BACKGROUND Non-erosive reflux disease(NERD),the main gastroesophageal reflux subtype,features reflux symptoms without mucosal damage.Anxiety links to visceral hypersensitivity in NERD,yet mechanisms and animal models ...BACKGROUND Non-erosive reflux disease(NERD),the main gastroesophageal reflux subtype,features reflux symptoms without mucosal damage.Anxiety links to visceral hypersensitivity in NERD,yet mechanisms and animal models are unclear.AIM To establish a translational NERD rat model with anxiety comorbidity via tail clamping and study corticotropin-releasing hormone(CRH)-mediated neuroimmune pathways in visceral hypersensitivity and esophageal injury.METHODS Sprague-Dawley(SD)and Wistar rats were grouped into sham,model,and modified groups(n=10 each).The treatments for the modified groups were as follows:SD rats received ovalbumin/aluminum hydroxide suspension+acid perfusion±tail clamping(40 minutes/day for 7 days),while Wistar rats received fructose water+tail clamping.Esophageal pathology,visceral sensitivity,and behavior were assessed.Serum CRH,calcitonin gene-related peptide(CGRP),5-hydroxytryptamine(5-HT),and mast cell tryptase(MCT)and central amygdala(CeA)CRH mRNA were measured via ELISA and qRT-PCR.RESULTS Tail clamping induced anxiety,worsening visceral hypersensitivity(lower abdominal withdrawal reflex thresholds,P<0.05)and esophageal injury(dilated intercellular spaces and mitochondrial edema).Both models showed raised serum CRH,CGRP,5-HT,and MCT(P<0.01)and CeA CRH mRNA expression(P<0.01).Behavioral tests confirmed anxiety-like phenotypes.NERD-anxiety rats showed clinical-like symptom severity without erosion.CONCLUSION Tail clamping induces anxiety in NERD models,worsening visceral hypersensitivity via CRH neuroimmune dysregulation,offering a translational model and highlighting CRH as a treatment target.展开更多
Noninvasive brain stimulation techniques offer promising therapeutic and regenerative prospects in neurological diseases by modulating brain activity and improving cognitive and motor functions.Given the paucity of kn...Noninvasive brain stimulation techniques offer promising therapeutic and regenerative prospects in neurological diseases by modulating brain activity and improving cognitive and motor functions.Given the paucity of knowledge about the underlying modes of action and optimal treatment modalities,a thorough translational investigation of noninvasive brain stimulation in preclinical animal models is urgently needed.Thus,we reviewed the current literature on the mechanistic underpinnings of noninvasive brain stimulation in models of central nervous system impairment,with a particular emphasis on traumatic brain injury and stroke.Due to the lack of translational models in most noninvasive brain stimulation techniques proposed,we found this review to the most relevant techniques used in humans,i.e.,transcranial magnetic stimulation and transcranial direct current stimulation.We searched the literature in Pub Med,encompassing the MEDLINE and PMC databases,for studies published between January 1,2020 and September 30,2024.Thirty-five studies were eligible.Transcranial magnetic stimulation and transcranial direct current stimulation demonstrated distinct strengths in augmenting rehabilitation post-stroke and traumatic brain injury,with emerging mechanistic evidence.Overall,we identified neuronal,inflammatory,microvascular,and apoptotic pathways highlighted in the literature.This review also highlights a lack of translational surrogate parameters to bridge the gap between preclinical findings and their clinical translation.展开更多
The brain is the most complex human organ,and commonly used models,such as two-dimensional-cell cultures and animal brains,often lack the sophistication needed to accurately use in research.In this context,human cereb...The brain is the most complex human organ,and commonly used models,such as two-dimensional-cell cultures and animal brains,often lack the sophistication needed to accurately use in research.In this context,human cerebral organoids have emerged as valuable tools offering a more complex,versatile,and human-relevant system than traditional animal models,which are often unable to replicate the intricate architecture and functionality of the human brain.Since human cerebral organoids are a state-of-the-art model for the study of neurodevelopment and different pathologies affecting the brain,this field is currently under constant development,and work in this area is abundant.In this review,we give a complete overview of human cerebral organoids technology,starting from the different types of protocols that exist to generate different human cerebral organoids.We continue with the use of brain organoids for the study of brain pathologies,highlighting neurodevelopmental,psychiatric,neurodegenerative,brain tumor,and infectious diseases.Because of the potential value of human cerebral organoids,we describe their use in transplantation,drug screening,and toxicology assays.We also discuss the technologies available to study cell diversity and physiological characteristics of organoids.Finally,we summarize the limitations that currently exist in the field,such as the development of vasculature and microglia,and highlight some of the novel approaches being pursued through bioengineering.展开更多
Lung cancer has one of the highest rates of incidence and mortality worldwide,mak-ing research on its mechanisms and treatments crucial.Animal models are essential in lung cancer research as they accurately replicate ...Lung cancer has one of the highest rates of incidence and mortality worldwide,mak-ing research on its mechanisms and treatments crucial.Animal models are essential in lung cancer research as they accurately replicate the biological characteristics and treatment outcomes seen in human diseases.Currently,various lung cancer models have been established,including chemical induction models,orthotopic transplan-tation models,ectopic transplantation models,metastasis models,and gene editing mouse models.Additionally,lung cancer grafts can be categorized into two types:tissue-based and cell-based grafts.This paper summarizes the phenotypes,advan-tages,and disadvantages of various induction methods based on their modeling tech-niques.The goal is to enhance the simulation of clinical lung cancer characteristics and to establish a solid foundation for future clinical research.展开更多
Objectives:This integrative review aimed to examine and synthesize existing empirical evidence on nurse-led clinics(NLCs)in primary care settings,with a focus on models of care implemented globally.Methods:The review ...Objectives:This integrative review aimed to examine and synthesize existing empirical evidence on nurse-led clinics(NLCs)in primary care settings,with a focus on models of care implemented globally.Methods:The review adhered to PRISMA guidelines,with rigorous inclusion and exclusion criteria applied.A systematic search was conducted across the Cochrane Library,EMBASE,Medline via EBSCO,PubMed,ScienceDirect,Scopus,and bibliographic databases for studies published between 2014 and 2024.Eligible studies included original,peer-reviewed research focused on nurse-led or nurse-managed clinics.A convergent integrated synthesis approach and thematic analysis were employed to identify key models of care.Results:The search yielded 1,651 records;13 studies met the inclusion criteria.Data synthesis revealed six distinct models of care implemented in community-based nurse-led clinics:Innovative Cognitive Care,Integrated Multidisciplinary Care,Community-Driven Underserved Population Care,Reproductive and Women's Health Innovation,Palliative Care Model,and Behavioral Health Integration.Conclusions:Nurse-led models of care are crucial for strengthening primary healthcare,particularly in underserved settings.Further research and policy support are needed to expand nurses'roles,enhance their competencies,and promote interdisciplinary collaboration for the delivery of sustainable and equitable health services.展开更多
Frozen shoulder(FS),also known as adhesive capsulitis,is a condition that causes contraction and stiffness of the shoulder joint capsule.The main symptoms are per-sistent shoulder pain and a limited range of motion in...Frozen shoulder(FS),also known as adhesive capsulitis,is a condition that causes contraction and stiffness of the shoulder joint capsule.The main symptoms are per-sistent shoulder pain and a limited range of motion in all directions.These symp-toms and poor prognosis affect people's physical health and quality of life.Currently,the specific mechanisms of FS remain unclear,and there is variability in treatment methods and their efficacy.Additionally,the early symptoms of FS are difficult to distinguish from those of other shoulder diseases,complicating early diagnosis and treatment.Therefore,it is necessary to develop and utilize animal models to under-stand the pathogenesis of FS and to explore treatment strategies,providing insights into the prevention and treatment of human FS.This paper reviews the rat models available for FS research,including external immobilization models,surgical internal immobilization models,injection modeling models,and endocrine modeling models.It introduces the basic procedures for these models and compares and analyzes the advantages,disadvantages,and applicability of each modeling method.Finally,our paper summarizes the common methods for evaluating FS rat models.展开更多
The northwestern margin of Junggar Basin is the region with the richest oil sand resources in China.For better understanding the enrichment rules and deployment of exploration and development of regional oil sand,it i...The northwestern margin of Junggar Basin is the region with the richest oil sand resources in China.For better understanding the enrichment rules and deployment of exploration and development of regional oil sand,it is of great scientific significance to study the accumulation conditions of oil sand in different strata and mining areas of the Junggar Basin.Through a large number of field investigations,drilling verification and sampling tests,it is found that the oil sand in the region covers an area of 2000 km^(2),with shallow and thick reservoir,and predicted resource of 180 million tons.The oil sand resources are mainly distributed in four geological strata,namely the Middle Triassic Karamay Formation,Early Jurassic Badaowan Formation,Late Jurassic Qigu Formation,and Early Cretaceous Qingshuihe Formation.The reservoir is mainly composed of sandstone with high porosity and permeability,and the reservoir space is mainly intergranular pores with a medium average oil content.The oil sand deposit in the region is a typical destructive oil reservoir.The crude oil in the oil sand layer is degraded and thickened from the deep to the shallow,the content of saturated hydrocarbon decreased,and the content of aromatic hydrocarbon,non-hydrocarbon and asphaltene increased.The oil source comes from the deep Permian hydrocarbon-generating depression.Unconformities,faults and marginal fan delta-braided river depositional systems constitute effective migration and storage systems.Caprocks of the Upper Triassic Baijiantan Formation,Lower Jurassic Sangonghe Formation and Lower Cretaceous Hutubihe Formation were formed by three large scale lake transgressions.The Indosinian,Yanshan and Late Yanshan movements are the main driving forces for the migration of deep oil and gas to the shallow edge to form oil sand deposits.It is considered that the oil sand in the northwestern margin of Junggar Basin is of a slope complex migration type.展开更多
Cardiac arrest(CA)is a critical condition in the field of cardiovascular medicine.Despite successful resuscitation,patients continue to have a high mortality rate,largely due to post CA syndrome(PCAS).However,the inju...Cardiac arrest(CA)is a critical condition in the field of cardiovascular medicine.Despite successful resuscitation,patients continue to have a high mortality rate,largely due to post CA syndrome(PCAS).However,the injury and pathophysiological mechanisms underlying PCAS remain unclear.Experimental animal models are valuable tools for exploring the etiology,pathogenesis,and potential interventions for CA and PCAS.Current CA animal models include electrical induction of ventricular fibrillation(VF),myocardial infarction,high potassium,asphyxia,and hemorrhagic shock.Although these models do not fully replicate the complexity of clinical CA,the mechanistic insights they provide remain highly relevant,including post-CA brain injury(PCABI),post-CA myocardial dysfunction(PAMD),systemic ischaemia/reperfusion injury(IRI),and the persistent precipitating pathology.Summarizing the methods of establishing CA models,the challenges encountered in the modeling process,and the mechanisms of PCAS can provide a foundation for developing standardized CA modeling protocols.展开更多
Human herpesvirus,a specific group within the herpesvirus family,is responsible for a variety of human diseases.These viruses can infect humans and other vertebrates,primarily targeting the skin,mucous membranes,and n...Human herpesvirus,a specific group within the herpesvirus family,is responsible for a variety of human diseases.These viruses can infect humans and other vertebrates,primarily targeting the skin,mucous membranes,and neural tissues,thereby signifi-cantly impacting the health of both humans and animals.Animal models are crucial for studying virus pathogenesis,vaccine development,and drug testing.Despite several vaccine candidates being in preclinical and clinical stages,no vaccines are current available to prevent lifelong infections caused by these human herpesviruses,except for varicella-zoster virus(VZV)vaccine.However,the strict host tropism of herpes-viruses and other limitations mean that no single animal model can fully replicate all key features of human herpesvirus-associated diseases.This makes it challeng-ing to evaluate vaccines and antivirals against human herpesvirus comprehensively.Herein,we summarize the current animal models used to study the human herpesvi-ruses includingα-herpesviruses(herpes simplex virus type 1(HSV-1),HSV-2,VZV),β-herpesviruses(human cytomegalovirus(HCMV),γ-herpesviruses(Epstein-Barr virus(EBV))and Kaposi's sarcoma herpesvirus(KSHV)).By providing concise information and detailed analysis of the potential,limitations and applications of various models,such as non-human primates,mice,rabbits,guinea pigs,and tree shrews,this sum-mary aims to help researchers efficiently select the most appropriate animal model,offering practical guidance for studying human herpesvirus.展开更多
Underwater jet propulsion bio-inspired robots have typically been designed based on soft-bodied organisms, exhibiting relatively limited forms of locomotion. Scallop, a bivalve organism capable of jet propulsion, hold...Underwater jet propulsion bio-inspired robots have typically been designed based on soft-bodied organisms, exhibiting relatively limited forms of locomotion. Scallop, a bivalve organism capable of jet propulsion, holds significant importance in the study of underwater motion mechanisms. In this study, we present theoretical fluid mechanics analysis and modeling of the three distinct motion stages of scallops, providing parameterized descriptions of scallop locomotion mechanisms. Accordingly, three-stage adaptive motion control for the scallop robot and model-based robot configuration optimization design were achieved. An experimental platform and a robot prototype were built to validate the accuracy of the motion model and the effectiveness of the control strategy. Additionally, based on the models, future optimization directions for the robot are proposed.展开更多
Cisplatin chemotherapy has been used as the main treatment for different types of cancer.However,cisplatin chemotherapy-induced peripheral neuropathic pain(CIPNP)seriously affects the treatment process and quality of ...Cisplatin chemotherapy has been used as the main treatment for different types of cancer.However,cisplatin chemotherapy-induced peripheral neuropathic pain(CIPNP)seriously affects the treatment process and quality of life of patients.In addition,it impacts the underlying mechanism and prevention and treatment strategies,indicating that drug selection and efficacy evaluation need to be further investigated.Furthermore,an animal model that is more consistent with the pathological mechanism needs to be developed.In this study,we describe and discuss the methods of developing and detecting CIPNP models in rats and mice induced by cisplatin chemotherapy.The aim was to improve the modeling rate and develop animal models that are more consistent with the developmental pattern of the disease.In addition,the study provides ideal reference animal models for clinical research and drug discovery and development.展开更多
This study systematically reviews the development history and key technological breakthroughs of large gas fields in the Ordos Basin,and summarizes the development models of three gas reservoir types,low-permeability ...This study systematically reviews the development history and key technological breakthroughs of large gas fields in the Ordos Basin,and summarizes the development models of three gas reservoir types,low-permeability carbonate,low-permeability sandstone and tight sandstone,as well as the progress in deep coal-rock gas development.The current challenges and future development directions are also discussed.Mature development models have been formed for the three representative types of gas reservoirs in the Ordos Basin:(1)Low-permeability carbonate reservoir development model featuring groove fine-scale characterization and three-dimensional vertical succession between Upper and Lower Paleozoic formations.(2)Low-permeability sandstone reservoir development model emphasizing horizontal well pressure-depletion production and vertical well pressure-controlled production.(3)Tight sandstone gas reservoir development model focusing on single-well productivity enhancement and well placement optimization.In deep coal-rock gas development,significant progress has been achieved in reservoir evaluation,sweet spot prediction,and geosteering of horizontal wells.The three types of reservoirs have entered the mid-to-late stages of the development,when the main challenge lies in accurately characterizing residual gas,evaluating secondary gas-bearing layers,and developing precise potential-tapping strategies.In contrast,for the early-stage development of deep coal-rock gas,continuous technological upgrades and cost reduction are essential to achieving economically viable large-scale development.Four key directions of future research and technological breakthroughs are proposed:(1)Utilizing dual-porosity(fracture-matrix)modeling techniques in low-permeability carbonate reservoirs to delineate the volume and distribution of remaining gas in secondary pay zones,supporting well pattern optimization and production enhancement of existing wells.(2)Integrating well-log and seismic data to characterize reservoir spatial distribution of successive strata,enhancing drilling success rates in low-permeability sandstone reservoirs.(3)Utilizing the advantages of horizontal wells to penetrate effective reservoirs laterally,achieving meter-scale quantification of small-scale single sand bodies in tight gas reservoirs,and applying high-resolution 3D geological models to clarify the distribution of remaining gas and guide well placement optimization.(4)Further strengthening the evaluation of deep coal-rock gas in terms of resource potential,well type and pattern,reservoir stimulation,single-well performance,and economic viability.展开更多
Psychoneuroimmunology is a scientific discipline exploring the interconnectedness of the nervous system,emotion state,and immune system.The current review examines the distinct mechanisms through which the mind and bo...Psychoneuroimmunology is a scientific discipline exploring the interconnectedness of the nervous system,emotion state,and immune system.The current review examines the distinct mechanisms through which the mind and body interact when subjected to stress.Manifestations of psychoneuroimmunological stress encompass symptoms such as depression,aggression,fear,and social withdrawal,which can exert a profound impact on physiological well-being.Some observations suggest that humans and nonhuman animals exhibit similar stress-related symptoms,aiding in the identification of pharmacological pathways and potential clinical implications of therapeutic interventions.Animal stress models are predicated on varying approaches aimed at eliciting a motivational state to navigate and confront aversive circumstances.The current review describes the diverse stress induction models that have been investigated internationally,incorporating an ethological perspective that involves evaluating innate and unpunished behaviors through methodologies like the elevated plus maze,elevated zero maze,light-dark box,and open field test.Additionally,conditioned operant conflict tests,such as the Vogel conflict test,fall under the purview of learning and punishment models.This category encompasses classic conditioning models like fear conditioning,psychosocial models such as social defeat,and physical and chronic unpredictable stress paradigms.In this review,we critically evaluate existing cognitive and behavioral frameworks underpinning the development and perpetuation of stress-related disorders,while also elucidating the impact of immune system responses on the mental and physical health of animals.The primary objective of this review is to elucidate the array of animal models employed in previous research and the testing protocols used to assess animal performance in stress induction scenarios,with the ultimate aim of reducing mortality rates among research animals.展开更多
BACKGROUND Metabolic dysfunction-associated steatotic liver disease(MASLD)is a prevalent chronic liver disorder driven by obesity and metabolic dysfunction.MASLD progresses to metabolic dysfunction-associated steatohe...BACKGROUND Metabolic dysfunction-associated steatotic liver disease(MASLD)is a prevalent chronic liver disorder driven by obesity and metabolic dysfunction.MASLD progresses to metabolic dysfunction-associated steatohepatitis,which is characterized by inflammation,hepatocyte injury,and fibrosis,increasing the risk of cirrhosis and liver failure.Recent studies suggest that neutrophil extracellular traps(NETs)and extracellular DNA(ecDNA)contribute to liver inflammation and fibrogenesis.However,their role in MASLD pathogenesis remains incompletely understood.AIM To investigate the dynamics of circulating NETs and ecDNA as potential biomarkers of liver injury in MASLD.METHODS Using three complementary mouse models,thioacetamide(TAA)-induced fibrosis,choline-deficient L-amino acid-defined(CDAA)diet-induced metabolic dysfunction-associated steatohepatitis,and cafeteria(CAF)diet-induced MASLD,we assessed the association between NET-related markers and liver damage.Blood samples were collected biweekly to analyze ecDNA and NET markers,including myeloperoxidase(MPO)and MPO-DNA complexes,using ELISA and real-time PCR.Liver histopathology was assessed for inflammation,fibrosis,and neutrophil infiltration.RESULTS The TAA and CDAA models exhibited significant liver injury,characterized by increased plasma alanine aminotransferase and aspartate aminotransferase levels,hepatocellular damage,and fibrosis.Elevated circulating NET markers(MPO and ecDNA)were observed in these models,with a strong correlation between NET formation and liver pathology.The CAF diet model induced steatosis but failed to elicit significant liver fibrosis or an increase in NET markers,suggesting that NETosis is associated with more severe liver damage.Notably,ecDNA and MPO levels correlated with neutrophil infiltration and fibrosis scores,indicating their potential as biomarkers of MASLD progression.CONCLUSION NETosis and ecDNA levels reflect liver injury severity in MASLD.NET markers and liver fibrosis were strongly associated in TAA and CDAA models,whereas CAF model showed minimal NET involvement.展开更多
Post-stroke depression(PSD) is a common psychiatric complication affecting nearly one-third of stroke survivors, leading to increased disability, mortality, and cognitive decline. Traditional Chinese Medicine(TCM) has...Post-stroke depression(PSD) is a common psychiatric complication affecting nearly one-third of stroke survivors, leading to increased disability, mortality, and cognitive decline. Traditional Chinese Medicine(TCM) has proven effective in treating PSD through syndrome differentiation, yet existing animal models primarily reflect Western medical concepts and fail to incorporate the TCM principle of “同病异治”( treating the same disease with different methods). This paper provides a review of the current methods for constructing animal models of post-stroke depression(PSD) from the perspective of Traditional Chinese Medicine(TCM) syndrome differentiation and proposes multi-dimensional assessment indicators. By integrating TCM theories with modern biomedical techniques, this study offers a comprehensive framework for deepening the understanding of the pathogenesis and therapeutic evaluation of PSD. This approach not only contributes to advancing PSD research but also paves the way for innovative treatment strategies that combine traditional and modern medicine.展开更多
Firstly,based on the data of air quality and the meteorological data in Baoding City from 2017 to 2021,the correlations of meteorological elements and pollutants with O_(3)concentration were explored to determine the ...Firstly,based on the data of air quality and the meteorological data in Baoding City from 2017 to 2021,the correlations of meteorological elements and pollutants with O_(3)concentration were explored to determine the forecast factors of forecast models.Secondly,the O_(3)-8h concentration in Baoding City in 2021 was predicted based on the constructed models of multiple linear regression(MLR),backward propagation neural network(BPNN),and auto regressive integrated moving average(ARIMA),and the predicted values were compared with the observed values to test their prediction effects.The results show that overall,the MLR,BPNN and ARIMA models were able to forecast the changing trend of O_(3)-8h concentration in Baoding in 2021,but the BPNN model gave better forecast results than the ARIMA and MLR models,especially for the prediction of the high values of O_(3)-8h concentration,and the correlation coefficients between the predicted values and the observed values were all higher than 0.9 during June-September.The mean error(ME),mean absolute error(MAE),and root mean square error(RMSE)of the predicted values and the observed values of daily O_(3)-8h concentration based on the BPNN model were 0.45,19.11 and 24.41μg/m 3,respectively,which were significantly better than those of the MLR and ARIMA models.The prediction effects of the MLR,BPNN and ARIMA models were the best at the pollution level,followed by the excellent level,and it was the worst at the good level.In comparison,the prediction effect of BPNN model was better than that of the MLR and ARIMA models as a whole,especially for the pollution and excellent levels.The TS scores of the BPNN model were all above 66%,and the PC values were above 86%.The BPNN model can forecast the changing trend of O_(3)concentration more accurately,and has a good practical application value,but at the same time,the predicted high values of O_(3)concentration should be appropriately increased according to error characteristics of the model.展开更多
In the wave of the“Internet+AI”era,information technology is comprehensively reshaping the landscape of college English reading education.Traditional teaching models struggle to meet the demands of talent cultivatio...In the wave of the“Internet+AI”era,information technology is comprehensively reshaping the landscape of college English reading education.Traditional teaching models struggle to meet the demands of talent cultivation in the new era.The integration of“Internet+AI”technologies brings revolutionary opportunities to reading instruction,significantly enriching teaching resources,enabling personalized teaching,enhancing interactivity,and optimizing evaluation systems.Guided by principles such as student-centeredness and integrated innovation,this study proposes multiple strategies for advancing teaching practices.Using the Understanding Contemporary China:English Reading and Writing Tutorial(Foreign Language Teaching and Research Press)as a case study,this paper explores practical pathways for reforming college English reading instruction,aiming to improve teaching quality and students’comprehensive English reading literacy.展开更多
Although hypertension is a frequently seen chronic condition across the world,its exact cause remains unclear.Animal models are beneficial for clarifying the pathogenic mechanism of hypertension and examining new trea...Although hypertension is a frequently seen chronic condition across the world,its exact cause remains unclear.Animal models are beneficial for clarifying the pathogenic mechanism of hypertension and examining new treatments.An optimal animal model for studies on hypertension must well mimic human-like hemodynamics and pathophysiological structural modification,showing human disease features and complications timely or even ahead of time.A review of the most frequently used hypertensive animal models available,including small and large animals,induced and genetic models,would provide an insight into the appropriate targets to be addressed in the development of different hypertensive animal models.Another focus of the review are the processes of target-organs injury caused by high blood pressure,which mainly influences human health.展开更多
Background As information technology has advanced and been popularized,open pit mining has rapidly developed toward integration and digitization.The three-dimensional reconstruction technology has been successfully ap...Background As information technology has advanced and been popularized,open pit mining has rapidly developed toward integration and digitization.The three-dimensional reconstruction technology has been successfully applied to geological reconstruction and modeling of surface scenes in open pit mines.However,an integrated modeling method for surface and underground mine sites has not been reported.Methods In this study,we propose an integrated modeling method for open pit mines that fuses a real scene on the surface with an underground geological model.Based on oblique photography,a real-scene model was established on the surface.Based on the surface-stitching method proposed,the upper and lower surfaces and sides of the model were constructed in stages to construct a complete underground three-dimensional geological model,and the aboveground and underground models were registered together to build an integrated open pit mine model.Results The oblique photography method used reconstructed a surface model of an open pit mine using a real scene.The surface-stitching algorithm proposed was compared with the ball-pivoting and Poisson algorithms,and the integrity of the reconstructed model was markedly superior to that of the other two reconstruction methods.In addition,the surface-stitching algorithm was applied to the reconstruction of different formation models and showed good stability and reconstruction efficiency.Finally,the aboveground and underground models were accurately fitted after registration to form an integrated model.Conclusions The proposed method can efficiently establish an integrated open pit model.Based on the integrated model,an open pit auxiliary planning system was designed and realized.It supports the functions of mining planning and output calculation,assists users in mining planning and operation management,and improves production efficiency and management levels.展开更多
The Dst index has been commonly used to measure the geomagnetic effectiveness of magnetic storm events for several decades.Based on Burton’s empirical Dst model and the global magneto-hydrodynamic(MHD)simulation of E...The Dst index has been commonly used to measure the geomagnetic effectiveness of magnetic storm events for several decades.Based on Burton’s empirical Dst model and the global magneto-hydrodynamic(MHD)simulation of Earth’s magnetosphere,here we proposed a semi-empirical model to forecast the Dst index during geomagnetic storms.In this model,the ring current contribution to the Dst index is derived from Burton’s model,while the contributions from other current systems are obtained from the global MHD simulation.In order to verify the model accuracy,a number of recent magnetic storm events are tested and the simulated Dst index is compared with the observation through the correlation coefficient(CC),prediction efficiency(PE),root mean square error(RMSE)and central root mean square error(CRMSE).The results indicate that,in the context of moderate and intense geomagnetic storm events,the semi-empirical model performs well in global MHD simulations,showing relatively higher CC and PE,and lower RMSE and CRMSE compared to those from the empirical model.Compared with the physics-based ring current models,this model inherits the advantage of fast processing from the empirical model,and easy implementation in a global MHD model of Earth’s magnetosphere.Therefore,it is suitable for the Dst estimation under a context of a global MHD simulation.展开更多
基金Supported by the National Key Specialty of Traditional Chinese Medicine(Spleen and Stomach Diseases),No.0500004National Natural Science Foundation of China,No.82205104 and No.82104850+1 种基金Hospital Capability Enhancement Project of Xiyuan Hospital,CACMS,No.XYZX0303-07the Fundamental Research Funds for the Central Public Welfare Research Institutes,Excellent Young Scientists Training Program of China Academy of Chinese Medical Sciences,No.ZZ16-YQ-002.
文摘BACKGROUND Non-erosive reflux disease(NERD),the main gastroesophageal reflux subtype,features reflux symptoms without mucosal damage.Anxiety links to visceral hypersensitivity in NERD,yet mechanisms and animal models are unclear.AIM To establish a translational NERD rat model with anxiety comorbidity via tail clamping and study corticotropin-releasing hormone(CRH)-mediated neuroimmune pathways in visceral hypersensitivity and esophageal injury.METHODS Sprague-Dawley(SD)and Wistar rats were grouped into sham,model,and modified groups(n=10 each).The treatments for the modified groups were as follows:SD rats received ovalbumin/aluminum hydroxide suspension+acid perfusion±tail clamping(40 minutes/day for 7 days),while Wistar rats received fructose water+tail clamping.Esophageal pathology,visceral sensitivity,and behavior were assessed.Serum CRH,calcitonin gene-related peptide(CGRP),5-hydroxytryptamine(5-HT),and mast cell tryptase(MCT)and central amygdala(CeA)CRH mRNA were measured via ELISA and qRT-PCR.RESULTS Tail clamping induced anxiety,worsening visceral hypersensitivity(lower abdominal withdrawal reflex thresholds,P<0.05)and esophageal injury(dilated intercellular spaces and mitochondrial edema).Both models showed raised serum CRH,CGRP,5-HT,and MCT(P<0.01)and CeA CRH mRNA expression(P<0.01).Behavioral tests confirmed anxiety-like phenotypes.NERD-anxiety rats showed clinical-like symptom severity without erosion.CONCLUSION Tail clamping induces anxiety in NERD models,worsening visceral hypersensitivity via CRH neuroimmune dysregulation,offering a translational model and highlighting CRH as a treatment target.
基金funded by the Deutsche Forschungsgemeinschaft(DFG,German Research Foundation):project ID 431549029-SFB 1451the Marga-und-Walter-Boll-Stiftung(#210-10-15)(to MAR)a stipend from the'Gerok Program'(Faculty of Medicine,University of Cologne,Germany)。
文摘Noninvasive brain stimulation techniques offer promising therapeutic and regenerative prospects in neurological diseases by modulating brain activity and improving cognitive and motor functions.Given the paucity of knowledge about the underlying modes of action and optimal treatment modalities,a thorough translational investigation of noninvasive brain stimulation in preclinical animal models is urgently needed.Thus,we reviewed the current literature on the mechanistic underpinnings of noninvasive brain stimulation in models of central nervous system impairment,with a particular emphasis on traumatic brain injury and stroke.Due to the lack of translational models in most noninvasive brain stimulation techniques proposed,we found this review to the most relevant techniques used in humans,i.e.,transcranial magnetic stimulation and transcranial direct current stimulation.We searched the literature in Pub Med,encompassing the MEDLINE and PMC databases,for studies published between January 1,2020 and September 30,2024.Thirty-five studies were eligible.Transcranial magnetic stimulation and transcranial direct current stimulation demonstrated distinct strengths in augmenting rehabilitation post-stroke and traumatic brain injury,with emerging mechanistic evidence.Overall,we identified neuronal,inflammatory,microvascular,and apoptotic pathways highlighted in the literature.This review also highlights a lack of translational surrogate parameters to bridge the gap between preclinical findings and their clinical translation.
基金supported by the Grant PID2021-126715OB-IOO financed by MCIN/AEI/10.13039/501100011033 and"ERDFA way of making Europe"by the Grant PI22CⅢ/00055 funded by Instituto de Salud CarlosⅢ(ISCⅢ)+6 种基金the UFIECPY 398/19(PEJ2018-004965) grant to RGS funded by AEI(Spain)the UFIECPY-396/19(PEJ2018-004961)grant financed by MCIN (Spain)FI23CⅢ/00003 grant funded by ISCⅢ-PFIS Spain) to PMMthe UFIECPY 328/22 (PEJ-2021-TL/BMD-21001) grant to LM financed by CAM (Spain)the grant by CAPES (Coordination for the Improvement of Higher Education Personnel)through the PDSE program (Programa de Doutorado Sanduiche no Exterior)to VSCG financed by MEC (Brazil)
文摘The brain is the most complex human organ,and commonly used models,such as two-dimensional-cell cultures and animal brains,often lack the sophistication needed to accurately use in research.In this context,human cerebral organoids have emerged as valuable tools offering a more complex,versatile,and human-relevant system than traditional animal models,which are often unable to replicate the intricate architecture and functionality of the human brain.Since human cerebral organoids are a state-of-the-art model for the study of neurodevelopment and different pathologies affecting the brain,this field is currently under constant development,and work in this area is abundant.In this review,we give a complete overview of human cerebral organoids technology,starting from the different types of protocols that exist to generate different human cerebral organoids.We continue with the use of brain organoids for the study of brain pathologies,highlighting neurodevelopmental,psychiatric,neurodegenerative,brain tumor,and infectious diseases.Because of the potential value of human cerebral organoids,we describe their use in transplantation,drug screening,and toxicology assays.We also discuss the technologies available to study cell diversity and physiological characteristics of organoids.Finally,we summarize the limitations that currently exist in the field,such as the development of vasculature and microglia,and highlight some of the novel approaches being pursued through bioengineering.
基金Sichuan Provincial Administration of Traditional Chinese Medicine,Grant/Award Number:2023MS564National Natural Science Foundation of China,Grant/Award Number:82474436。
文摘Lung cancer has one of the highest rates of incidence and mortality worldwide,mak-ing research on its mechanisms and treatments crucial.Animal models are essential in lung cancer research as they accurately replicate the biological characteristics and treatment outcomes seen in human diseases.Currently,various lung cancer models have been established,including chemical induction models,orthotopic transplan-tation models,ectopic transplantation models,metastasis models,and gene editing mouse models.Additionally,lung cancer grafts can be categorized into two types:tissue-based and cell-based grafts.This paper summarizes the phenotypes,advan-tages,and disadvantages of various induction methods based on their modeling tech-niques.The goal is to enhance the simulation of clinical lung cancer characteristics and to establish a solid foundation for future clinical research.
基金supported by the Health Systems Research Institute(HSRI),Thailand。
文摘Objectives:This integrative review aimed to examine and synthesize existing empirical evidence on nurse-led clinics(NLCs)in primary care settings,with a focus on models of care implemented globally.Methods:The review adhered to PRISMA guidelines,with rigorous inclusion and exclusion criteria applied.A systematic search was conducted across the Cochrane Library,EMBASE,Medline via EBSCO,PubMed,ScienceDirect,Scopus,and bibliographic databases for studies published between 2014 and 2024.Eligible studies included original,peer-reviewed research focused on nurse-led or nurse-managed clinics.A convergent integrated synthesis approach and thematic analysis were employed to identify key models of care.Results:The search yielded 1,651 records;13 studies met the inclusion criteria.Data synthesis revealed six distinct models of care implemented in community-based nurse-led clinics:Innovative Cognitive Care,Integrated Multidisciplinary Care,Community-Driven Underserved Population Care,Reproductive and Women's Health Innovation,Palliative Care Model,and Behavioral Health Integration.Conclusions:Nurse-led models of care are crucial for strengthening primary healthcare,particularly in underserved settings.Further research and policy support are needed to expand nurses'roles,enhance their competencies,and promote interdisciplinary collaboration for the delivery of sustainable and equitable health services.
基金National Key R&D Program of China,Grant/Award Number:2021YFC2502100,2023YFC3603404 and 2019YFA0111900The National Natural Science Foundation of China,Grant/Award Number:82072506,82272611 and 92268115+7 种基金The Hunan Provincial Science Fund for Distinguished Young Scholars,Grant/Award Number:2024JJ2089The Hunan Young Talents of Science and Technology,Grant/Award Number:2021RC3025The Provincial Clinical Medical Technology Innovation Project of Hunan,Grant/Award Number:2023SK2024 and 2020SK53709The Provincial Natural Science Foundation of Hunan,Grant/Award Number:2020JJ3060The National Natural Science Foundation of Hunan Province,Grant/Award Number:2023JJ30949The National Clinical Research Center for Geriatric Disorders,Xiangya Hospital,Grant/Award Number:2021KFJJ02 and 2021LNJJ05The Hunan Provincial Innovation Foundation for Postgraduate,Grant/Award Number:CX20230308 and CX20230312The Independent Exploration and Innovation Project for Postgraduate Students of Central South University,Grant/Award Number:2024ZZTS0163。
文摘Frozen shoulder(FS),also known as adhesive capsulitis,is a condition that causes contraction and stiffness of the shoulder joint capsule.The main symptoms are per-sistent shoulder pain and a limited range of motion in all directions.These symp-toms and poor prognosis affect people's physical health and quality of life.Currently,the specific mechanisms of FS remain unclear,and there is variability in treatment methods and their efficacy.Additionally,the early symptoms of FS are difficult to distinguish from those of other shoulder diseases,complicating early diagnosis and treatment.Therefore,it is necessary to develop and utilize animal models to under-stand the pathogenesis of FS and to explore treatment strategies,providing insights into the prevention and treatment of human FS.This paper reviews the rat models available for FS research,including external immobilization models,surgical internal immobilization models,injection modeling models,and endocrine modeling models.It introduces the basic procedures for these models and compares and analyzes the advantages,disadvantages,and applicability of each modeling method.Finally,our paper summarizes the common methods for evaluating FS rat models.
基金granted by the Xinjiang Geological Exploration Fund。
文摘The northwestern margin of Junggar Basin is the region with the richest oil sand resources in China.For better understanding the enrichment rules and deployment of exploration and development of regional oil sand,it is of great scientific significance to study the accumulation conditions of oil sand in different strata and mining areas of the Junggar Basin.Through a large number of field investigations,drilling verification and sampling tests,it is found that the oil sand in the region covers an area of 2000 km^(2),with shallow and thick reservoir,and predicted resource of 180 million tons.The oil sand resources are mainly distributed in four geological strata,namely the Middle Triassic Karamay Formation,Early Jurassic Badaowan Formation,Late Jurassic Qigu Formation,and Early Cretaceous Qingshuihe Formation.The reservoir is mainly composed of sandstone with high porosity and permeability,and the reservoir space is mainly intergranular pores with a medium average oil content.The oil sand deposit in the region is a typical destructive oil reservoir.The crude oil in the oil sand layer is degraded and thickened from the deep to the shallow,the content of saturated hydrocarbon decreased,and the content of aromatic hydrocarbon,non-hydrocarbon and asphaltene increased.The oil source comes from the deep Permian hydrocarbon-generating depression.Unconformities,faults and marginal fan delta-braided river depositional systems constitute effective migration and storage systems.Caprocks of the Upper Triassic Baijiantan Formation,Lower Jurassic Sangonghe Formation and Lower Cretaceous Hutubihe Formation were formed by three large scale lake transgressions.The Indosinian,Yanshan and Late Yanshan movements are the main driving forces for the migration of deep oil and gas to the shallow edge to form oil sand deposits.It is considered that the oil sand in the northwestern margin of Junggar Basin is of a slope complex migration type.
基金supported by the National Key Research and Development Program(2021YFC3002205)the Postgraduate Research and Innovation Program of Tianjin Municipal Education Commission(2022BKY113),China.
文摘Cardiac arrest(CA)is a critical condition in the field of cardiovascular medicine.Despite successful resuscitation,patients continue to have a high mortality rate,largely due to post CA syndrome(PCAS).However,the injury and pathophysiological mechanisms underlying PCAS remain unclear.Experimental animal models are valuable tools for exploring the etiology,pathogenesis,and potential interventions for CA and PCAS.Current CA animal models include electrical induction of ventricular fibrillation(VF),myocardial infarction,high potassium,asphyxia,and hemorrhagic shock.Although these models do not fully replicate the complexity of clinical CA,the mechanistic insights they provide remain highly relevant,including post-CA brain injury(PCABI),post-CA myocardial dysfunction(PAMD),systemic ischaemia/reperfusion injury(IRI),and the persistent precipitating pathology.Summarizing the methods of establishing CA models,the challenges encountered in the modeling process,and the mechanisms of PCAS can provide a foundation for developing standardized CA modeling protocols.
基金National Natural Science Foundation of China,Grant/Award Number:82222041 and 82241068CAMS Innovation Fund for Medical Sciences,Grant/Award Number:2021-I2M-1-037 and 2023-I2M-2-001+1 种基金National Key Research and Development Project of China,Grant/Award Number:2023YFC2309000Beijing Natural Science Foundation,Grant/Award Number:Z220018。
文摘Human herpesvirus,a specific group within the herpesvirus family,is responsible for a variety of human diseases.These viruses can infect humans and other vertebrates,primarily targeting the skin,mucous membranes,and neural tissues,thereby signifi-cantly impacting the health of both humans and animals.Animal models are crucial for studying virus pathogenesis,vaccine development,and drug testing.Despite several vaccine candidates being in preclinical and clinical stages,no vaccines are current available to prevent lifelong infections caused by these human herpesviruses,except for varicella-zoster virus(VZV)vaccine.However,the strict host tropism of herpes-viruses and other limitations mean that no single animal model can fully replicate all key features of human herpesvirus-associated diseases.This makes it challeng-ing to evaluate vaccines and antivirals against human herpesvirus comprehensively.Herein,we summarize the current animal models used to study the human herpesvi-ruses includingα-herpesviruses(herpes simplex virus type 1(HSV-1),HSV-2,VZV),β-herpesviruses(human cytomegalovirus(HCMV),γ-herpesviruses(Epstein-Barr virus(EBV))and Kaposi's sarcoma herpesvirus(KSHV)).By providing concise information and detailed analysis of the potential,limitations and applications of various models,such as non-human primates,mice,rabbits,guinea pigs,and tree shrews,this sum-mary aims to help researchers efficiently select the most appropriate animal model,offering practical guidance for studying human herpesvirus.
基金supported by the Fundamental Research Funds for the Central Universities(No.30922010719).
文摘Underwater jet propulsion bio-inspired robots have typically been designed based on soft-bodied organisms, exhibiting relatively limited forms of locomotion. Scallop, a bivalve organism capable of jet propulsion, holds significant importance in the study of underwater motion mechanisms. In this study, we present theoretical fluid mechanics analysis and modeling of the three distinct motion stages of scallops, providing parameterized descriptions of scallop locomotion mechanisms. Accordingly, three-stage adaptive motion control for the scallop robot and model-based robot configuration optimization design were achieved. An experimental platform and a robot prototype were built to validate the accuracy of the motion model and the effectiveness of the control strategy. Additionally, based on the models, future optimization directions for the robot are proposed.
基金Liaoning Provincial Key Research and Development Program,Grant/Award Number:2024JH2/102500062China Health Promotion Foundation Spark Program,Grant/Award Number:XH-D001National Natural Science Foundation of China,Grant/Award Number:82104838。
文摘Cisplatin chemotherapy has been used as the main treatment for different types of cancer.However,cisplatin chemotherapy-induced peripheral neuropathic pain(CIPNP)seriously affects the treatment process and quality of life of patients.In addition,it impacts the underlying mechanism and prevention and treatment strategies,indicating that drug selection and efficacy evaluation need to be further investigated.Furthermore,an animal model that is more consistent with the pathological mechanism needs to be developed.In this study,we describe and discuss the methods of developing and detecting CIPNP models in rats and mice induced by cisplatin chemotherapy.The aim was to improve the modeling rate and develop animal models that are more consistent with the developmental pattern of the disease.In addition,the study provides ideal reference animal models for clinical research and drug discovery and development.
文摘This study systematically reviews the development history and key technological breakthroughs of large gas fields in the Ordos Basin,and summarizes the development models of three gas reservoir types,low-permeability carbonate,low-permeability sandstone and tight sandstone,as well as the progress in deep coal-rock gas development.The current challenges and future development directions are also discussed.Mature development models have been formed for the three representative types of gas reservoirs in the Ordos Basin:(1)Low-permeability carbonate reservoir development model featuring groove fine-scale characterization and three-dimensional vertical succession between Upper and Lower Paleozoic formations.(2)Low-permeability sandstone reservoir development model emphasizing horizontal well pressure-depletion production and vertical well pressure-controlled production.(3)Tight sandstone gas reservoir development model focusing on single-well productivity enhancement and well placement optimization.In deep coal-rock gas development,significant progress has been achieved in reservoir evaluation,sweet spot prediction,and geosteering of horizontal wells.The three types of reservoirs have entered the mid-to-late stages of the development,when the main challenge lies in accurately characterizing residual gas,evaluating secondary gas-bearing layers,and developing precise potential-tapping strategies.In contrast,for the early-stage development of deep coal-rock gas,continuous technological upgrades and cost reduction are essential to achieving economically viable large-scale development.Four key directions of future research and technological breakthroughs are proposed:(1)Utilizing dual-porosity(fracture-matrix)modeling techniques in low-permeability carbonate reservoirs to delineate the volume and distribution of remaining gas in secondary pay zones,supporting well pattern optimization and production enhancement of existing wells.(2)Integrating well-log and seismic data to characterize reservoir spatial distribution of successive strata,enhancing drilling success rates in low-permeability sandstone reservoirs.(3)Utilizing the advantages of horizontal wells to penetrate effective reservoirs laterally,achieving meter-scale quantification of small-scale single sand bodies in tight gas reservoirs,and applying high-resolution 3D geological models to clarify the distribution of remaining gas and guide well placement optimization.(4)Further strengthening the evaluation of deep coal-rock gas in terms of resource potential,well type and pattern,reservoir stimulation,single-well performance,and economic viability.
文摘Psychoneuroimmunology is a scientific discipline exploring the interconnectedness of the nervous system,emotion state,and immune system.The current review examines the distinct mechanisms through which the mind and body interact when subjected to stress.Manifestations of psychoneuroimmunological stress encompass symptoms such as depression,aggression,fear,and social withdrawal,which can exert a profound impact on physiological well-being.Some observations suggest that humans and nonhuman animals exhibit similar stress-related symptoms,aiding in the identification of pharmacological pathways and potential clinical implications of therapeutic interventions.Animal stress models are predicated on varying approaches aimed at eliciting a motivational state to navigate and confront aversive circumstances.The current review describes the diverse stress induction models that have been investigated internationally,incorporating an ethological perspective that involves evaluating innate and unpunished behaviors through methodologies like the elevated plus maze,elevated zero maze,light-dark box,and open field test.Additionally,conditioned operant conflict tests,such as the Vogel conflict test,fall under the purview of learning and punishment models.This category encompasses classic conditioning models like fear conditioning,psychosocial models such as social defeat,and physical and chronic unpredictable stress paradigms.In this review,we critically evaluate existing cognitive and behavioral frameworks underpinning the development and perpetuation of stress-related disorders,while also elucidating the impact of immune system responses on the mental and physical health of animals.The primary objective of this review is to elucidate the array of animal models employed in previous research and the testing protocols used to assess animal performance in stress induction scenarios,with the ultimate aim of reducing mortality rates among research animals.
基金Supported by Slovak Research and Development Agency,No.APVV-21-0370Ministry of Education,Science,Research and Sport of the Slovak Republic,No.VEGA 1/0706/25 and No.VEGA 1/0341/23.
文摘BACKGROUND Metabolic dysfunction-associated steatotic liver disease(MASLD)is a prevalent chronic liver disorder driven by obesity and metabolic dysfunction.MASLD progresses to metabolic dysfunction-associated steatohepatitis,which is characterized by inflammation,hepatocyte injury,and fibrosis,increasing the risk of cirrhosis and liver failure.Recent studies suggest that neutrophil extracellular traps(NETs)and extracellular DNA(ecDNA)contribute to liver inflammation and fibrogenesis.However,their role in MASLD pathogenesis remains incompletely understood.AIM To investigate the dynamics of circulating NETs and ecDNA as potential biomarkers of liver injury in MASLD.METHODS Using three complementary mouse models,thioacetamide(TAA)-induced fibrosis,choline-deficient L-amino acid-defined(CDAA)diet-induced metabolic dysfunction-associated steatohepatitis,and cafeteria(CAF)diet-induced MASLD,we assessed the association between NET-related markers and liver damage.Blood samples were collected biweekly to analyze ecDNA and NET markers,including myeloperoxidase(MPO)and MPO-DNA complexes,using ELISA and real-time PCR.Liver histopathology was assessed for inflammation,fibrosis,and neutrophil infiltration.RESULTS The TAA and CDAA models exhibited significant liver injury,characterized by increased plasma alanine aminotransferase and aspartate aminotransferase levels,hepatocellular damage,and fibrosis.Elevated circulating NET markers(MPO and ecDNA)were observed in these models,with a strong correlation between NET formation and liver pathology.The CAF diet model induced steatosis but failed to elicit significant liver fibrosis or an increase in NET markers,suggesting that NETosis is associated with more severe liver damage.Notably,ecDNA and MPO levels correlated with neutrophil infiltration and fibrosis scores,indicating their potential as biomarkers of MASLD progression.CONCLUSION NETosis and ecDNA levels reflect liver injury severity in MASLD.NET markers and liver fibrosis were strongly associated in TAA and CDAA models,whereas CAF model showed minimal NET involvement.
基金Jilin Provincial Department of Education,Grant/Award Number:JJKH20230958KJJilin Scientific and Technological Development Program,Grant/Award Number:YDZJ202401092ZYTS。
文摘Post-stroke depression(PSD) is a common psychiatric complication affecting nearly one-third of stroke survivors, leading to increased disability, mortality, and cognitive decline. Traditional Chinese Medicine(TCM) has proven effective in treating PSD through syndrome differentiation, yet existing animal models primarily reflect Western medical concepts and fail to incorporate the TCM principle of “同病异治”( treating the same disease with different methods). This paper provides a review of the current methods for constructing animal models of post-stroke depression(PSD) from the perspective of Traditional Chinese Medicine(TCM) syndrome differentiation and proposes multi-dimensional assessment indicators. By integrating TCM theories with modern biomedical techniques, this study offers a comprehensive framework for deepening the understanding of the pathogenesis and therapeutic evaluation of PSD. This approach not only contributes to advancing PSD research but also paves the way for innovative treatment strategies that combine traditional and modern medicine.
基金the Project of the Key Open Laboratory of Atmospheric Detection,China Meteorological Administration(2023KLAS02M)the Second Batch of Science and Technology Project of China Meteorological Administration("Jiebangguashuai"):the Research and Development of Short-term and Near-term Warning Products for Severe Convective Weather in Beijing-Tianjin-Hebei Region(CMAJBGS202307).
文摘Firstly,based on the data of air quality and the meteorological data in Baoding City from 2017 to 2021,the correlations of meteorological elements and pollutants with O_(3)concentration were explored to determine the forecast factors of forecast models.Secondly,the O_(3)-8h concentration in Baoding City in 2021 was predicted based on the constructed models of multiple linear regression(MLR),backward propagation neural network(BPNN),and auto regressive integrated moving average(ARIMA),and the predicted values were compared with the observed values to test their prediction effects.The results show that overall,the MLR,BPNN and ARIMA models were able to forecast the changing trend of O_(3)-8h concentration in Baoding in 2021,but the BPNN model gave better forecast results than the ARIMA and MLR models,especially for the prediction of the high values of O_(3)-8h concentration,and the correlation coefficients between the predicted values and the observed values were all higher than 0.9 during June-September.The mean error(ME),mean absolute error(MAE),and root mean square error(RMSE)of the predicted values and the observed values of daily O_(3)-8h concentration based on the BPNN model were 0.45,19.11 and 24.41μg/m 3,respectively,which were significantly better than those of the MLR and ARIMA models.The prediction effects of the MLR,BPNN and ARIMA models were the best at the pollution level,followed by the excellent level,and it was the worst at the good level.In comparison,the prediction effect of BPNN model was better than that of the MLR and ARIMA models as a whole,especially for the pollution and excellent levels.The TS scores of the BPNN model were all above 66%,and the PC values were above 86%.The BPNN model can forecast the changing trend of O_(3)concentration more accurately,and has a good practical application value,but at the same time,the predicted high values of O_(3)concentration should be appropriately increased according to error characteristics of the model.
文摘In the wave of the“Internet+AI”era,information technology is comprehensively reshaping the landscape of college English reading education.Traditional teaching models struggle to meet the demands of talent cultivation in the new era.The integration of“Internet+AI”technologies brings revolutionary opportunities to reading instruction,significantly enriching teaching resources,enabling personalized teaching,enhancing interactivity,and optimizing evaluation systems.Guided by principles such as student-centeredness and integrated innovation,this study proposes multiple strategies for advancing teaching practices.Using the Understanding Contemporary China:English Reading and Writing Tutorial(Foreign Language Teaching and Research Press)as a case study,this paper explores practical pathways for reforming college English reading instruction,aiming to improve teaching quality and students’comprehensive English reading literacy.
基金National Natural Science Foundation of China,Grant/Award Number:82270289Chinese Academy of Medical Sciences Innovation Fund for Medical Sciences(CAMS),Grant/Award Number:2021-I2M-1-035the National key research and development program,Grant/Award Number:2022YFF0710600。
文摘Although hypertension is a frequently seen chronic condition across the world,its exact cause remains unclear.Animal models are beneficial for clarifying the pathogenic mechanism of hypertension and examining new treatments.An optimal animal model for studies on hypertension must well mimic human-like hemodynamics and pathophysiological structural modification,showing human disease features and complications timely or even ahead of time.A review of the most frequently used hypertensive animal models available,including small and large animals,induced and genetic models,would provide an insight into the appropriate targets to be addressed in the development of different hypertensive animal models.Another focus of the review are the processes of target-organs injury caused by high blood pressure,which mainly influences human health.
基金Supported by Liaoning Province Science and Technology Research Project(2021JH1/10400011)National Natural Science Foundation of China(61971118).
文摘Background As information technology has advanced and been popularized,open pit mining has rapidly developed toward integration and digitization.The three-dimensional reconstruction technology has been successfully applied to geological reconstruction and modeling of surface scenes in open pit mines.However,an integrated modeling method for surface and underground mine sites has not been reported.Methods In this study,we propose an integrated modeling method for open pit mines that fuses a real scene on the surface with an underground geological model.Based on oblique photography,a real-scene model was established on the surface.Based on the surface-stitching method proposed,the upper and lower surfaces and sides of the model were constructed in stages to construct a complete underground three-dimensional geological model,and the aboveground and underground models were registered together to build an integrated open pit mine model.Results The oblique photography method used reconstructed a surface model of an open pit mine using a real scene.The surface-stitching algorithm proposed was compared with the ball-pivoting and Poisson algorithms,and the integrity of the reconstructed model was markedly superior to that of the other two reconstruction methods.In addition,the surface-stitching algorithm was applied to the reconstruction of different formation models and showed good stability and reconstruction efficiency.Finally,the aboveground and underground models were accurately fitted after registration to form an integrated model.Conclusions The proposed method can efficiently establish an integrated open pit model.Based on the integrated model,an open pit auxiliary planning system was designed and realized.It supports the functions of mining planning and output calculation,assists users in mining planning and operation management,and improves production efficiency and management levels.
基金supported by NNSFC grants 42150101,42188105,42304189National Key R&D program of China No.2021YFA-0718600the Pandeng Program of National Space Science Center,Chinese Academy of Sciences.
文摘The Dst index has been commonly used to measure the geomagnetic effectiveness of magnetic storm events for several decades.Based on Burton’s empirical Dst model and the global magneto-hydrodynamic(MHD)simulation of Earth’s magnetosphere,here we proposed a semi-empirical model to forecast the Dst index during geomagnetic storms.In this model,the ring current contribution to the Dst index is derived from Burton’s model,while the contributions from other current systems are obtained from the global MHD simulation.In order to verify the model accuracy,a number of recent magnetic storm events are tested and the simulated Dst index is compared with the observation through the correlation coefficient(CC),prediction efficiency(PE),root mean square error(RMSE)and central root mean square error(CRMSE).The results indicate that,in the context of moderate and intense geomagnetic storm events,the semi-empirical model performs well in global MHD simulations,showing relatively higher CC and PE,and lower RMSE and CRMSE compared to those from the empirical model.Compared with the physics-based ring current models,this model inherits the advantage of fast processing from the empirical model,and easy implementation in a global MHD model of Earth’s magnetosphere.Therefore,it is suitable for the Dst estimation under a context of a global MHD simulation.
