The retrospective study by Edwar et al reinforces the role of therapeutic penetrating keratoplasty(PK)as a vital intervention in severe,treatment-resistant infectious keratitis.In advanced cases—often complicated by ...The retrospective study by Edwar et al reinforces the role of therapeutic penetrating keratoplasty(PK)as a vital intervention in severe,treatment-resistant infectious keratitis.In advanced cases—often complicated by trauma,delayed presentation,and corneal perforation—PK restores globe integrity and provides limited visual recovery.However,its application is constrained by graft-related complications and donor shortages,particularly in low-resource settings.These limitations highlight the need for earlier,globe-sparing strategies to prevent progression and reduce surgical demand.Photoactivated chromophore for infectious keratitis-corneal collagen cross-linking(PACK-CXL)has emerged as a promising adjunct or alternative.With both antimicrobial and tissue-stabilizing effects,PACK-CXL may control infection and preserve corneal structure in earlier stages.A layered treatment framework that incorporates PACK-CXL as an initial intervention and reserves PK for refractory cases may help improve clinical outcomes.Further studies are needed to define their best use in practice.展开更多
Global environmental changes including climate warming,extreme weather events,ambient air pollution,freshwater contamination,and landscape transformation are reshaping the epidemiology of infectious diseases with unpr...Global environmental changes including climate warming,extreme weather events,ambient air pollution,freshwater contamination,and landscape transformation are reshaping the epidemiology of infectious diseases with unprecedented complexity,particularly in the post-COVID-19 era.This review synthesizes evidence from the past decade(2015-2024)to systematically elucidate how key environmental drivers modulate pathogen emergence,transmission dynamics,and clinical outcomes,with a focus on underlying mechanistic pathways.Specifically,we highlight:(1)the temperature-and precipitation-dependent transmission of vector-borne diseases(e.g.,malaria,dengue)via expanded vector habitats and accelerated pathogen incubation;(2)the exacerbation of respiratory infections(including COVID-19)by particulate matter(PM2.5)and nitrogen dioxide(NO2)through impaired mucosal immunity and enhanced inflammatory responses;(3)the persistence of diarrheal diseases in low-and middle-income countries(LMICs)linked to water insecurity and climate-induced infrastructure failure;and(4)zoonotic spillover risks amplified by urbanization and deforestation-driven human-wildlife interface disruption.Integrating the One Health socioecological framework,we further summarize methodological advances from high-resolution genomic surveillance to climate-informed machine learning models that have improved causal inference and predictive accuracy.Our synthesis confirms that environmental factors are not merely contextual but central,modifiable determinants of infectious disease risk,with disproportionate impacts on vulnerable populations.To mitigate future threats,we emphasize the urgency of interdisciplinary collaboration,integrated environmental-health monitoring platforms,and climate-resilient public health policies tailored to post-pandemic challenges.This review provides a timely roadmap for translating environmental epidemiology insights into actionable strategies to strengthen global health resilience.展开更多
Climate and weather significantly influence the duration,timing,and intensity of disease outbreaks,reshaping the global landscape of infectious diseases.Rising temperatures and shifts in precipitation patterns driven ...Climate and weather significantly influence the duration,timing,and intensity of disease outbreaks,reshaping the global landscape of infectious diseases.Rising temperatures and shifts in precipitation patterns driven by climate change can directly impact the survival and reproduction of pathogens and vector organisms.Moreover,climate change is expected to exacerbate extreme weather events,including floods and droughts,which can disrupt infrastructure and increase the risk of waterand foodborne diseases.There are potential shifts in the temporal and spatial patterns of infectious disease transmission owing to climate change.Furthermore,climate change may alter the epidemiology of vaccine-preventable diseases.These climatic variations not only affect the ecological characteristics of pathogens and vectors but also indirectly influence human behaviors and socioeconomic conditions,further amplifying disease transmission risks.Addressing this challenge requires an interdisciplinary collaboration and comprehensive public health strategies.This review aims to synthesize the current evidence on the impact of climate change on climate-sensitive infectious diseases and elucidate the underlying mechanisms and transmission pathways.Additionally,we explored adaptive policy strategies to mitigate the public health burden of infectious diseases in the context of climate change,offering insights for global health governance and disease control efforts.展开更多
Viral infectious diseases,characterized by their intricate nature and wide-ranging diversity,pose substantial challenges in the domain of data management.The vast volume of data generated by these diseases,spanning fr...Viral infectious diseases,characterized by their intricate nature and wide-ranging diversity,pose substantial challenges in the domain of data management.The vast volume of data generated by these diseases,spanning from the molecular mechanisms within cells to large-scale epidemiological patterns,has surpassed the capabilities of traditional analytical methods.In the era of artificial intelligence(AI)and big data,there is an urgent necessity for the optimization of these analytical methods to more effectively handle and utilize the information.Despite the rapid accumulation of data associated with viral infections,the lack of a comprehensive framework for integrating,selecting,and analyzing these datasets has left numerous researchers uncertain about which data to select,how to access it,and how to utilize it most effectively in their research.This review endeavors to fill these gaps by exploring the multifaceted nature of viral infectious diseases and summarizing relevant data across multiple levels,from the molecular details of pathogens to broad epidemiological trends.The scope extends from the micro-scale to the macro-scale,encompassing pathogens,hosts,and vectors.In addition to data summarization,this review thoroughly investigates various dataset sources.It also traces the historical evolution of data collection in the field of viral infectious diseases,highlighting the progress achieved over time.Simultaneously,it evaluates the current limitations that impede data utilization.Furthermore,we propose strategies to surmount these challenges,focusing on the development and application of advanced computational techniques,AI-driven models,and enhanced data integration practices.By providing a comprehensive synthesis of existing knowledge,this review is designed to guide future research and contribute to more informed approaches in the surveillance,prevention,and control of viral infectious diseases,particularly within the context of the expanding big-data landscape.展开更多
Extracellular vesicles(EVs)have arisen as potential therapeutic tools in managing infectious diseases because EVs can regulate cell-to-cell signaling,function as drug transport mechanisms,and influence immune reaction...Extracellular vesicles(EVs)have arisen as potential therapeutic tools in managing infectious diseases because EVs can regulate cell-to-cell signaling,function as drug transport mechanisms,and influence immune reactions.They are obtained from a myriad of sources,such as plants,humans,and animal cells.EVs like exosomes and ectosomes can be utilized in their native form as therapeutics or engineered to encompass antimicrobials,vaccines,and oligonucleotides of interest with a targeted delivery strategy.An in-depth understanding of host-pathogen dynamics provides a solid foundation for exploiting its full potential in therapeutics against infectious diseases.This review mainly offers an extensive summary of EVs,comprising their various origins,formations,and pathogen relationships.It further provides insights into the various techniques utilized in isolating and engineering these vesicles to target infectious diseases and how challenges involving large-scale production and cargo loading efficiency should be addressed for clinical application.Finally,preclinical and clinical implementations of EVs derived from animals,plants,and microorganisms are elucidated,stressing their promise for designing innovative antimicrobial approaches.展开更多
Metagenomic next-generation sequencing(mNGS)is a culture-independent technique that directly extracts and sequences all nucleic acids from clinical specimens.By leveraging high-throughput sequencing and bioinformatic ...Metagenomic next-generation sequencing(mNGS)is a culture-independent technique that directly extracts and sequences all nucleic acids from clinical specimens.By leveraging high-throughput sequencing and bioinformatic analysis,it characterizes the entire microbial landscape,including bacteria,fungi,viruses,and parasites.This approach significantly broadens detection coverage,improves sensitivity,and reduces turnaround time compared with conventional diagnostic methods.Since its initial application to suspected infectious uveitis by Doan et al.in 2006,mNGS has been increasingly integrated into ophthalmic practice to facilitate pathogen identification or exclusion[1].展开更多
The skin,being the largest organ in the human body,is susceptible to a wide array of diseases,particularly infectious skin diseases.Some of these skin conditions are chronic and challenging to treat,markedly impacting...The skin,being the largest organ in the human body,is susceptible to a wide array of diseases,particularly infectious skin diseases.Some of these skin conditions are chronic and challenging to treat,markedly impacting the quality of life for those affected.Moreover,some chronic skin diseases necessitate the prolonged use of antibiotics,rendering antibiotic resistance inevitable.As the problem of antibiotic resistance grows increasingly severe,finding alternative treatment options to antibiotics becomes crucial.Moxibustion,an integral component of traditional Chinese medicine,stands out as a distinctive external therapy.With a storied history in the realm of dermatological treatment,moxibustion has amassed a wealth of clinical expertise and holds certain advantages,offering viable options for managing skin conditions.Nevertheless,given the diversity of skin diseases,the application of moxibustion in dermatology requires further exploration and comprehensive research.Furthermore,the quality of current moxibustion research needs enhancement,necessitating the conduct of high-quality randomized controlled trials to facilitate the integration of moxibustion into dermatological practice.The mechanism of action for moxibustion is intricate,encompassing thermal effect,light effect,and the pharmacological effect resulting from the burning of moxa.This article aims to encapsulate the mechanisms of moxibustion and its utilization in prevalent infectious skin conditions,while also outlining existing challenges and prospective avenues for development.展开更多
The relationship between genetics and infectious diseases is important in shaping our understanding of disease susceptibility,progression,and treatment.Recent research shows the impact of genetic variations,such as he...The relationship between genetics and infectious diseases is important in shaping our understanding of disease susceptibility,progression,and treatment.Recent research shows the impact of genetic variations,such as heme-oxygenase promoter length,on diseases like malaria and sepsis,revealing both protective and inconclusive effects.Studies on vaccine responses highlight genetic markers like human leukocyte antigens,emphasizing the potential for personalized immunization strategies.The ongoing battle against drug-resistant tuberculosis(TB)illustrates the complexity of genomic variants in predicting resistance,highlighting the need for integrated diagnostic tools.Additionally,genome-wide association studies reveal antibiotic resistance mechanisms in bacterial genomes,while host genetic polymorphisms,such as those in solute carrier family 11 member 1 and vitamin D receptor,demonstrate their role in TB susceptibility.Advanced techniques like metagenomic next-generation sequencing promise detailed pathogen detection but face challenges in cost and accessibility.A case report involving a highly virulent Mycobacterium TB strain with the pks1 gene further highlights the need for genetic insights in understanding disease severity and developing targeted interventions.This evolving landscape emphasizes the role of genetics in infectious diseases,while also addressing the need for standardized studies and accessible technologies.展开更多
Infectious bronchitis(IB),a highly contagious acute respiratory disease affecting avian species,poses significant challenges to poultry production.The causative agent,infectious bronchitis virus(IBV),exhibits a high m...Infectious bronchitis(IB),a highly contagious acute respiratory disease affecting avian species,poses significant challenges to poultry production.The causative agent,infectious bronchitis virus(IBV),exhibits a high mutation rate,leading to limited cross-protection by existing vaccines.This necessitates the development of novel vaccines.This study,based on preliminary investigations conducted by our research team,identified six potential strains(PYG QX1,ZQF QX2,FQH QX3,LYZ QX4,XXX QX5,and CSL strains)for vaccine development.Previous pathogenicity test and serum cross-neutralization experiments conducted in this study have demonstrated that the FQH QX3 strain exhibited the weakest pathogenicity and the broadest spectrum of serum neutralization,while the CSL strain showed the highest pathogenicity and was the most challenging to neutralize,posing the greatest difficulty in prevention and control.Subsequently,we constructed and rescued recombinant vaccine candidates,H120-FQH QX3,and H120-CSL,expressing the S1 and N proteins of the FQH QX3 and CSL strains,respectively.Immunization protection experiments indicated that the H120-CSL recombinant vaccine candidate exhibited the most effective immune protection,making it a promising candidate for further study and evaluation as a recombinant vaccine.The S1 and N genes of the CSL strain demonstrated strong immunogenicity,making them potential candidate antigen genes for future vaccine development.展开更多
Rapid and accurate detection of infectious virus particles, not just viral nucleic acid, is essential to avoid unnecessary quarantine and effectively control the spread of viral diseases such as coronavirus disease 20...Rapid and accurate detection of infectious virus particles, not just viral nucleic acid, is essential to avoid unnecessary quarantine and effectively control the spread of viral diseases such as coronavirus disease 2019 (COVID-19), severe acute respiratory syndrome (SARS), and Middle East respiratory syndrome (MERS). Real-time quantitative polymerase chain reaction (RT-qPCR) was the most widely used detection technique during the COVID-19 outbreak. However, it cannot discriminate between intact infectious viruses and surface-distorted, non-infectious virus particles or naked viral RNA. In this study, we present a strategy for the specific detection of infectious coronaviruses by combining viral receptor capture and reverse transcription loop-mediated isothermal amplification (RT-LAMP). We successfully applied this strategy to detect infectious virus particles of the SARS-CoV-2 surrogate virus and the human coronavirus NL63 (HCoV-NL63). Virus particles were first captured on ELISA plates coated with the recombinant human angiotensin-converting enzyme 2 (hACE2) receptor. Viral RNA was then extracted from the particles and detected by RT-LAMP using virus-specific primers. In our experimental setting, the proposed method had a minimum detection limit (LOD) of 90 PFU/mL, sensitivity of 96.2%, and specificity of 100%. Our study provides a proof-of-concept that viral receptor capture combined with RT-LAMP can differentiate infectious coronaviruses from non-infectious virions or naked viral RNA. This paves the way for this virus detection strategy to become a mainstream tool for the management, prevention and control of epidemic coronavirus diseases.展开更多
Infectious wound healing is complicated with and limited by infection and oxidative stress at the wound site.In recent years,various evidences suggest that nanozymes with multiple enzymatic activities have enabled the...Infectious wound healing is complicated with and limited by infection and oxidative stress at the wound site.In recent years,various evidences suggest that nanozymes with multiple enzymatic activities have enabled the development of novel strategies for infectious wound healing.In this study,epigallocatechin gallate loaded polydopamine(P@E)was developed to act as a potent reactive oxygen species(ROS)scavenger for scavenging ROS,alleviating inflammatory responses,and promoting infectious wound healing.Combining with near infrared(NIR)irradiation,P@E presented excellent antibacterial ability of Escherichia coli(E.coli,93.6%)and methicillin-resistant Staphylococcus aureus(MRSA,87.6%).Specifically,P@E+NIR exhibited the most potent antioxidant,anti-inflammatory and cell proliferation behaviors through downregulating intracellular ROS levels(81.9%and 94.3%for NIH3T3 and RAW264.7 respectively)and inducible nitric oxide synthase(iNOS)expression level(55.7%),and up-regulating the expression levels of arginase-1(Arg-1,71.4%),heat shock protein 70(HSP70,48.6%)and platelet endothelial cell adhesion molecule(CD31,35.3%)compared to control group.Meanwhile,it also efficiently induced M2 directional polarization of lipopolysaccharide induced murine macrophages to achieve anti-inflammation,indicated by the down-regulation of CD86(86.2%),and up-regulation of CD206(85.6%).Significantly,it was also observed that P@E+NIR presented the excellent behaviors of inhibiting wound infection,alleviating wound inflammation,as well as promoting skin tissue repairing.Altogether,it has developed the strategy of using P@E combining with NIR irradiation for the synergistic enhanced healing of infectious skin wound,which can serve as a promising therapeutic strategy for its clinical treatment.展开更多
The technology of three dimensional(3D) printing,also known as additive manufacturing,is a cuttingedge type of fabrication method that utilizes a computer-aided design platform and employs layer-bylayer stacking to co...The technology of three dimensional(3D) printing,also known as additive manufacturing,is a cuttingedge type of fabrication method that utilizes a computer-aided design platform and employs layer-bylayer stacking to construct objects with exceptional flexibility.Due to its capacity to produce a substantial quantity of products within a short period of time,3D printing has emerged as one of the most significant manufacturing technology.Over the past two decades,remarkable advancements have been made in the application of 3D printing technology in the realm of bone tissue engineering.This review presents an innovative and systematic discussion on the potential application of 3D printing technology in bone tissue engineering,particularly in the treatment of infected bone defects.It comprehensively evaluates the materials utilized in 3D printing,highlights the interplay between cells and bone regeneration,and addresses and resolves challenges associated with current 3D printing technology.These challenges include material selection,fabrication of intricate 3D structures,integration of different cell types,streamlining design processes and material selection procedures,enhancing the clinical translational potential of 3D printing technology,and ultimately exploring future applications of four dimensional(4D) printing technology.The 3D printing technology has demonstrated significant potential in the synthesis of bone substitutes,offering consistent mechanical properties and ease of use.It has found extensive applications in personalized implant customization,prosthetic limb manufacturing,surgical tool production,tissue engineering,biological modeling,and cell diagnostics.Simultaneously,3D bioprinting provides an effective solution to address the issue of organ donor shortage.However,challenges still exist in material selection,management of structural complexity,integration of different cell types,and construction of functionally mature tissues.With advancements in multi-material printing techniques as well as bioprinting and 4D printing technologies emerging on the horizon;3D printing holds immense prospects for revolutionizing the means by which infectious bone defects are repaired.展开更多
Governments worldwide have implemented non-pharmaceutical interventions(NPIs)to control the spread of coronavirus disease 2019(COVID-19),and it is crucial to accurately assess the effectiveness of such measures.Many s...Governments worldwide have implemented non-pharmaceutical interventions(NPIs)to control the spread of coronavirus disease 2019(COVID-19),and it is crucial to accurately assess the effectiveness of such measures.Many studies have quantified the risk of infection transmission and used simulations to compare the risk before and after the implementation of NPIs to judge policies’effectiveness.However,the choice of metric used to quantify the risk can lead to different conclusions regarding the effectiveness of a policy.In this study,we analyze the correlation between different transmission-risk metrics,pedestrian environments,and types of infectious diseases using simulation-generated data.Our findings reveal conflicting results among five different metric types in specific environments.More specifically,we observe that,when the randomness of pedestrian trajectories in indoor spaces is low,the closeness centrality exhibits a higher correlation coefficient with infection-based metrics than with contact-based metrics.Furthermore,even within the same pedestrian environment,the likelihood of discrepancies between infection-based metrics and other metrics increases for infectious diseases with low transmission rates.These results highlight the variability in the measured effectiveness of NPIs depending on the chosen metric.To evaluate NPIs accurately,facility managers should consider the type of facility and infectious disease and not solely rely on a single metric.This study provides a simulation model as a tool for future research and improves the reliability of pedestrian-simulation-based NPI effectiveness analysis methods.展开更多
Maxillofacial trauma is an infection and oxidative stress-induced damage to maxillofacial area related cells.Increasing evidences have suggested that therapeutic strategies with controllable anti-infective and anti-in...Maxillofacial trauma is an infection and oxidative stress-induced damage to maxillofacial area related cells.Increasing evidences have suggested that therapeutic strategies with controllable anti-infective and anti-inflammatory capabilities hold great potentials in the clinical treatment of maxillofacial trauma.Herein,we reported an infectious microenvironment responsive bimetallic sulfide(FeCuS_(x),FCS)combining with near infrared(NIR)irradiation for maxillofacial trauma therapy.In cellular levels,FCS exhibited the most efficient antioxidant and anti-inflammatory,cell migration,and angiogenesis behaviors through down-regulating the inflammatory factor(iNOS)expression level,up-regulating anti-inflammatory factors(Arg^(-1)and TGF-β)expression level,inducing macrophages M2 polarization(CD86down-regulation and CD206 up-regulation),and promoting tissue repair factors(CD31)expression level.Besides,it presented the excellent antibacterial ability of Escherichia coli(99.74%)and MRSA(99.78%)for FCS+NIR.Significantly,it also confirmed that FCS+NIR presented the excellent functions of inhibiting wound infections,decreasing wound inflammation,as well as promoting trauma tissue repairing.Altogether,it had developed the strategy of FCS+NIR for the synergistic enhancement of infectious maxillofacial trauma healing,could also serve as a promising therapeutic strategy for the treatment of infectious diseases.展开更多
Objective:To explore the effect of applying safety culture construction in nursing management of infectious disease areas.Methods:During the one-year period from January 2024 to December 2024,patients admitted to the ...Objective:To explore the effect of applying safety culture construction in nursing management of infectious disease areas.Methods:During the one-year period from January 2024 to December 2024,patients admitted to the infectious disease area of our hospital were randomly selected for the study.92 patients were divided into two groups using a computerized double-blind method for intervention.The control group received routine nursing management,while the observation group applied safety culture construction management.The effects of nursing management in the two groups were studied and compared.Results:Before management,the nursing management quality scores of the two groups were evaluated,showing little difference in various scores,and the difference was not statistically significant(P>0.05).Through the implementation of nursing management,the scores of the two groups were significantly improved,and the observation group had significantly higher scores compared to the control group(P<0.05).Compared to the incidence of nursing risk events,the observation group(6.52%)was significantly lower than the control group(30.43%),and there was a significant difference between the two groups(P<0.05).The observation group had significantly higher satisfaction scores for nursing skills,health education,service attitude,and professionalism compared to the control group,indicating patient satisfaction with safety culture construction(P<0.05).Conclusion:Applying safety culture construction in nursing management of infectious disease areas has a preventive effect on nursing risk events and is beneficial for improving patients’risk cognition level.展开更多
Mass mortality of mandarin fish(Siniperca chuatsi)due to infectious spleen and kidney necrosis virus(ISKNV)infection occurs frequently.Since there are no effective drug treatments available,prevention relies heavily o...Mass mortality of mandarin fish(Siniperca chuatsi)due to infectious spleen and kidney necrosis virus(ISKNV)infection occurs frequently.Since there are no effective drug treatments available,prevention relies heavily on detection.Effective and rapid on-site detection methods are needed for early diagnosis of ISKNV.In this study,a rapid and simple colloidal gold test strip method,specific for the antibody against major capsid protein(MCP),was developed and systematically evaluated for the detection of ISKNV.The limit of detection of the test strip is a 1꞉100 dilution of a positive standard serum and the antibody level in the fish could be estimated from the depth of color of the test line.The strips were tested against serum samples of cyprinid herpesvirus-2(CyHV-2),grass carp reovirus(GCRV),largemouth bass ranavirus(LMBV),large yellow croaker iridovirus(LYCIV),and spring viremia of carp virus(SVCV),yielding no cross-reactivity.In addition,10 mandarin fish artificially infected with ISKNV were tested using the current industry standard PCR method(SC/T 7211-2011)on their splenorenal tissues.The results from the test strips showed a high degree of concordance with PCR testing,achieving a Kappa value of 0.737.All the results indicated that the colloidal gold test strips prepared in this study could be used as a simple,rapid,and highly sensitive and specific method for ISKNV diagnosis.展开更多
Objective:To analyze the value of prophylactic antibiotic use in reducing the incidence of pancreatic necrosis in patients with emergency acute pancreatitis(AP).Methods:A total of 70 AP patients who sought medical att...Objective:To analyze the value of prophylactic antibiotic use in reducing the incidence of pancreatic necrosis in patients with emergency acute pancreatitis(AP).Methods:A total of 70 AP patients who sought medical attention from January 2024 to January 2025 were randomly divided into groups by drawing lots.Group A received prophylactic antibiotic intervention,while Group B received conventional intervention.Results:Group A demonstrated superior outcomes compared to Group B in terms of therapeutic efficacy,duration of symptoms,inflammatory factors,symptom scores,and complication rates,with p<0.05.Conclusion:Prophylactic antibiotic treatment in emergency AP patients leads to a decrease in inflammatory factor levels,alleviation of symptoms,a reduction in the incidence of infectious pancreatic necrosis,and is safe and effective.展开更多
The outbreak of COVID-19 pneumonia has had a serious impact on the world and has led to a greater awareness of the importance of infectious disease prevention and control.Biology is closely related to life sciences an...The outbreak of COVID-19 pneumonia has had a serious impact on the world and has led to a greater awareness of the importance of infectious disease prevention and control.Biology is closely related to life sciences and is an ideal discipline to penetrate infectious disease education.Conducting infectious disease prevention and control education can help increase students’knowledge of infectious disease prevention and control and prompt them to form good living habits.展开更多
[Objective] The paper was to determine the genomic sequence of a very virulent strain of infectious bursal disease virus(IBDV),and study its molecular characteristics.[Method] A very virulent strain(vvIBDV)(HLJ-0...[Objective] The paper was to determine the genomic sequence of a very virulent strain of infectious bursal disease virus(IBDV),and study its molecular characteristics.[Method] A very virulent strain(vvIBDV)(HLJ-0504) of infectious bursal disease virus(IBDV) with special characters was isolated in China and its genome was sequenced.[Result] Sequence analysis showed that segment A of HLJ-0504 was derived from vvIBDV,while segment B was from a distinct ancestor.The morbidity and mortality of HLJ-0504 was 100% and 86.7%to SPF chickens,respectively.[Conclusion] vvIBDV with distinct segment B were still circulating and the evolution of IBDV was diversified in China.Besides,it is hard to imagine that the virulence of IBDV is determined solely by segment A or B.展开更多
[Objective] Infectious bursal disease (IBD) is a highly contagious immuno- suppressive disease caused by infectious bursal disease virus (IBDV). IBDV is ge- netically prone to mutation, which results in challenges...[Objective] Infectious bursal disease (IBD) is a highly contagious immuno- suppressive disease caused by infectious bursal disease virus (IBDV). IBDV is ge- netically prone to mutation, which results in challenges to the disease prevention and control. Thus, it is necessary to continuously monitor the prevalence of IBDV. [Method] 36 IBDVs were identified from ten provinces in China from 2009 to 2012. Partial fragments of VP2, including the hypervariable region (HVR), from new iso- lates were sequenced and analyzed through comparisons with published sequences of IBDV, including 18 strains isolated previously by our lab and 24 reference strains from China and around the world. [Result] Phylogenetic analysis showed a co-exis- tence of IBDV strains belonging to classic, variant, attenuated, and very virulent IB- DV (wlBDV) in China. wlBDVs remain the predominant strains in China and the new subgroup was emerging. Alignment analysis revealed several distinct amino acid mutations that might be involved in virulence or antigenicity variation. [Conclu- sion] The results offered evolutionary clues showing the emerging trend of obvious variations and diversity of IBDV in major poultry-producing regions of China particu- larly in recent years. These findings will contribute to a better understanding of the genetic evolution of IBDV.展开更多
文摘The retrospective study by Edwar et al reinforces the role of therapeutic penetrating keratoplasty(PK)as a vital intervention in severe,treatment-resistant infectious keratitis.In advanced cases—often complicated by trauma,delayed presentation,and corneal perforation—PK restores globe integrity and provides limited visual recovery.However,its application is constrained by graft-related complications and donor shortages,particularly in low-resource settings.These limitations highlight the need for earlier,globe-sparing strategies to prevent progression and reduce surgical demand.Photoactivated chromophore for infectious keratitis-corneal collagen cross-linking(PACK-CXL)has emerged as a promising adjunct or alternative.With both antimicrobial and tissue-stabilizing effects,PACK-CXL may control infection and preserve corneal structure in earlier stages.A layered treatment framework that incorporates PACK-CXL as an initial intervention and reserves PK for refractory cases may help improve clinical outcomes.Further studies are needed to define their best use in practice.
基金the Natural Science Basic Research Program of Shaanxi Province,China[2023-JC-QN-0858]the Free Exploration Program of the Second Affiliated Hospital,School of Medicine,Xi’an Jiaotong University[2020YJ(ZYTS)605]the National Natural Science Foundation of China[81900620].
文摘Global environmental changes including climate warming,extreme weather events,ambient air pollution,freshwater contamination,and landscape transformation are reshaping the epidemiology of infectious diseases with unprecedented complexity,particularly in the post-COVID-19 era.This review synthesizes evidence from the past decade(2015-2024)to systematically elucidate how key environmental drivers modulate pathogen emergence,transmission dynamics,and clinical outcomes,with a focus on underlying mechanistic pathways.Specifically,we highlight:(1)the temperature-and precipitation-dependent transmission of vector-borne diseases(e.g.,malaria,dengue)via expanded vector habitats and accelerated pathogen incubation;(2)the exacerbation of respiratory infections(including COVID-19)by particulate matter(PM2.5)and nitrogen dioxide(NO2)through impaired mucosal immunity and enhanced inflammatory responses;(3)the persistence of diarrheal diseases in low-and middle-income countries(LMICs)linked to water insecurity and climate-induced infrastructure failure;and(4)zoonotic spillover risks amplified by urbanization and deforestation-driven human-wildlife interface disruption.Integrating the One Health socioecological framework,we further summarize methodological advances from high-resolution genomic surveillance to climate-informed machine learning models that have improved causal inference and predictive accuracy.Our synthesis confirms that environmental factors are not merely contextual but central,modifiable determinants of infectious disease risk,with disproportionate impacts on vulnerable populations.To mitigate future threats,we emphasize the urgency of interdisciplinary collaboration,integrated environmental-health monitoring platforms,and climate-resilient public health policies tailored to post-pandemic challenges.This review provides a timely roadmap for translating environmental epidemiology insights into actionable strategies to strengthen global health resilience.
基金supported by the National Natural Science Foundation of China(grant number 72122001).
文摘Climate and weather significantly influence the duration,timing,and intensity of disease outbreaks,reshaping the global landscape of infectious diseases.Rising temperatures and shifts in precipitation patterns driven by climate change can directly impact the survival and reproduction of pathogens and vector organisms.Moreover,climate change is expected to exacerbate extreme weather events,including floods and droughts,which can disrupt infrastructure and increase the risk of waterand foodborne diseases.There are potential shifts in the temporal and spatial patterns of infectious disease transmission owing to climate change.Furthermore,climate change may alter the epidemiology of vaccine-preventable diseases.These climatic variations not only affect the ecological characteristics of pathogens and vectors but also indirectly influence human behaviors and socioeconomic conditions,further amplifying disease transmission risks.Addressing this challenge requires an interdisciplinary collaboration and comprehensive public health strategies.This review aims to synthesize the current evidence on the impact of climate change on climate-sensitive infectious diseases and elucidate the underlying mechanisms and transmission pathways.Additionally,we explored adaptive policy strategies to mitigate the public health burden of infectious diseases in the context of climate change,offering insights for global health governance and disease control efforts.
基金supported by the National Natural Science Foundation of China(32370703)the CAMS Innovation Fund for Medical Sciences(CIFMS)(2022-I2M-1-021,2021-I2M-1-061)the Major Project of Guangzhou National Labora-tory(GZNL2024A01015).
文摘Viral infectious diseases,characterized by their intricate nature and wide-ranging diversity,pose substantial challenges in the domain of data management.The vast volume of data generated by these diseases,spanning from the molecular mechanisms within cells to large-scale epidemiological patterns,has surpassed the capabilities of traditional analytical methods.In the era of artificial intelligence(AI)and big data,there is an urgent necessity for the optimization of these analytical methods to more effectively handle and utilize the information.Despite the rapid accumulation of data associated with viral infections,the lack of a comprehensive framework for integrating,selecting,and analyzing these datasets has left numerous researchers uncertain about which data to select,how to access it,and how to utilize it most effectively in their research.This review endeavors to fill these gaps by exploring the multifaceted nature of viral infectious diseases and summarizing relevant data across multiple levels,from the molecular details of pathogens to broad epidemiological trends.The scope extends from the micro-scale to the macro-scale,encompassing pathogens,hosts,and vectors.In addition to data summarization,this review thoroughly investigates various dataset sources.It also traces the historical evolution of data collection in the field of viral infectious diseases,highlighting the progress achieved over time.Simultaneously,it evaluates the current limitations that impede data utilization.Furthermore,we propose strategies to surmount these challenges,focusing on the development and application of advanced computational techniques,AI-driven models,and enhanced data integration practices.By providing a comprehensive synthesis of existing knowledge,this review is designed to guide future research and contribute to more informed approaches in the surveillance,prevention,and control of viral infectious diseases,particularly within the context of the expanding big-data landscape.
基金funded by the National Science Foundation grant(IOS-1900377),received by QLM and EPSCoR GRSP Round 19 grant received by SVTW.
文摘Extracellular vesicles(EVs)have arisen as potential therapeutic tools in managing infectious diseases because EVs can regulate cell-to-cell signaling,function as drug transport mechanisms,and influence immune reactions.They are obtained from a myriad of sources,such as plants,humans,and animal cells.EVs like exosomes and ectosomes can be utilized in their native form as therapeutics or engineered to encompass antimicrobials,vaccines,and oligonucleotides of interest with a targeted delivery strategy.An in-depth understanding of host-pathogen dynamics provides a solid foundation for exploiting its full potential in therapeutics against infectious diseases.This review mainly offers an extensive summary of EVs,comprising their various origins,formations,and pathogen relationships.It further provides insights into the various techniques utilized in isolating and engineering these vesicles to target infectious diseases and how challenges involving large-scale production and cargo loading efficiency should be addressed for clinical application.Finally,preclinical and clinical implementations of EVs derived from animals,plants,and microorganisms are elucidated,stressing their promise for designing innovative antimicrobial approaches.
基金supported by the Beijing Hospitals Authority’s Ascent Programme(DFL20220301)Beijing Nova Program(20230484445)+2 种基金Capital Health Development Scientific Research Project Grant(SF 2022-2-2035 to Y.T.)Excellent Young Talent Innovation Project of Chinese Institutes for Medical Research(CX23YQA02)the Chinese Institute for Medical Research(CX23YQ03).
文摘Metagenomic next-generation sequencing(mNGS)is a culture-independent technique that directly extracts and sequences all nucleic acids from clinical specimens.By leveraging high-throughput sequencing and bioinformatic analysis,it characterizes the entire microbial landscape,including bacteria,fungi,viruses,and parasites.This approach significantly broadens detection coverage,improves sensitivity,and reduces turnaround time compared with conventional diagnostic methods.Since its initial application to suspected infectious uveitis by Doan et al.in 2006,mNGS has been increasingly integrated into ophthalmic practice to facilitate pathogen identification or exclusion[1].
文摘The skin,being the largest organ in the human body,is susceptible to a wide array of diseases,particularly infectious skin diseases.Some of these skin conditions are chronic and challenging to treat,markedly impacting the quality of life for those affected.Moreover,some chronic skin diseases necessitate the prolonged use of antibiotics,rendering antibiotic resistance inevitable.As the problem of antibiotic resistance grows increasingly severe,finding alternative treatment options to antibiotics becomes crucial.Moxibustion,an integral component of traditional Chinese medicine,stands out as a distinctive external therapy.With a storied history in the realm of dermatological treatment,moxibustion has amassed a wealth of clinical expertise and holds certain advantages,offering viable options for managing skin conditions.Nevertheless,given the diversity of skin diseases,the application of moxibustion in dermatology requires further exploration and comprehensive research.Furthermore,the quality of current moxibustion research needs enhancement,necessitating the conduct of high-quality randomized controlled trials to facilitate the integration of moxibustion into dermatological practice.The mechanism of action for moxibustion is intricate,encompassing thermal effect,light effect,and the pharmacological effect resulting from the burning of moxa.This article aims to encapsulate the mechanisms of moxibustion and its utilization in prevalent infectious skin conditions,while also outlining existing challenges and prospective avenues for development.
文摘The relationship between genetics and infectious diseases is important in shaping our understanding of disease susceptibility,progression,and treatment.Recent research shows the impact of genetic variations,such as heme-oxygenase promoter length,on diseases like malaria and sepsis,revealing both protective and inconclusive effects.Studies on vaccine responses highlight genetic markers like human leukocyte antigens,emphasizing the potential for personalized immunization strategies.The ongoing battle against drug-resistant tuberculosis(TB)illustrates the complexity of genomic variants in predicting resistance,highlighting the need for integrated diagnostic tools.Additionally,genome-wide association studies reveal antibiotic resistance mechanisms in bacterial genomes,while host genetic polymorphisms,such as those in solute carrier family 11 member 1 and vitamin D receptor,demonstrate their role in TB susceptibility.Advanced techniques like metagenomic next-generation sequencing promise detailed pathogen detection but face challenges in cost and accessibility.A case report involving a highly virulent Mycobacterium TB strain with the pks1 gene further highlights the need for genetic insights in understanding disease severity and developing targeted interventions.This evolving landscape emphasizes the role of genetics in infectious diseases,while also addressing the need for standardized studies and accessible technologies.
基金supported by National Key R&D Program of China(2022YFD1801000)the Heyuan Branch,Guangdong Laboratory for Lingnan Modern Agriculture Project(DT20220003)+1 种基金the construction project of modern agricultural science and technology innovation alliance in Guangdong province(2023KJ128)Provincial Science and Technology Special Fund Project for Zhongshan City(major special project+ Task list management mode)(2021sdr003).
文摘Infectious bronchitis(IB),a highly contagious acute respiratory disease affecting avian species,poses significant challenges to poultry production.The causative agent,infectious bronchitis virus(IBV),exhibits a high mutation rate,leading to limited cross-protection by existing vaccines.This necessitates the development of novel vaccines.This study,based on preliminary investigations conducted by our research team,identified six potential strains(PYG QX1,ZQF QX2,FQH QX3,LYZ QX4,XXX QX5,and CSL strains)for vaccine development.Previous pathogenicity test and serum cross-neutralization experiments conducted in this study have demonstrated that the FQH QX3 strain exhibited the weakest pathogenicity and the broadest spectrum of serum neutralization,while the CSL strain showed the highest pathogenicity and was the most challenging to neutralize,posing the greatest difficulty in prevention and control.Subsequently,we constructed and rescued recombinant vaccine candidates,H120-FQH QX3,and H120-CSL,expressing the S1 and N proteins of the FQH QX3 and CSL strains,respectively.Immunization protection experiments indicated that the H120-CSL recombinant vaccine candidate exhibited the most effective immune protection,making it a promising candidate for further study and evaluation as a recombinant vaccine.The S1 and N genes of the CSL strain demonstrated strong immunogenicity,making them potential candidate antigen genes for future vaccine development.
基金supported by the National Natural Science Foundation of China(32470160)the National Key Research and Development Program of China(2021YFC2300100,GZNL2023A01008)+2 种基金the Shenzhen Science and Technology Program(#JSGG20200225150431472,JSGG20210901145403012,and JSGG20220301090005007)the“Pearl River Talent Plan”Innovation and Entrepreneurship Team Project of Guangdong Province(2016LJ06Y540 and 2019ZT08Y464)the Science and Technology Program of Guangdong Province,China(2021B1212040017).
文摘Rapid and accurate detection of infectious virus particles, not just viral nucleic acid, is essential to avoid unnecessary quarantine and effectively control the spread of viral diseases such as coronavirus disease 2019 (COVID-19), severe acute respiratory syndrome (SARS), and Middle East respiratory syndrome (MERS). Real-time quantitative polymerase chain reaction (RT-qPCR) was the most widely used detection technique during the COVID-19 outbreak. However, it cannot discriminate between intact infectious viruses and surface-distorted, non-infectious virus particles or naked viral RNA. In this study, we present a strategy for the specific detection of infectious coronaviruses by combining viral receptor capture and reverse transcription loop-mediated isothermal amplification (RT-LAMP). We successfully applied this strategy to detect infectious virus particles of the SARS-CoV-2 surrogate virus and the human coronavirus NL63 (HCoV-NL63). Virus particles were first captured on ELISA plates coated with the recombinant human angiotensin-converting enzyme 2 (hACE2) receptor. Viral RNA was then extracted from the particles and detected by RT-LAMP using virus-specific primers. In our experimental setting, the proposed method had a minimum detection limit (LOD) of 90 PFU/mL, sensitivity of 96.2%, and specificity of 100%. Our study provides a proof-of-concept that viral receptor capture combined with RT-LAMP can differentiate infectious coronaviruses from non-infectious virions or naked viral RNA. This paves the way for this virus detection strategy to become a mainstream tool for the management, prevention and control of epidemic coronavirus diseases.
基金financially supported by the Natural Science Foundation of Guangxi(Nos.2022GXNSFAA035505 and 2024GXNSFAA010164)the Key Research&Development Program of Guangxi(No.GuiKe2024AB08057)+1 种基金the Guangxi Medical and Health Suitable Technology Development and Popularization Applications Project(Nos.S2023093 and S2021084)the Major Talent Project of Guangxi Autonomous Region.
文摘Infectious wound healing is complicated with and limited by infection and oxidative stress at the wound site.In recent years,various evidences suggest that nanozymes with multiple enzymatic activities have enabled the development of novel strategies for infectious wound healing.In this study,epigallocatechin gallate loaded polydopamine(P@E)was developed to act as a potent reactive oxygen species(ROS)scavenger for scavenging ROS,alleviating inflammatory responses,and promoting infectious wound healing.Combining with near infrared(NIR)irradiation,P@E presented excellent antibacterial ability of Escherichia coli(E.coli,93.6%)and methicillin-resistant Staphylococcus aureus(MRSA,87.6%).Specifically,P@E+NIR exhibited the most potent antioxidant,anti-inflammatory and cell proliferation behaviors through downregulating intracellular ROS levels(81.9%and 94.3%for NIH3T3 and RAW264.7 respectively)and inducible nitric oxide synthase(iNOS)expression level(55.7%),and up-regulating the expression levels of arginase-1(Arg-1,71.4%),heat shock protein 70(HSP70,48.6%)and platelet endothelial cell adhesion molecule(CD31,35.3%)compared to control group.Meanwhile,it also efficiently induced M2 directional polarization of lipopolysaccharide induced murine macrophages to achieve anti-inflammation,indicated by the down-regulation of CD86(86.2%),and up-regulation of CD206(85.6%).Significantly,it was also observed that P@E+NIR presented the excellent behaviors of inhibiting wound infection,alleviating wound inflammation,as well as promoting skin tissue repairing.Altogether,it has developed the strategy of using P@E combining with NIR irradiation for the synergistic enhanced healing of infectious skin wound,which can serve as a promising therapeutic strategy for its clinical treatment.
基金supported by the National Natural Science Fund of China(Nos.82202726,82370929)the National Clinical Research Center for Geriatrics,West China Hospital,Sichuan University(No.Z20192013)+5 种基金Key research and development project of Sichuan Science and Technology Department(No.2023YFG0219)"Zeroto One" Innovation Research Project of Sichuan University(No.2022SCUH0014)Frontiers Medical Center,Tianfu Jincheng Laboratory Foundation(No.TFJC2023010001)Sichuan Science and Technology Program(No.2022NSFSC0002)Sichuan Province Youth Science and Technology Innovation Team(No.2022JDTD0021)Research and Develop Program,West China Hospital of Stomatology Sichuan University(Nos.RD03202302,RCDWJS2024-1)。
文摘The technology of three dimensional(3D) printing,also known as additive manufacturing,is a cuttingedge type of fabrication method that utilizes a computer-aided design platform and employs layer-bylayer stacking to construct objects with exceptional flexibility.Due to its capacity to produce a substantial quantity of products within a short period of time,3D printing has emerged as one of the most significant manufacturing technology.Over the past two decades,remarkable advancements have been made in the application of 3D printing technology in the realm of bone tissue engineering.This review presents an innovative and systematic discussion on the potential application of 3D printing technology in bone tissue engineering,particularly in the treatment of infected bone defects.It comprehensively evaluates the materials utilized in 3D printing,highlights the interplay between cells and bone regeneration,and addresses and resolves challenges associated with current 3D printing technology.These challenges include material selection,fabrication of intricate 3D structures,integration of different cell types,streamlining design processes and material selection procedures,enhancing the clinical translational potential of 3D printing technology,and ultimately exploring future applications of four dimensional(4D) printing technology.The 3D printing technology has demonstrated significant potential in the synthesis of bone substitutes,offering consistent mechanical properties and ease of use.It has found extensive applications in personalized implant customization,prosthetic limb manufacturing,surgical tool production,tissue engineering,biological modeling,and cell diagnostics.Simultaneously,3D bioprinting provides an effective solution to address the issue of organ donor shortage.However,challenges still exist in material selection,management of structural complexity,integration of different cell types,and construction of functionally mature tissues.With advancements in multi-material printing techniques as well as bioprinting and 4D printing technologies emerging on the horizon;3D printing holds immense prospects for revolutionizing the means by which infectious bone defects are repaired.
基金supported by the National Research Foundation of Korea(NRF)grant funded by the Ministry of Science and ICT(MSIT),Republic of Korea(1711185759).
文摘Governments worldwide have implemented non-pharmaceutical interventions(NPIs)to control the spread of coronavirus disease 2019(COVID-19),and it is crucial to accurately assess the effectiveness of such measures.Many studies have quantified the risk of infection transmission and used simulations to compare the risk before and after the implementation of NPIs to judge policies’effectiveness.However,the choice of metric used to quantify the risk can lead to different conclusions regarding the effectiveness of a policy.In this study,we analyze the correlation between different transmission-risk metrics,pedestrian environments,and types of infectious diseases using simulation-generated data.Our findings reveal conflicting results among five different metric types in specific environments.More specifically,we observe that,when the randomness of pedestrian trajectories in indoor spaces is low,the closeness centrality exhibits a higher correlation coefficient with infection-based metrics than with contact-based metrics.Furthermore,even within the same pedestrian environment,the likelihood of discrepancies between infection-based metrics and other metrics increases for infectious diseases with low transmission rates.These results highlight the variability in the measured effectiveness of NPIs depending on the chosen metric.To evaluate NPIs accurately,facility managers should consider the type of facility and infectious disease and not solely rely on a single metric.This study provides a simulation model as a tool for future research and improves the reliability of pedestrian-simulation-based NPI effectiveness analysis methods.
基金financially supported by the Joint Project on Regional High-Incidence Diseases Research of Guangxi Natural Science Foundation(Nos.2025GXNSFAA069283 and 2023GXNSFAA026264)Guangxi Science and Technology Base and Talent Special Project(No.GuikeAD21220008)+3 种基金the National Natural Science Foundation of China(No.82060195)Guangxi Medical and Health Suitable Technology Development and Popularization Applications Project(No.S2023093)the Key Laboratory of Micro-Nanoscale Bioanalysis and Drug Screening,the Education Department of Guangxi Zhuang Autonomous Region(No.GXYWSX202404)the Major Talent Project of Guangxi Autonomous Region
文摘Maxillofacial trauma is an infection and oxidative stress-induced damage to maxillofacial area related cells.Increasing evidences have suggested that therapeutic strategies with controllable anti-infective and anti-inflammatory capabilities hold great potentials in the clinical treatment of maxillofacial trauma.Herein,we reported an infectious microenvironment responsive bimetallic sulfide(FeCuS_(x),FCS)combining with near infrared(NIR)irradiation for maxillofacial trauma therapy.In cellular levels,FCS exhibited the most efficient antioxidant and anti-inflammatory,cell migration,and angiogenesis behaviors through down-regulating the inflammatory factor(iNOS)expression level,up-regulating anti-inflammatory factors(Arg^(-1)and TGF-β)expression level,inducing macrophages M2 polarization(CD86down-regulation and CD206 up-regulation),and promoting tissue repair factors(CD31)expression level.Besides,it presented the excellent antibacterial ability of Escherichia coli(99.74%)and MRSA(99.78%)for FCS+NIR.Significantly,it also confirmed that FCS+NIR presented the excellent functions of inhibiting wound infections,decreasing wound inflammation,as well as promoting trauma tissue repairing.Altogether,it had developed the strategy of FCS+NIR for the synergistic enhancement of infectious maxillofacial trauma healing,could also serve as a promising therapeutic strategy for the treatment of infectious diseases.
文摘Objective:To explore the effect of applying safety culture construction in nursing management of infectious disease areas.Methods:During the one-year period from January 2024 to December 2024,patients admitted to the infectious disease area of our hospital were randomly selected for the study.92 patients were divided into two groups using a computerized double-blind method for intervention.The control group received routine nursing management,while the observation group applied safety culture construction management.The effects of nursing management in the two groups were studied and compared.Results:Before management,the nursing management quality scores of the two groups were evaluated,showing little difference in various scores,and the difference was not statistically significant(P>0.05).Through the implementation of nursing management,the scores of the two groups were significantly improved,and the observation group had significantly higher scores compared to the control group(P<0.05).Compared to the incidence of nursing risk events,the observation group(6.52%)was significantly lower than the control group(30.43%),and there was a significant difference between the two groups(P<0.05).The observation group had significantly higher satisfaction scores for nursing skills,health education,service attitude,and professionalism compared to the control group,indicating patient satisfaction with safety culture construction(P<0.05).Conclusion:Applying safety culture construction in nursing management of infectious disease areas has a preventive effect on nursing risk events and is beneficial for improving patients’risk cognition level.
基金Supported by the Earmarked Fund for China Agricultural Research System(No.CARS-45-16)the Key Research and Development Plan of Jiangsu Province(No.BE2021369)。
文摘Mass mortality of mandarin fish(Siniperca chuatsi)due to infectious spleen and kidney necrosis virus(ISKNV)infection occurs frequently.Since there are no effective drug treatments available,prevention relies heavily on detection.Effective and rapid on-site detection methods are needed for early diagnosis of ISKNV.In this study,a rapid and simple colloidal gold test strip method,specific for the antibody against major capsid protein(MCP),was developed and systematically evaluated for the detection of ISKNV.The limit of detection of the test strip is a 1꞉100 dilution of a positive standard serum and the antibody level in the fish could be estimated from the depth of color of the test line.The strips were tested against serum samples of cyprinid herpesvirus-2(CyHV-2),grass carp reovirus(GCRV),largemouth bass ranavirus(LMBV),large yellow croaker iridovirus(LYCIV),and spring viremia of carp virus(SVCV),yielding no cross-reactivity.In addition,10 mandarin fish artificially infected with ISKNV were tested using the current industry standard PCR method(SC/T 7211-2011)on their splenorenal tissues.The results from the test strips showed a high degree of concordance with PCR testing,achieving a Kappa value of 0.737.All the results indicated that the colloidal gold test strips prepared in this study could be used as a simple,rapid,and highly sensitive and specific method for ISKNV diagnosis.
文摘Objective:To analyze the value of prophylactic antibiotic use in reducing the incidence of pancreatic necrosis in patients with emergency acute pancreatitis(AP).Methods:A total of 70 AP patients who sought medical attention from January 2024 to January 2025 were randomly divided into groups by drawing lots.Group A received prophylactic antibiotic intervention,while Group B received conventional intervention.Results:Group A demonstrated superior outcomes compared to Group B in terms of therapeutic efficacy,duration of symptoms,inflammatory factors,symptom scores,and complication rates,with p<0.05.Conclusion:Prophylactic antibiotic treatment in emergency AP patients leads to a decrease in inflammatory factor levels,alleviation of symptoms,a reduction in the incidence of infectious pancreatic necrosis,and is safe and effective.
基金Anqing Normal University School-Level Teaching and Research Project(2022aqnujyxm32)Anqing Normal University Provincial Graduate Online CourseAnhui Province Graduate Student Online Course on Animal Ecology。
文摘The outbreak of COVID-19 pneumonia has had a serious impact on the world and has led to a greater awareness of the importance of infectious disease prevention and control.Biology is closely related to life sciences and is an ideal discipline to penetrate infectious disease education.Conducting infectious disease prevention and control education can help increase students’knowledge of infectious disease prevention and control and prompt them to form good living habits.
基金Supported by National 973 Project(2005CB523202)National Natural Science Foundation of China (30901083)China PostdoctoralScience Foundation(20080440921)~~
文摘[Objective] The paper was to determine the genomic sequence of a very virulent strain of infectious bursal disease virus(IBDV),and study its molecular characteristics.[Method] A very virulent strain(vvIBDV)(HLJ-0504) of infectious bursal disease virus(IBDV) with special characters was isolated in China and its genome was sequenced.[Result] Sequence analysis showed that segment A of HLJ-0504 was derived from vvIBDV,while segment B was from a distinct ancestor.The morbidity and mortality of HLJ-0504 was 100% and 86.7%to SPF chickens,respectively.[Conclusion] vvIBDV with distinct segment B were still circulating and the evolution of IBDV was diversified in China.Besides,it is hard to imagine that the virulence of IBDV is determined solely by segment A or B.
基金Supported by National Natural Science Foundation of China(No.31430087)the Application Technology Research and Development Fund of Harbin(no.2014AB3AN058)+1 种基金the Special Fund for Scientific and Technological Innovative Talents of Harbin(No.2014RFQYJ129)the Modern Agro-industry Technology Research System of China(No.nycytx-42-G3-01)~~
文摘[Objective] Infectious bursal disease (IBD) is a highly contagious immuno- suppressive disease caused by infectious bursal disease virus (IBDV). IBDV is ge- netically prone to mutation, which results in challenges to the disease prevention and control. Thus, it is necessary to continuously monitor the prevalence of IBDV. [Method] 36 IBDVs were identified from ten provinces in China from 2009 to 2012. Partial fragments of VP2, including the hypervariable region (HVR), from new iso- lates were sequenced and analyzed through comparisons with published sequences of IBDV, including 18 strains isolated previously by our lab and 24 reference strains from China and around the world. [Result] Phylogenetic analysis showed a co-exis- tence of IBDV strains belonging to classic, variant, attenuated, and very virulent IB- DV (wlBDV) in China. wlBDVs remain the predominant strains in China and the new subgroup was emerging. Alignment analysis revealed several distinct amino acid mutations that might be involved in virulence or antigenicity variation. [Conclu- sion] The results offered evolutionary clues showing the emerging trend of obvious variations and diversity of IBDV in major poultry-producing regions of China particu- larly in recent years. These findings will contribute to a better understanding of the genetic evolution of IBDV.
