen combined with CaP formed a relatively stable skeletal frame,which provided sufficient barrier properties and more sites for the re-precipitation of bone tissue,as well as a more promising proliferation and differentiation ability of osteoblasts.A gradient coating that matches the requirements of bone growth at various periods is suggested for implantation.
基金the National Natural Science Foundation of China(No.52205210)the Natural Science Foundation of Shandong Province(Nos.ZR2020MB018,ZR2022QE033 and ZR2021QB049).
文摘Achieving artificial simulations of multi-step energy transfer processes and conversions in nature remains a challenge.In this study,we present a three-step sequential energy transfer process,which was constructed through host-vip interactions between a piperazine derivative(PPE-BPI)with aggregationinduced emission(AIE)and cucurbit[7]uril(CB[7])in water to serve as ideal energy donors.To achieve multi-step sequential energy transfer,we employ three distinct fluorescent dyes Eosin B(EsB),Sulforhodamine 101(SR101),and Cyanine 5(Cy5)as energy acceptors.The PPE-PBI-2CB[7]+EsB+SR101+Cy5 system demonstrates a highly efficient three-step sequential energy transfer mechanism,starting with PPEPBI-2CB[7]and transferring energy successively to EsB,SR101,and finally to Cy5,with remarkable energy transfer efficiencies.More interestingly,with the progressive transfer of energy in the multi-step energy transfer system,the generation efficiency of superoxide anion radical(O_(2)•-)increased gradually,which can be used as photocatalysts for selectively photooxidation of N-phenyltetrahydroisoquinoline in an aqueous medium with a high yield of 86%after irradiation for 18 h.This study offers a valuable investigation into the simulation of multi-step energy transfer processes and transformations in the natural world,paving the way for further research in the field.
文摘Background:Recent scholarly attention has increasingly focused on filial piety beliefs'impact on youth's psychological development.However,the mechanisms by which filial piety indirectly influences adolescent autonomy through depression and well-being remain underexplored.This study aimed to test a sequential mediation model among filial piety beliefs,depression,well-being,and autonomy in Taiwan region of China university students.Methods:A total of 566 Taiwan region of China undergraduate and graduate students,comprising 390 females and 176 males,and including 399 undergraduates and 167 graduate students,were recruited through convenience sampling.Data were collected via an online questionnaire.Validated instruments were employed,including the Filial Piety Scale(FPS),the Center for Epidemiological Studies Depression Scale(CES-D),the Chinese Well-being Inventory(CHI),and the Adolescent Autonomy Scale-Short Form(AAS-SF).Statistical analyses included group comparisons,correlation analyses,and structural equation modeling to examine the hypothesized relationships and mediation effects.Results:The results revealed that filial piety beliefs exerted a significant positive impact on adolescent autonomy,with depression and well-being serving as key mediators in this relationship.A sequential mediation effect was confirmed through structural equation modeling(β=0.052,95%CI[0.028,0.091]),with good model fit indices(x^(2)/df=4.25,RMSEA=0.076,CFI=0.968),supporting the hypothesized pathway from filial piety to autonomy via depression and well-being.In terms of demographic differences,male students showed significantly higher autonomy than females(p<0.001);students from single-parent families reported significantly higher depression levels than those from two-parent families(p<0.05);and graduate students exhibited significantly higher autonomy and well-being than undergraduates(p<0.05).Conclusions:These findings underscore not only the importance of filial piety beliefs for developing youth autonomy but also the critical role that mental health factors,such as depression and well-being,play in this process.The study concludes with a discussion of both theoretical implications and practical recommendations.These include strategies to foster reciprocal filial piety,strengthen parent-child relationships,and promote mental health.Additionally,the study outlines its limitations and proposes directions for future research.
基金funded by the National Natural Science Foundation of China(22478438,32401048,and 82273882)the Science Fund for Distinguished Young Scholars of Jiangsu Province(BK20240098)the Special Research Fund from the State Key Laboratory of Natural Medicines at China Pharmaceutical University(SKLNMZZ2024JS19).
文摘Antitumor nanomedicines are usually decorated with ligands to achieve multiple functions,such as targeting delivery,tissue penetration and enhanced cellular uptake.However,a single ligand with multiple functions is generally preferred for use in practice.Herein,a versatile peptide,(HE)_(10)G_(5)R_(6)GDK(HE-RK),was engineered by integrating several motifs into a single sequence,including a masking segment(HE),a flexible linker(G_(5)),and a tumor-penetrating head(RK)which comprised a cell-penetrating peptide(R_(6))and a C-end Rule peptide(RGDK).The RK moiety in HE-RK was sequentially activated following the gradual charge reversal of HE to facilitate the accumulation of its cargos in deep tumor tissue and the cytosol of cancer cells.Moreover,in our study,polymer micelles conjugated with the HE-RK peptide(PM-HE-RK)showed superior cellular internalization at pH 6.5 compared to pH 7.4 in vitro,as well as extended blood circulation time and improved tumor targeting and penetration in vivo.Furthermore,the paclitaxel-loaded micelles(PTX/PM-HERK)demonstrated considerable antitumor efficacy,with an 81.48%tumor inhibition rate in the 4T1 mouse model.Overall,the construction of this all-in-one multisegment peptide presents a synergistic and complementary approach to advancing multifunctional peptide ligand design.
基金supported by the Guangdong Basic and Applied Basic Research Foundation (2022A1515010875)National Natural Science Foundation of China (12404480)+4 种基金Shenzhen Science and Technology Program (JCYJ20240813113238050, JCYJ20240813113306008)Education Department of Guangdong Province (2021KCXTD045)National Natural Science Foundation of China (12274303)the Shenzhen Key Laboratory of Applied Technologies of Super-Diamond and Functional Crystals (ZDSYS20230626091303007)Characteristic Innovation Foundation of Higher Education Institutions of Guangdong Province (2022KTSCX116)
文摘Sequential processing(SqP)of the active layer offers independent optimization of the donor and acceptor with more targeted solvent design,which is considered the most promising strategy for achieving efficient organic solar cells(OSCs).In the SqP method,the favorable interpenetrating network seriously depends on the fine control of the bottom layer swelling.However,the choice of solvent(s)for both the donor and acceptor have been mostly based on a trial-and-error manner.A single solvent often cannot achieve sufficient yet not excessive swelling,which has long been a difficulty in the high efficient SqP OSCs.Herein,two new isomeric molecules are introduced to fine-tune the nucleation and crystallization dynamics that allows judicious control over the swelling of the bottom layer.The strong non-covalent interaction between the isomeric molecule and active materials provides an excellent driving force for optimize the swelling-process.Among them,the molecule with high dipole moment promotes earlier nucleation of the PM6 and provides extended time for crystallization during SqP,improving bulk morphology and vertical phase segregation.As a result,champion efficiencies of 17.38%and 20.00%(certified 19.70%)are achieved based on PM6/PYF-T-o(all-polymer)and PM6/BTP-eC9 devices casted by toluene solvent.
文摘BACKGROUND Pediatric short bowel syndrome(SBS)poses management challenges,and teduglutide is a potential therapy.However,comprehensive data on its pediatric safety are lacking.AIM To evaluate the impact of teduglutide on infection and gastrointestinal adverse events in pediatric SBS patients via systematic review and meta-analysis.METHODS Following PRISMA 2009 guidelines and PROSPERO registration,we searched PubMed,Web of Science,and EMBASE for randomized controlled trials(RCTs)(pediatric SBS patients≤18 years;teduglutide vs placebo/standard care).Two reviewers screened studies,extracted data,and assessed bias(ROB2).Metaanalyses used RevMan 5.4(Mantel-Haenszel method,random-effects if I^(2)≠0).Trial sequential analysis and GRADE were applied.RESULTS Three RCTs involving 115 pediatric patients were included.Pooled analysis revealed no statistically significant differences between the teduglutide and control groups for the primary outcome of infection events[RR=0.83;(95%CI:0.44-1.56);P=0.57;I^(2)=0%;2 studies,n=55].Similarly,no significant differences were found for secondary outcomes:Upper respiratory tract infection[RR=0.68;(95%CI:0.32-1.47);P=0.33;I^(2)=0%],catheter site infection[RR=1.86;(95%CI:0.23-14.78);P=0.56;I^(2)=0%],vomiting[RR=1.35;(95%CI:0.10-18.23);P=0.82;I^(2)=72%],abdominal pain[RR=2.47;(95%CI:0.50-12.16);P=0.27;I^(2)=0%],nausea[RR=1.31;(95%CI:0.24-7.22);P=0.75;I^(2)=0%],diarrhea[RR=1.02;(95%CI:0.23-4.43);P=0.98;I^(2)=0%],and abdominal distension[RR=1.49;(95%CI:0.18-12.35);P=0.71;I^(2)=0%].The overall certainty of evidence assessed by GRADE was moderate.CONCLUSION Teduglutide does not increase infection or gastrointestinal adverse event risk in pediatric SBS,but small sample sizes limit conclusions.Larger studies are needed.
基金funded by the National Natural Science Foundation of China(Grant Nos.42230808 and 41830425)PetroChina Science and Technology Major Project(Grant No.2021DJ0108).
文摘Due to the complexity of the lithofacies associated with shale oil in saline lacustrine basins,the differences of shale oil occurrence state and its controlling factors in different lithofacies are not completely clear.This hinders efficient shale oil exploration and development.We investigated the shale oil in the Permian Lucaogou Formation in the Jimusar Sag,Junggar Basin,China,based mainly on sequential solvent extraction,petrological,organic geochemical,and nuclear magnetic resonance techniques.The fluidity of extractable organic matter decreased from the first extract to the fourth extract,which was caused by the gradual decrease in the contents of saturated and aromatic hydrocarbons,and gradual increase in the contents of NSO compounds and asphaltenes.The contents of free hydrocarbons(the first and second extracts)and adsorbed hydrocarbons(the third and fourth extracts)are very different among the lithofacies.The free hydrocarbon ratios in the siltstones and carbonate rocks are>70%and the main pore throats are>1μm in size,corresponding to the best sweet spots.The contents of free hydrocarbons in the laminated silty mudstones and shales with bedding fractures are>50%,which are also available.The free hydrocarbons in the siltstones and carbonates are saturated with migrated hydrocarbons,with the contents being more affected by the physical properties of rocks.In contrast,the free hydrocarbons in the mudstones are mainly self-generated and-stored,and their contents are controlled by total organic carbon contents and maturity.For the adsorbed hydrocarbons,the contents in all lithofacies are controlled mainly by the total organic carbon contents.The biomarker parameters record a slight increase in maturity from the fourth to the first extract.The ∑C22-/∑C23+values of n-alkanes in the third extract are the lowest,because carbonate minerals tend to capture long-chain n-alkanes.The sequential solvent extraction method provides new insights into the occurrence state and molecular geochemical characteristics of lacustrine shale oil in different lithofacies.Future exploration should focus on siltstones and carbonate rocks with a relatively high proportion of the first extract(free hydrocarbons occurring in large pores and fractures),and mudstones with a relatively high proportion of the second extract(free to adsorbed hydrocarbons occurring in matrix pores)that are suitable for hydraulic fracturing to aid production.
基金supported by the Tencent Charity Foundationthe Ningxia Hui Autonomous Region Key Research and Development Program(No.2021BEG 02025)+1 种基金the Flexible Introduction of Technological Innovation Teams of Ningxia Hui Autonomous Region(No.2021RXTDLX15)the Natural Science Foundation of China(No.82160644)。
文摘Objective:A risk-based sequential screening strategy,from questionnaire-based assessment to biomarker measurement and then to endoscopic examination,has the potential to enhance gastric cancer(GC)screening efficiency.We aimed to evaluate the ability of five common stomach-specific serum biomarkers to further enrich high-risk individuals for GC in the questionnaire-identified high-risk population.Methods:This study was conducted based on a risk-based screening program in Ningxia Hui Autonomous Region,China.We first performed questionnaire assessment involving 23,381 individuals(7,042 outpatients and 16,339 individuals from the community),and those assessed as“high-risk”were then invited to participate in serological assays and endoscopic examinations.The serological biomarker model was derived based on logistic regression,with predictors selected via the Akaike information criterion.Model performance was evaluated by the area under the receiver operating characteristic curve(AUC).Results:A total of 2,011 participants were ultimately included for analysis.The final serological biomarker model had three predictors,comprising pepsinogenⅠ(PGI),pepsinogenⅠ/Ⅱratio(PGR),and anti-Helicobacter pylori immunoglobulin G(anti-H.pylori IgG)antibodies.This model generated an AUC of 0.733(95%confidence interval:0.655-0.812)and demonstrated the best discriminative ability compared with previously developed serological biomarker models.As the risk cut-off value of our model rose,the detection rate increased and the number of endoscopies needed to detect one case decreased.Conclusions:PGI,PGR,and anti-H.pylori Ig G could be jointly used to further enrich high-risk individuals for GC among those selected by questionnaire assessment,providing insight for the development of a multi-stage riskbased sequential strategy for GC screening.
基金the National Natural Science Foundation of China(Nos.22171147 and 21871148)for the financial support。
文摘Polycyclic compounds are widely found in natural products and drug molecules with important biological activities,which attracted the attention of many chemists.Phosphine-catalyzed nucleophilic addition is one of the most powerful tools for the construction of various cyclic compounds with the advantages of atom economy,mild reaction conditions and simplicity of operation.Allenolates,Morita−Baylis−Hillman(MBH)alcohols and their derivatives(MBHADs),electron-deficient olefins and alkynes are very efficient substrates in phosphine mediated annulations,which formed many phosphonium species such asβ-phosphonium enolates,β-phosphonium dienolates and vinyl phosphonium ylides as intermediates.This review describes the reactivities of these phosphonium zwitterions and summarizes the synthesis of polycycle compounds through phosphine-mediated intramolecular and intermolecular sequential annulations.Thus,a systematic summary of the research process based on the phosphine-mediated sequential annulations of allenolates,MBH alcohols and MBHADs,electron-deficient olefins and alkynes are presented in Chapters 2-6,respectively.
基金supported by the National Key Research and Development Program of China(No.2022YFC2106100)the National Natural Science Foundation of China(No.22078265).
文摘To address postoperative melanoma issues of high recurrence and poor wound healing,we developed a nanocomposite hydrogel wound patch(M_(xNd/yCe)@M SAC)for cascade sequential therapy.Methotrexate(MTX)loaded Nd/Ce-doped mesoporous bioactive glass was encapsulated in a sulfobetaine-polyacrylamide-carboxymethyl chitosan hydrogel via thermal polymerization.Under the acidic microenvironment of the residual tumor,the amide bonds in M_(xNd/yCe)@M SAC are broken,releasing M_(xNd/yCe)@M.M_(xNd/yCe)@M targets tumor cells,and the combined therapy of mild photothermal treatment and chemotherapy ablates tumor cells.Subsequently,the continuously released MTX downregulates the expression of pro-inflammatory factors and reshapes the immune microenvironment.Finally,M_(xNd/yCe)@M disintegrates,releasing Si^(4+),Ca^(2+),P^(5+)and Ce^(3+)ions,which can effectively promote angiogenesis and tissue repair.In the postoperative melanoma model,this method effectively cleared the residual tumors after surgery,shortened the inflammatory period,and promoted tissue regeneration.In conclusion,the nanocomposite hydrogel wound patch for cascade sequential treatment prepared in this study has excellent anti-tumor,immune regulation and tissue repair properties,providing prospective insights for the postoperative treatment of malignant melanoma.
基金supported by the National Social Science Fund of China(24CGL027)the National Natural Science Foundation of China(72101009,72141304,72201122)National Key Research and Development Program of China(2022YFC3303304).
文摘This study uses Baidu News data and introduces a novel proxy for the rate of information flow to examine its relationship with return volatility in Chinese commodity futures and to test two competing hypotheses.We examine the contemporaneous relationships using correlation coefficient analysis,and find apparent differences between the information flow-return volatility relationship and the information flowtrading volume relationship.The empirical evidence contradicts the mixture of distribution hypothesis(MDH)and suggests that the rate of information flow distinctly affects trading volume and volatility.We conducted linear and nonlinear Granger causality tests to explore the sequential information arrival hypothesis(SIAH).The empirical results prove that a lead-lag linear and nonlinear causality exists between the information flow and return volatility of commodity futures,which is consistent with SIAH.In other words,a partial equilibrium exists before reaching the ultimate equilibrium when the new information arrives in the market.Finally,these findings are robust to alternative measurement of return volatility and subperiod analysis.Our findings reject the MDH and support the SIAH in the context of Chinese commodity futures.
基金supported by the National Natural Science Foundation of China(Nos.U2267205 and 12475124)a ZSTU intramural grant(22062267-Y)Excellent Graduate Thesis Cultivation Fund(LW-YP2024011).
文摘Nuclear mass is an important property in both nuclear and astrophysics.In this study,we explore an improved mass model that incorporates a higher-order term of symmetry energy using algorithms.The sequential least squares programming(SLSQP)algorithm augments the precision of this multinomial mass model by reducing the error from 1.863 MeV to 1.631 MeV.These algorithms were further examined using 200 sample mass formulae derived from theδE term of the E_(isospin) mass model.The SLSQP method exhibited superior performance compared to the other algorithms in terms of errors and convergence speed.This algorithm is advantageous for handling large-scale multiparameter optimization tasks in nuclear physics.
文摘BACKGROUND Occult hepatitis B virus infection(OBI)is defined by the detection of replication-competent hepatitis B virus(HBV)DNA in the liver and/or blood despite the ab-sence of detectable hepatitis B surface antigen(HBsAg)using conventional ser-ological assays.Although OBI has been well-documented in individuals with resolved HBV infection or those receiving immunosuppressive therapy,reports of its occurrence during sequential antiviral treatment remain scarce.This report describes a case of chronic hepatitis B(CHB)transitioning through OBI during sequential combination therapy before ultimately achieving a functional cure.This case provides new insights into the emergence of OBI as a transitional phase during CHB treatment and emphasizes the importance of monitoring its clinical significance.CASE SUMMARY A 33-year-old Chinese male was diagnosed with HBV infection in 2001.The patient first presented in 2012 with abnormal liver function tests and received initial treatment with conventional interferon therapy,which failed to achieve a virological response.Antiviral therapy was subsequently switched to entecavir monotherapy.By August 2019,the patient exhibited an HBsAg level of 29.93 IU/mL with undetectable HBV DNA(<25 IU/mL).At this point,combination therapy with entecavir and pegylated interferonα(PEG-IFNα)was initiated.Remarkably,while HBsAg declined to 0.42 IU/mL by April 2020,a paradoxical HBV DNA rebound to 173 IU/mL was observed.The regimen was consequently modified to tenofovir alafenamide and PEG-IFNα.By October 2020,the patient achieved HBsAg seroconversion(HBsAg 0.01 IU/mL,hepatitis B surface antibody 52.18 mIU/mL)for the first time,while maintaining low-level viremia(37 IU/mL),consistent with transition to OBI.The patient was then switched to PEG-IFNαmonotherapy.In November 2021,he discontinued PEG-IFNαtherapy,and one month later,both HBV DNA(<10 IU/mL)and HBsAg(<0.05 IU/mL)were negative.This response has been sustained through follow-up.CONCLUSION This case study illustrates the efficacy of sequential combination therapy in achieving functional cure in CHB patients,including those with a prolonged infection history.It highlights OBI as a transitional yet underrecognized phase during sequential antiviral therapy.While the patient ultimately achieved functional cure,the transient persistence of HBV DNA despite HBsAg clearance suggests the need for continued monitoring.This case provides new insights into OBI development during treatment and underscores the importance of further research into its long-term implications.
基金financially supported by the Sichuan Science and Technology Program(2023NSFSC0990,2023YFH0085,2023YFH0086,and 2023YFH0087)the State Key Laboratory of Polymer Materials Engineering(sklpme2022-3-02,sklpme20232-11,and sklpme2024-2-15)。
文摘Morphological control is recognized as a pivotal factor in developing high-performing solution-processed organic photovoltaics(OPVs).The essence of achieving optimal morphology in a sequentially deposited active layer lies in the precise modulation of the micro-morphology of the donor phase,encompassing molecular arrangement,orientation,and crystalline structure.The micro-morphology of the polymer donor layer plays a significant role in determining the vertical composition distribution and the adequacy of the donor/acceptor(D/A)interfaces.In this work,self-solvent vapor annealing(S-SVA)is employed to meticulously engineer the π-πstacking and crystalline domains of polymer donor PM6.This is accomplished by precisely adjusting the evaporation kinetics of the self-solvent and leveraging the swelling effect induced by residual self-solvents,thereby enhancing the self-assembly of PM6 molecules.The resultant improvements inπ-πstacking and coherence length have led to efficient charge transport.These refinements have translated into a power conversion efficiency of 18.2%,accompanied by an open-circuit voltage of 0.886 V,a short-circuit current density of 25.9 mA cm^(-2),and a fill factor of 79.4%.The straightforward yet impactful method not only enhances film crystallinity and device performance but also holds broad application potential.
文摘The single-point bending method,based on atomic force microscopy(AFM),has been extensively validated for characterizing the structural mechanical properties of micro-and nanobeams.Nevertheless,the influence of AFM probe loading and positioning has yet to be subjected to comprehensive investigation.This paper proposes a novel bending-test method based on sequential loading points,in which a series of evenly distributed loads are applied along the length of the central axis on the upper surface of the cantilever.The preliminary measured values of Young’s modulus for an unknown alloy material were 193,178,and 176 GPa,exhibiting a considerable degree of dispersion.An algorithm for self-correction of the positioning error was developed,and this resulted in a positioning error of 53 nm and a final converged Young’s modulus of 161 GPa.
