Rice-fish coculture(RFC)has aroused extensive concern for its contribution to food security and resource conservation,but whether it can improve soil phosphorus(P)availability and affect microbe-mediated P turnover re...Rice-fish coculture(RFC)has aroused extensive concern for its contribution to food security and resource conservation,but whether it can improve soil phosphorus(P)availability and affect microbe-mediated P turnover remains elusive.Herein,we conducted a microcosm experiment to assess the impacts of RFC combined with(50 mg P kg^(-1)as KH2PO4)and without inorganic P addition on P fractions,P availability,and phoD-harboring bacterial community composition.The results revealed that RFC without P addition significantly improved P availability and phosphatase activity in paddy soil,while soil available P(AP),pH,and microbial biomass P(MBP)contributed to regulating P fractions.Moreover,the phoD-harboring bacterial abundance was linked to phosphatase activity,AP,total carbon(TC),and total P(TP)contents,and the ratios of TC to total nitrogen(TN)and TN to TP.We also found that the keystone taxa of phoD-harboring bacteria contributed to phosphatase production as well as organic P mineralization,thereby improving P availability.Our findings suggest that RFC without P addition is beneficial for promoting the expression of phoD-harboring bacterial functions to improve the capacity of P mineralization.Overall,our study provides insights into the responses of phoD-harboring bacterial functions for P turnover to RFC combined with and without P addition,showing the potential utilization of P resources in agricultural soil and the contribution of phosphatase activity to P acquisition in agriculture ecosystem.展开更多
Vibrational strong coupling(VSC)provides a promising way towards not only enhanced control of infrared light but also reshaping of molecular properties,which opens up unprecedented opportunities in ultrasensitive infr...Vibrational strong coupling(VSC)provides a promising way towards not only enhanced control of infrared light but also reshaping of molecular properties,which opens up unprecedented opportunities in ultrasensitive infrared spectroscopy,modification of chemical reactions,and exploration of nonlinear quantum effects.Surface plasmon resonance,excited on simple plasmonic resonators in the infrared,has been demonstrated as a means to realize VSC,but suffers from either limited quality factor for realizing large Rabi splitting or poor reconfigurability for precise detuning control.Here we propose and experimentally demonstrate,for the first time,an on-chip plasmonic resonator based on degeneracy breaking of Wood’s anomaly for VSC.Leveraging the low damping rate of the surface state induced by this degeneracy breaking,we achieve a plasmonic resonance with a high-Q factor exceeding~110,resulting in a Rabi splitting up to~112 cm^(-1) with a subwavelength molecular layer.Additionally,the dispersion of the surface state allows for precise control over VSC detuning by simply adjusting the incident angle of excitation light,even in the absence of photons,enabling a broad detuning range up to 300 cm^(-1).These experimental results align well with our analytical model and numerical simulation.This work provides a promising integrated platform for VSC,with various potential applications in on-chip spectroscopy,polariton chemistry,and polariton devices.展开更多
Early multiwavelength observations offer crucial insights into the nature of the relativistic jets responsible for gamma-ray bursts and their interaction with the surrounding medium.We present data of GRB 240825A from...Early multiwavelength observations offer crucial insights into the nature of the relativistic jets responsible for gamma-ray bursts and their interaction with the surrounding medium.We present data of GRB 240825A from 17 space-and ground-based telescopes/instruments,covering wavelengths from NIR/optical to X-ray and GeV,and spanning from the prompt emission to the afterglow phase triggered by Swift and Fermi.The early afterglow observations were carried out by SVOM/C-GFT,and spectroscopic observations of the afterglow by GTC,VLT,and TNG determined the redshift of the burst(z=0.659)later.A comprehensive analysis of the prompt emission spectrum observed by Swift-BAT and Fermi-GBM/LAT reveals a rare and significant high-energy cutoff at 76 MeV.Assuming this cutoff is due toγγabsorption allows us to place an upper limit on the initial Lorentz factor,Γ_(0)<245.The optical/NIR and GeV afterglow light curves can be described by the standard external shock model,with early-time emission dominated by a reverse shock(RS)and a subsequent transition to forward shock(FS)emission.Our afterglow modeling yields a consistent estimate of the initial Lorentz factor(Γ_(0)∼234).Furthermore,the RS-to-FS magnetic field ratio(R 302B)indicates that the RS region is significantly more magnetized than the FS region.An isotropic-equivalent kinetic energy of E_(k,iso)=5.25×10^(54) erg is derived,and the correspondingγ-ray radiation efficiency is estimated to beη_(γ)=3.1%.On the other hand,the standard afterglow model cannot reproduce the X-ray light curve of GRB 240825A,calling for improved models to characterize all multiwavelength data.展开更多
BACKGROUND In diabetic patients,persistent hyperglycemia creates an optimal environment for the proliferation of pathogenic bacteria,resulting in severe complications.Con-sequently,chronic rhinosinusitis(CRS)complicat...BACKGROUND In diabetic patients,persistent hyperglycemia creates an optimal environment for the proliferation of pathogenic bacteria,resulting in severe complications.Con-sequently,chronic rhinosinusitis(CRS)complicated by diabetes is highly pre-valent in clinical settings.AIM To analyze the results of nasal secretion cultures in diabetic patients with CRS and identify the factors influencing postoperative recurrence.METHODS A retrospective analysis was conducted on the clinical data of 203 diabetic pa-tients with CRS with nasal polyps who underwent the Messerklinger technique at Qingdao Hiser Hospital Affiliated of Qingdao University between January 2021 and January 2023.Preoperative nasal secretions were cultured to determine the types and distribution of pathogenic bacteria and assess antimicrobial suscept-ibility.Based on a one-year follow-up,patients were categorized into recurrence and nonrecurrence groups to analyze differences in their clinical data.Univariate and multivariate analyses were used to identify factors influencing postoperative recurrence.RESULTS Pathogens were detected in 153 of the 203 nasal secretion specimens collected from diabetic patients with CRS.A total of 134 pathogenic bacteria strains were isolated and identified,including 81 strains(60.4%)of gram-positive bacteria and 53 strains(39.6%)of gram-negative bacteria.Gram-positive bacteria exhibited relatively high resistance to penicillin G and erythromycin,while remaining highly sensitive to vancomycin,gentamicin,and rifampicin.Gram-negative bacteria demonstrated relatively high resistance to cefazolin and gentamicin,but showed high sensitivity to imipenem,meropenem,cefepime,and ceftazidime.Univariate analysis revealed statistically significant differences between the recurrence and nonrecurrence groups in fasting blood glucose levels,smoking history,Lund-Mackay scores,visual analog scale(VAS)scores,nasal septum deviation,allergic rhinitis,bronchial asthma,postoperative infection,long-term use of nasal decongestants,and adherence to medical prescriptions.Multivariate regression analysis identified fasting blood glucose levels and VAS-measured nasal symptom severity scores as independent factors influencing postoperative recurrence.CONCLUSION In CRS patients with nasal polyps(CRSwNP),the detection rate of nasal pathogens is relatively high,and most of the isolated bacteria exhibit antimicrobial resistance.Additionally,the blood glucose level of patients with CRS combined with CRSwNP is a risk factor for postoperative recurrence.展开更多
Wound management remains significant challenges,encompassing numerous risks such as infection,antibiotic resistance,tissue adhesion,ischemia,hypoxia,and inflammatory responses.These complications are particularly acut...Wound management remains significant challenges,encompassing numerous risks such as infection,antibiotic resistance,tissue adhesion,ischemia,hypoxia,and inflammatory responses.These complications are particularly acute in cases of bacterial infection,where conventional treatment modalities may fail to provide adequate efficacy.To address these challenges,this study introduces phytic acid(PA)@ε-polylysine(Ply)@curcumin(Cur)@Zn@Gauze(PPCZ@Gauze),an innovative multifunctional gauze tailored to enhance wound healing.PPCZ@Gauze is designed and prepared using biosafe materials(phytic acid,ε-polylysine,curcumin,and zinc ions)through advanced surface modification techniques.Both in vitro and in vivo experiments demonstrate remarkable antibacterial properties,reduced tissue adhesion,and accelerated wound healing capabilities of PPCZ@Gauze compared to conventional medical gauze.Notably,PPCZ@Gauze also exhibits ease of preparation,cost-effectiveness,and scalability for large-scale production.Overall,this innovative multifunctional gauze offers a promising solution for managing bacterial infection wounds,leading to enhanced therapeutic outcomes and patient care.展开更多
The dynamics of network power response play a crucial role in system stability.However,the integration of power electronic equipment leads to amplitude and angular frequency(abbreviated as"frequency")time-va...The dynamics of network power response play a crucial role in system stability.However,the integration of power electronic equipment leads to amplitude and angular frequency(abbreviated as"frequency")time-varying characteristics of the node voltage during dynamic processes.As a result,traditional calcu-lation methods for and characteristics of the power response of the network based on phasor and impe-dance lose their validity.Therefore,this paper undertakes mathematical calculations to reveal the power response of a network under excitation by voltage with time-varying amplitude and frequency(TVAF),relying on the original mathematical relationships and superimposed step response.Then,the multi-timescale characteristics of both the active and reactive power of the network are explored physically.Additionally,this paper reveals a new phenomenon of storing and releasing the active and reactive power of the network.To meet practical engineering requirements,a simplified power expression is presented.Finally,the theoretical analysis is validated through time-domain simulations.展开更多
This study reports the response of helium(He)ion irradiation on binary-phase structured alloy V_(34)Ti_(25)Cr_(10)Ni_(30)Pd1.The alloy consists of a VCr matrix with nano-sized TiNi precipitates and a B2 TiNi matrix wi...This study reports the response of helium(He)ion irradiation on binary-phase structured alloy V_(34)Ti_(25)Cr_(10)Ni_(30)Pd1.The alloy consists of a VCr matrix with nano-sized TiNi precipitates and a B2 TiNi matrix with nano-sized VCr precipitates.VCr is chemical-disordered and TiNi has a B2-ordered structure.The alloy was subjected to 400 keV He ion irradiation with a fluence of 1×10^(17)ions cm^(−2)at 450℃.The results show He bubbles within the chemical-disordered VCr matrix exhibit a near-spherical shape with a smaller size and higher density compared to that in chemical-ordered TiNi phase with a larger size,lower density,and faceted shape.This indicates the chemical-disordered VCr phase effectively suppresses He accumulation compared to the B2-ordered TiNi phase,emphasizing the dominance of chemical struc-tures in He bubble formation.The calculation of density functional theory(DFT)shows that Ti and Ni have lower vacancy formation energy than that of V and Cr,respectively,which results in the increased vacancy production in TiNi.Consequently,He bubbles in TiNi have a larger bubble size consistent with experimental observations of radiation-induced Ni segregation.These findings elucidate the roles of or-dered and disordered chemical structures in He bubble evolution,offering insights for the development of gas ion irradiation-resistant materials.展开更多
High-speed imaging is crucial for understanding the transient dynamics of the world,but conventional frame-by-frame video acquisition is limited by specialized hardware and substantial data storage requirements.We int...High-speed imaging is crucial for understanding the transient dynamics of the world,but conventional frame-by-frame video acquisition is limited by specialized hardware and substantial data storage requirements.We introduce“SpeedShot,”a computational imaging framework for efficient high-speed video imaging.SpeedShot features a low-speed dual-camera setup,which simultaneously captures two temporally coded snapshots.Cross-referencing these two snapshots extracts a multiplexed temporal gradient image,producing a compact and multiframe motion representation for video reconstruction.Recognizing the unique temporal-only modulation model,we propose an explicable motion-guided scale-recurrent transformer for video decoding.It exploits cross-scale error maps to bolster the cycle consistency between predicted and observed data.Evaluations on both simulated datasets and real imaging setups demonstrate SpeedShot’s effectiveness in video-rate up-conversion,with pronounced improvement over video frame interpolation and deblurring methods.The proposed framework is compatible with commercial low-speed cameras,offering a versatile low-bandwidth alternative for video-related applications,such as video surveillance and sports analysis.展开更多
Mycotoxins are the most widely existing pollutants in both dietary provisions and livestock feed,and they pose a series of hazards for humans and animals.Deoxynivalenol(DON)is a prevalent mycotoxin that is primarily p...Mycotoxins are the most widely existing pollutants in both dietary provisions and livestock feed,and they pose a series of hazards for humans and animals.Deoxynivalenol(DON)is a prevalent mycotoxin that is primarily produced by Fusarium spp.and commonly found in various cereal products.Feeding swine diets contaminated with trichothecene DON can lead to major adverse effects,including reduced feed intake,diminished weight gains,and compromised immune function.Among all animal species,swine are the most sensitive to DON.Here we explore the disruption of gut health by DON,considering aspects such as intestinal histomorphology,epithelial barrier functions,immune system,microflora,and short-chain fatty acid production in the intestines.Numerous additives have been documented for their potential in the detoxification of DON.These additives can alleviate the toxic effects of DON on pigs by modulating the Nrf2-Keap1,mitogen-activated protein kinases(MAPKs)and Nuclear factor kappa-B(NF-κB)signaling pathways.Additionally,there are additives capable of mitigating the toxicity of DON through adsorption or biotransformation.This update has novel potential for advancing our comprehension of the mechanisms linked to DON intestinal toxicity and facilitating the formulation of innovative strategies to mitigate the impact of DON.展开更多
Multiband afterglow observations of gamma-ray bursts(GRBs)are important for studying the central engine.GRB 201223A is a GRB with prompt optical detection by GWAC.Here we report on the early optical afterglow of GRB 2...Multiband afterglow observations of gamma-ray bursts(GRBs)are important for studying the central engine.GRB 201223A is a GRB with prompt optical detection by GWAC.Here we report on the early optical afterglow of GRB 201223A detected by NEXT(only 2.8 minutes after the Swift/BAT trigger),which smoothly connects the prompt optical emission and the afterglow phase.Utilizing Amati diagrams and considering the detection of afterglow emission in the Swift u-band,we suggest a redshift range of 0.26–1.85.Based on our optical data and combined with early optical observation from GWAC and early X-ray data from Swift/XRT,a multiband fitting is performed using PyFRS,and we obtain the best afterglow parameters(assuming a redshift of z=1.0):=5.01+10/_(1.70)^(1.91)×^(54)erg,G=-426.58+_(138.18)/^(148.86),θj=-25.98+_(-10.54)^/(9.67)deg,=-n0=0.30+_(-0.26)^(+3.78)cm^(−3),=-p2.32+_(-0.01)/^(+0.01),εe=-3.31+_(-0.86)/^(+1.59)×10^(-5),εB=-3.47+_(-2.62)/^(+4.12)×10^(-1).The late-time X-ray shows a re-brightening,indicating late-time central engine activities.After comparing the leading two central engine models,i.e.,magnetar model and hyperaccreting black hole model,we find that the fallback accretion onto a newborn black hole provides a better explanation for the X-ray re-brightening with fallback accretion rate Mp≈2.76×10^(-9)M⊙s^(-1)and the total fallback accreted mass Mfb≈1.41×10^(−6)M⊙.展开更多
Background: With the development of high quality nursing service, hospitals put forward higher requirements for nurses’ service level. In recent years, the number and quality of specialized nurses remain to be improv...Background: With the development of high quality nursing service, hospitals put forward higher requirements for nurses’ service level. In recent years, the number and quality of specialized nurses remain to be improved despite the remarkable achievements in the construction of specialized nurses. Objective: This study intended to explore a standardized training mode for nurses oriented by training and assessment of nursespecialty knowledge and to summarize the practical experience of this mode. Methods: The training and assessment program was formulated by starting from the objectives of training clinical front-line nursing staff in our hospital, and the standard training and assessment were carried out from four aspects: the specialized disease knowledge, the condition observation and reporting ability, emergency and severe disease nursing, and perioperative accelerated rehabilitation guidance. These four items are hereinafter referred to as “Four Passes” training and assessment, and it was practiced in the assessment and training of nurses in our hospital from 2020 to 2022. Results: A total of 915 front-line caregivers were surveyed in our study, including 772 nurses and 143 doctors. After two years of implementation, the self-evaluation of nurses increased from (2.96 ± 0.79) points to (3.64 ± 0.78) points, and the evaluation score by doctors increased from (3.94 ± 0.74) points to (4.26 ± 0.72) points. The core competence of specialty increased from (69.22 ± 16.53) points to (85.42 ± 14.44) points. The scores of all dimensions after training were higher than those before training, with statistical significances. Conclusion: The “Four Passes” training and assessment of nurse specialty knowledge can fully mobilize the enthusiasm of managers and nurses in all departments, ensure solid specialty knowledge, improve nurses’ core competence, improve nursing quality, and create a harmonious relationship between nurses and patients as well as between doctors and patients.展开更多
基金supported by the Key-Area Research and Development Program of Guangdong Province,China(No.2021B0202030002)the Science and Technology Planning Project of Guangdong Province,China(No.2019B030301007)+2 种基金the Guangdong Provincial Special Project of Rural Revitalization Strategy,China(No.(2021)12)the Joint Team Project of Guangdong Laboratory for Lingnan Modern Agriculture,China(No.NT2021010)the Innovation Team Construction Project of Modern Agricultural Industry Technology Systems of Guangdong Province,China(No.2022KJ105).
文摘Rice-fish coculture(RFC)has aroused extensive concern for its contribution to food security and resource conservation,but whether it can improve soil phosphorus(P)availability and affect microbe-mediated P turnover remains elusive.Herein,we conducted a microcosm experiment to assess the impacts of RFC combined with(50 mg P kg^(-1)as KH2PO4)and without inorganic P addition on P fractions,P availability,and phoD-harboring bacterial community composition.The results revealed that RFC without P addition significantly improved P availability and phosphatase activity in paddy soil,while soil available P(AP),pH,and microbial biomass P(MBP)contributed to regulating P fractions.Moreover,the phoD-harboring bacterial abundance was linked to phosphatase activity,AP,total carbon(TC),and total P(TP)contents,and the ratios of TC to total nitrogen(TN)and TN to TP.We also found that the keystone taxa of phoD-harboring bacteria contributed to phosphatase production as well as organic P mineralization,thereby improving P availability.Our findings suggest that RFC without P addition is beneficial for promoting the expression of phoD-harboring bacterial functions to improve the capacity of P mineralization.Overall,our study provides insights into the responses of phoD-harboring bacterial functions for P turnover to RFC combined with and without P addition,showing the potential utilization of P resources in agricultural soil and the contribution of phosphatase activity to P acquisition in agriculture ecosystem.
基金supported by the National Key Research and Development Program of China(Grant No.2024YFE0105200)the National Nature Science Foundation of China(Grant No.62405284)+2 种基金the Key Research and Development Program of Henan Province(Grant No.241111220600)the JSPS KAKENHI(Grant No.JP20K14785)the Murata Science Foundation.
文摘Vibrational strong coupling(VSC)provides a promising way towards not only enhanced control of infrared light but also reshaping of molecular properties,which opens up unprecedented opportunities in ultrasensitive infrared spectroscopy,modification of chemical reactions,and exploration of nonlinear quantum effects.Surface plasmon resonance,excited on simple plasmonic resonators in the infrared,has been demonstrated as a means to realize VSC,but suffers from either limited quality factor for realizing large Rabi splitting or poor reconfigurability for precise detuning control.Here we propose and experimentally demonstrate,for the first time,an on-chip plasmonic resonator based on degeneracy breaking of Wood’s anomaly for VSC.Leveraging the low damping rate of the surface state induced by this degeneracy breaking,we achieve a plasmonic resonance with a high-Q factor exceeding~110,resulting in a Rabi splitting up to~112 cm^(-1) with a subwavelength molecular layer.Additionally,the dispersion of the surface state allows for precise control over VSC detuning by simply adjusting the incident angle of excitation light,even in the absence of photons,enabling a broad detuning range up to 300 cm^(-1).These experimental results align well with our analytical model and numerical simulation.This work provides a promising integrated platform for VSC,with various potential applications in on-chip spectroscopy,polariton chemistry,and polariton devices.
基金supported by the National Key R&D Program of China(grant No.2024YFA1611600)the SVOM project(a mission under the Strategic Priority Program on Space Science of the Chinese Academy of Sciences)+23 种基金the Strategic Priority Research Program of the Chinese Academy of Sciences(grant No.XDB0550401)the National Natural Science Foundation of China(NSFC,grant No.12494573)partly supported by Natural Science Foundation of Xinjiang Uygur Autonomous Region(grant No.2024D01D32)Tianshan Talent Training Program(grant No.2023TSYCLJ0053)Tianshan Innovation Team Program(grant No.2024D14015)supported by the Jiangsu Funding Program for Excellent Postdoctoral Talent(grant No.2024ZB110)the Postdoctoral Fellowship Program(grant No.GZC20241916)the General Fund(grant No.2024M763531)of the China Postdoctoral Science Foundationsupported by a Royal Society Dorothy Hodgkin Fellowship(grant Nos.DHF-R1-221175 and DHF-ERE-221005)support by a postdoctoral fellowship from the CNESsupported by the National Key R&D Program of China(grant No.2024YFA1611702)the Strategic Priority Research Program of the Chinese Academy of Sciences(grant No.XDB0550101)the support of the French Agence Nationale de la Recherche(ANR),under grant ANR-23-CE31-0011(project PEGaSUS)financial support from the GRAWITA Large Program Grant(PI P.D’Avanzo)financial support from the Italian Space Agency,contract ASI/INAF No.I/004/11/6support from the INAF project Premiale Supporto Arizona&Italiasupported by the National Natural Science Foundation of China(NSFC,grant No.12133003)supported by the National Natural Science Foundation of China(NSFC,grant No.12373042)the Bagui Scholars Program(No.GXR-6BG2424001)funded by the European Union(ERC,HEAVYMETAL,101071865,Views and opinions expressed are,however,those of the authors only and do not necessarily reflect those of the European Union or the European Research Council Neither the European Union nor the granting authority can be held responsible for them)the Cosmic Dawn Center(DAWN)is funded by the Danish National Research Foundation under grant No.DNRF140supported by the National Natural Science Foundation of China(NSFC,grant Nos.12225305 and 12321003)supported by the National Natural Science Foundation of China(NSFC,grant No.12473049)supported by the General Fund(grant No.2024M763530)of the China Postdoctoral Science Foundation。
文摘Early multiwavelength observations offer crucial insights into the nature of the relativistic jets responsible for gamma-ray bursts and their interaction with the surrounding medium.We present data of GRB 240825A from 17 space-and ground-based telescopes/instruments,covering wavelengths from NIR/optical to X-ray and GeV,and spanning from the prompt emission to the afterglow phase triggered by Swift and Fermi.The early afterglow observations were carried out by SVOM/C-GFT,and spectroscopic observations of the afterglow by GTC,VLT,and TNG determined the redshift of the burst(z=0.659)later.A comprehensive analysis of the prompt emission spectrum observed by Swift-BAT and Fermi-GBM/LAT reveals a rare and significant high-energy cutoff at 76 MeV.Assuming this cutoff is due toγγabsorption allows us to place an upper limit on the initial Lorentz factor,Γ_(0)<245.The optical/NIR and GeV afterglow light curves can be described by the standard external shock model,with early-time emission dominated by a reverse shock(RS)and a subsequent transition to forward shock(FS)emission.Our afterglow modeling yields a consistent estimate of the initial Lorentz factor(Γ_(0)∼234).Furthermore,the RS-to-FS magnetic field ratio(R 302B)indicates that the RS region is significantly more magnetized than the FS region.An isotropic-equivalent kinetic energy of E_(k,iso)=5.25×10^(54) erg is derived,and the correspondingγ-ray radiation efficiency is estimated to beη_(γ)=3.1%.On the other hand,the standard afterglow model cannot reproduce the X-ray light curve of GRB 240825A,calling for improved models to characterize all multiwavelength data.
文摘BACKGROUND In diabetic patients,persistent hyperglycemia creates an optimal environment for the proliferation of pathogenic bacteria,resulting in severe complications.Con-sequently,chronic rhinosinusitis(CRS)complicated by diabetes is highly pre-valent in clinical settings.AIM To analyze the results of nasal secretion cultures in diabetic patients with CRS and identify the factors influencing postoperative recurrence.METHODS A retrospective analysis was conducted on the clinical data of 203 diabetic pa-tients with CRS with nasal polyps who underwent the Messerklinger technique at Qingdao Hiser Hospital Affiliated of Qingdao University between January 2021 and January 2023.Preoperative nasal secretions were cultured to determine the types and distribution of pathogenic bacteria and assess antimicrobial suscept-ibility.Based on a one-year follow-up,patients were categorized into recurrence and nonrecurrence groups to analyze differences in their clinical data.Univariate and multivariate analyses were used to identify factors influencing postoperative recurrence.RESULTS Pathogens were detected in 153 of the 203 nasal secretion specimens collected from diabetic patients with CRS.A total of 134 pathogenic bacteria strains were isolated and identified,including 81 strains(60.4%)of gram-positive bacteria and 53 strains(39.6%)of gram-negative bacteria.Gram-positive bacteria exhibited relatively high resistance to penicillin G and erythromycin,while remaining highly sensitive to vancomycin,gentamicin,and rifampicin.Gram-negative bacteria demonstrated relatively high resistance to cefazolin and gentamicin,but showed high sensitivity to imipenem,meropenem,cefepime,and ceftazidime.Univariate analysis revealed statistically significant differences between the recurrence and nonrecurrence groups in fasting blood glucose levels,smoking history,Lund-Mackay scores,visual analog scale(VAS)scores,nasal septum deviation,allergic rhinitis,bronchial asthma,postoperative infection,long-term use of nasal decongestants,and adherence to medical prescriptions.Multivariate regression analysis identified fasting blood glucose levels and VAS-measured nasal symptom severity scores as independent factors influencing postoperative recurrence.CONCLUSION In CRS patients with nasal polyps(CRSwNP),the detection rate of nasal pathogens is relatively high,and most of the isolated bacteria exhibit antimicrobial resistance.Additionally,the blood glucose level of patients with CRS combined with CRSwNP is a risk factor for postoperative recurrence.
基金supported by Shanghai Special Project on Artificial Intelligence Facilitating the Reform of Scientific Research Paradigms to Empower Disciplinary Advancement(No.Z-2024-114-022)the Horizontal Project of Fuzhou Water Quality Monitoring Co.,Ltd.(No.H-2025-312-012)+2 种基金the General Program of the National Natural Science Foundation of China(No.82073266)Science and Technology Research Project of Jiangxi Provincial Department of Education(No.GJJ2201639)the Doctoral Research Start-up Fund Project of Jinggangshan University(No.JZB2117).
文摘Wound management remains significant challenges,encompassing numerous risks such as infection,antibiotic resistance,tissue adhesion,ischemia,hypoxia,and inflammatory responses.These complications are particularly acute in cases of bacterial infection,where conventional treatment modalities may fail to provide adequate efficacy.To address these challenges,this study introduces phytic acid(PA)@ε-polylysine(Ply)@curcumin(Cur)@Zn@Gauze(PPCZ@Gauze),an innovative multifunctional gauze tailored to enhance wound healing.PPCZ@Gauze is designed and prepared using biosafe materials(phytic acid,ε-polylysine,curcumin,and zinc ions)through advanced surface modification techniques.Both in vitro and in vivo experiments demonstrate remarkable antibacterial properties,reduced tissue adhesion,and accelerated wound healing capabilities of PPCZ@Gauze compared to conventional medical gauze.Notably,PPCZ@Gauze also exhibits ease of preparation,cost-effectiveness,and scalability for large-scale production.Overall,this innovative multifunctional gauze offers a promising solution for managing bacterial infection wounds,leading to enhanced therapeutic outcomes and patient care.
基金supported in part by the National Natural Science Fundation of China(52225704 and 52107096).
文摘The dynamics of network power response play a crucial role in system stability.However,the integration of power electronic equipment leads to amplitude and angular frequency(abbreviated as"frequency")time-varying characteristics of the node voltage during dynamic processes.As a result,traditional calcu-lation methods for and characteristics of the power response of the network based on phasor and impe-dance lose their validity.Therefore,this paper undertakes mathematical calculations to reveal the power response of a network under excitation by voltage with time-varying amplitude and frequency(TVAF),relying on the original mathematical relationships and superimposed step response.Then,the multi-timescale characteristics of both the active and reactive power of the network are explored physically.Additionally,this paper reveals a new phenomenon of storing and releasing the active and reactive power of the network.To meet practical engineering requirements,a simplified power expression is presented.Finally,the theoretical analysis is validated through time-domain simulations.
基金supported by the National Magnetic Con-finement Fusion Energy Research Project from the Ministry of Science and Technology of China(No.2022YFE03030004 and 2019YFE03120003)the National Natural Science Foundation of China(No.12275010,12275176,12275001,12335017,11921006,U21B2082,U22B2064 and U20B2025)+3 种基金the Beijing Municipal Natural Science Foundation(No.1222023)the Shenzhen Science and Technology Program(No.RCYX20210609103904028)Engang Fu acknowledges the support from the Science Fund or Creative Research Groups of NSFC,the Ion Beam Materials Laboratory(IBML)and Electron Microscopy Laboratory(EML)the High-performance Computing Platform(HPC)at Peking University.Xing Liu acknowledges the discussion with Prof.Ning Gao and Dr.Yifan Zhang.
文摘This study reports the response of helium(He)ion irradiation on binary-phase structured alloy V_(34)Ti_(25)Cr_(10)Ni_(30)Pd1.The alloy consists of a VCr matrix with nano-sized TiNi precipitates and a B2 TiNi matrix with nano-sized VCr precipitates.VCr is chemical-disordered and TiNi has a B2-ordered structure.The alloy was subjected to 400 keV He ion irradiation with a fluence of 1×10^(17)ions cm^(−2)at 450℃.The results show He bubbles within the chemical-disordered VCr matrix exhibit a near-spherical shape with a smaller size and higher density compared to that in chemical-ordered TiNi phase with a larger size,lower density,and faceted shape.This indicates the chemical-disordered VCr phase effectively suppresses He accumulation compared to the B2-ordered TiNi phase,emphasizing the dominance of chemical struc-tures in He bubble formation.The calculation of density functional theory(DFT)shows that Ti and Ni have lower vacancy formation energy than that of V and Cr,respectively,which results in the increased vacancy production in TiNi.Consequently,He bubbles in TiNi have a larger bubble size consistent with experimental observations of radiation-induced Ni segregation.These findings elucidate the roles of or-dered and disordered chemical structures in He bubble evolution,offering insights for the development of gas ion irradiation-resistant materials.
基金supported by the National Natural Science Foundation of China(Grant No.62305184)the Basic and Applied Basic Research Foundation of Guangdong Province(Grant No.2023A1515012932)+7 种基金the Science,Technology,and Innovation Commission of Shenzhen Municipality(Grant No.JCYJ20241202123919027)the Major Key Project of Pengcheng Laboratory(Grant No.PCL2024A1)the Science Fund for Distinguished Young Scholars of Zhejiang Province(Grant No.LR23F010001)the Research Center for Industries of the Future(RCIF)at Westlake University and and the Key Project of Westlake Institute for Optoelectronics(Grant No.2023GD007)the Zhejiang“Pioneer”and“Leading Goose”R&D Program(Grant Nos.2024SDXHDX0006 and 2024C03182)the Ningbo Science and Technology Bureau“Science and Technology Yongjiang 2035”Key Technology Breakthrough Program(Grant No.2024Z126)the Research Grants Council of the Hong Kong Special Administrative Region,China(Grant Nos.C5031-22G,CityU11310522,and CityU11300123)the City University of Hong Kong(Grant No.9610628).
文摘High-speed imaging is crucial for understanding the transient dynamics of the world,but conventional frame-by-frame video acquisition is limited by specialized hardware and substantial data storage requirements.We introduce“SpeedShot,”a computational imaging framework for efficient high-speed video imaging.SpeedShot features a low-speed dual-camera setup,which simultaneously captures two temporally coded snapshots.Cross-referencing these two snapshots extracts a multiplexed temporal gradient image,producing a compact and multiframe motion representation for video reconstruction.Recognizing the unique temporal-only modulation model,we propose an explicable motion-guided scale-recurrent transformer for video decoding.It exploits cross-scale error maps to bolster the cycle consistency between predicted and observed data.Evaluations on both simulated datasets and real imaging setups demonstrate SpeedShot’s effectiveness in video-rate up-conversion,with pronounced improvement over video frame interpolation and deblurring methods.The proposed framework is compatible with commercial low-speed cameras,offering a versatile low-bandwidth alternative for video-related applications,such as video surveillance and sports analysis.
基金supported by the National Key Research and Development Program of China(2021YFD1301003)the Beijing University of Agriculture Science and Technology Innovation“Spark Action”Support Program,China(BUA-HHXD2022011)the key research and development Program of Shaanxi Province,China(2022NY-095)。
文摘Mycotoxins are the most widely existing pollutants in both dietary provisions and livestock feed,and they pose a series of hazards for humans and animals.Deoxynivalenol(DON)is a prevalent mycotoxin that is primarily produced by Fusarium spp.and commonly found in various cereal products.Feeding swine diets contaminated with trichothecene DON can lead to major adverse effects,including reduced feed intake,diminished weight gains,and compromised immune function.Among all animal species,swine are the most sensitive to DON.Here we explore the disruption of gut health by DON,considering aspects such as intestinal histomorphology,epithelial barrier functions,immune system,microflora,and short-chain fatty acid production in the intestines.Numerous additives have been documented for their potential in the detoxification of DON.These additives can alleviate the toxic effects of DON on pigs by modulating the Nrf2-Keap1,mitogen-activated protein kinases(MAPKs)and Nuclear factor kappa-B(NF-κB)signaling pathways.Additionally,there are additives capable of mitigating the toxicity of DON through adsorption or biotransformation.This update has novel potential for advancing our comprehension of the mechanisms linked to DON intestinal toxicity and facilitating the formulation of innovative strategies to mitigate the impact of DON.
基金supported by the MINECO/FEDER through grant AyA2017-84089.7the science research grants from the China Manned Space Project with NO.CMSCSST-2021-A13CMS-CSST-2021-B11.W.H.Lei acknowledges support by the National Key R&D Program of China(No.2020YFC2201400)。
文摘Multiband afterglow observations of gamma-ray bursts(GRBs)are important for studying the central engine.GRB 201223A is a GRB with prompt optical detection by GWAC.Here we report on the early optical afterglow of GRB 201223A detected by NEXT(only 2.8 minutes after the Swift/BAT trigger),which smoothly connects the prompt optical emission and the afterglow phase.Utilizing Amati diagrams and considering the detection of afterglow emission in the Swift u-band,we suggest a redshift range of 0.26–1.85.Based on our optical data and combined with early optical observation from GWAC and early X-ray data from Swift/XRT,a multiband fitting is performed using PyFRS,and we obtain the best afterglow parameters(assuming a redshift of z=1.0):=5.01+10/_(1.70)^(1.91)×^(54)erg,G=-426.58+_(138.18)/^(148.86),θj=-25.98+_(-10.54)^/(9.67)deg,=-n0=0.30+_(-0.26)^(+3.78)cm^(−3),=-p2.32+_(-0.01)/^(+0.01),εe=-3.31+_(-0.86)/^(+1.59)×10^(-5),εB=-3.47+_(-2.62)/^(+4.12)×10^(-1).The late-time X-ray shows a re-brightening,indicating late-time central engine activities.After comparing the leading two central engine models,i.e.,magnetar model and hyperaccreting black hole model,we find that the fallback accretion onto a newborn black hole provides a better explanation for the X-ray re-brightening with fallback accretion rate Mp≈2.76×10^(-9)M⊙s^(-1)and the total fallback accreted mass Mfb≈1.41×10^(−6)M⊙.
文摘Background: With the development of high quality nursing service, hospitals put forward higher requirements for nurses’ service level. In recent years, the number and quality of specialized nurses remain to be improved despite the remarkable achievements in the construction of specialized nurses. Objective: This study intended to explore a standardized training mode for nurses oriented by training and assessment of nursespecialty knowledge and to summarize the practical experience of this mode. Methods: The training and assessment program was formulated by starting from the objectives of training clinical front-line nursing staff in our hospital, and the standard training and assessment were carried out from four aspects: the specialized disease knowledge, the condition observation and reporting ability, emergency and severe disease nursing, and perioperative accelerated rehabilitation guidance. These four items are hereinafter referred to as “Four Passes” training and assessment, and it was practiced in the assessment and training of nurses in our hospital from 2020 to 2022. Results: A total of 915 front-line caregivers were surveyed in our study, including 772 nurses and 143 doctors. After two years of implementation, the self-evaluation of nurses increased from (2.96 ± 0.79) points to (3.64 ± 0.78) points, and the evaluation score by doctors increased from (3.94 ± 0.74) points to (4.26 ± 0.72) points. The core competence of specialty increased from (69.22 ± 16.53) points to (85.42 ± 14.44) points. The scores of all dimensions after training were higher than those before training, with statistical significances. Conclusion: The “Four Passes” training and assessment of nurse specialty knowledge can fully mobilize the enthusiasm of managers and nurses in all departments, ensure solid specialty knowledge, improve nurses’ core competence, improve nursing quality, and create a harmonious relationship between nurses and patients as well as between doctors and patients.
