Animal experimentation constitutes a critical link between basic research and clinical application, making its research quality and translational efficiency paramount. Although considerable progress has been made in standardizing operational procedures and ethical guidelines, the standardization of outcome evaluation systems has significantly lagged, creating a key bottleneck that constrains the quality of biomedical research and evidence synthesis. This deficiency is manifested by pronounced heterogeneity in outcome selection across similar studies, incomplete methodological reporting, and disparate criteria for result interpretation, which severely impairs the comparability of findings and the evidence integration. To cope with this challenge, this paper systematically introduces a mature methodological tool from clinical research–the core outcome set (COS)–and explores its construction strategies and application potential in the field of animal experimentation. Given the extensive diversity of animal experiments, a pragmatic strategy of "focusing on key areas, implementing phased pilots, and promoting gradual expansion" should be adopted. This approach prioritizes the development of domain-specific COS for disease areas characterized by high research volume, urgent translational needs, and well-established animal models. A multi-source integration pathway for COS development is detailed, comprising systematic literature searches, methodological appraisals, and expert consensus, with the feasibility of leveraging artificial intelligence (AI) to enhance efficiency also being examined. The development and promotion of such COS are not intended to restrict scientific exploration; rather, they aim to establish a new, tiered evaluation paradigm consisting of "core outcomes" (mandatory), "recommended outcomes" (encouraged), and "exploratory outcomes" (optional). This framework is expected not only to enhance research quality through standardization and to adhere to the "3R" principles but also to accelerate the accumulation of high-quality evidence. This, in turn, provides a solid foundation for higher-level evidence synthesis, ultimately facilitating the effective translation of basic research findings into clinical practice and providing an essential methodological framework for scientific advancement in relevant disciplines.

Objective To assess coronary microvascular obstruction(MVO)after percutaneous coronary intervention in(PCI)patients with acute ST-segment elevation myocardial infarction(STEMI)and to investigate its value for patient prognosis.Methods We enrolled 97 patients who were hospitalized for acute STEMI at Wuhan Asia Heart Hospital from May 2021 to June 2024,underwent emergency PCI during hospitalization,and completed cardiac magnetic resonance(CMR)at a median of 7(5,8)days after the procedure.Patients were classified into MVO group(n=58)and non-MVO group(n=39)according to the results of CMR.Cox regression was used to analyse predictors of adverse events after PCI.Patients were followed for a median of 11.5(8.5,24.5)months for the occurrence of major adverse cardiovascular events(MACE,a composite outcome including readmission for heart failure,recurrent myocardial infarction,target vessel restenosis,target vessel revascularisation,and cardiac death)and secondary endpoint events(left ventricular remodelling,non-cardiac death).Results MVO was evidenced in 58 patients(59.79％).Multifactorial Cox regression analysis showed that MVO(HR 7.024,95％CI 1.408-35.027,P=0.017)and the proportion of inactive myocardium to the left ventricle(HR 1.066,95％CI 1.014-1.121,P=0.012)were the independent predictors factors for the incidence of adverse events in STEMI patients after PCI.The median follow-up time was 11.5(8.5,24.5)months.There was no statistically significant difference in the incidence of MACE between the MVO group and the non-MVO group(P=0.347).However,the MVO group had a higher incidence of secondary endpoints(32.76％ vs.2.56％,P＜0.001)and a higher incidence of left ventricular remodeling(29.31％ vs.2.56％,P＜0.001).Kaplan Meier survival analysis showed that the prognosis of the non-MVO group was significantly better than that of the MVO group(Log-rank P＜0.001).Conclusions MVO after PCI in patients with acute STEMI is a good predictor of clinical prognosis.

Objective:To investigate the effect of elimination,combination,rearrangement and simplification(ECRS)management combined with risk assessment on reducing the incidence of multidrug-resistant bacteria infections of patients who received mechanical ventilation in intensive care unit(ICU).Methods:The management mode of prevention and control for multidrug-resistant bacteria infections of patients in ICU was optimized on the basis of ECRS management combined with risk assessment.A total of 600 patients who received mechanical ventilation in ICU of Jiuquan Hospital of Shanghai General Hospital(Jiuquan People's Hospital)from January 2022 to December 2023 were selected.According to different management methods,these patients were divided into a control group and an observation group,with 300 cases in each group.The control group was managed by using the risk assessment management method,while the observation group was managed by using the ECRS management on the basis of risk assessment management method.The indicators of respiratory function,patients'satisfaction score,stay time in ICU,time of mechanical ventilation and incidence of multidrug-resistant bacteria were compared between the two groups.Results:The mean value of the ratio of forced expiratory volume in one second(FEV1)to forced vital capacity(FVC)(FEV1/FVC),and the FEV1 level in observation group by using ECRS management combined with risk assessment method were respectively(78.69±4.65)%and(1.58±0.24)L,both of which were higher than those of control group,and the differences of them between two groups were statistically significant(t=16.483,11.742,P<0.05).The average scores of work efficiency,emergency response capability,professional ethics,isolation and resettlement,and overall patients'satisfaction in the observation group were respectively(23.12±1.20),(23.34±1.08),(23.65±1.10),(23.80±1.05)and(92.24±4.37),all of which were higher than those in the control group,and the differences of them between two groups were statistically significant(t=22.176,27.903,22.373,31.364,13.963,P<0.05).The average ICU stay time and the average time of mechanical ventilation were respectively(14.15±1.60)and(9.15±2.13)days in the observation group,both of which were lower than those in the control group,and the differences of them between two groups were statistically significant(t=16.872,15.410,P<0.05).The incidence of multidrug-resistant bacteria was 0.33%in 300 patients of the observation group,which was lower than that of the control group,with a statistically significant difference(x2=4.561,P<0.05).Conclusion:The application of ECRS management combined with risk assessment in the management of ICU for patients who receive mechanical ventilation can protect respiratory function of patients,and decrease the risk of occurring the infection of multidrug-resistant bacteria,and reduce ICU stay time and the time of mechanical ventilation of patients,and improve patients'satisfaction.

Aim To study the effect of evodiamine(EVO)regulating forkhead box protein Ml(FOXM1)on the proliferation and apoptosis of colorectal cancer-resistant cells HCT8/5-FU.Methods CCK-8 assay and EdU assay were used to detect the effect of EVO on cell proliferation ability.Clone formation assay was employed to detect the effect of EVO on the clone for-mation ability of cells.Flow cytometric counting was applied to detect apoptosis.Western blot was utilized to detect the expression of cellular Bcl-2,Bax,FOXM1,β-catenin,c-MYC,and CyclinD1;Molecular docking was used to explore the EVO-FOXM1 interac-tion.Nude mouse transplant tumor model was estab-lished to validate the effect of EVO on HCT8/5-FU cells in vivo.Results CCK-8 assay showed that EVO inhibited the proliferation of HCT8/5-FU cells in a time-and concentration-dependent manner.EdU assay found that the newly proliferated cells in the EVO-trea-ted group were significantly reduced.The results of the clone formation assay showed that EVO inhibited the clone-forming ability of HCT8/5-FU cells.Flow cyto-metric counting found that apoptosis rate of the cells in the EVO group significantly increased.Western blot showed that FOXM1 and β-catenin were significantly highly expressed in HCT8/5-FU cells,and EVO down-regulated the expression of FOXM1,β-cateniin,c-MYC,CyclinD1,and Bcl-2,and up-regulated the ex-pression of Bax.Molecular docking revealed strong in-teractions between EVO and FOXM1.The in vivo ex-perimental results demonstrated that EVO exerted a substantial inhibitory effect on the growth of subcutane-ously implanted HCT8/5-FU xenograft tumors and regulated the expression of related proteins.HE stai-ning revealed significant nuclear consolidation and fragmentation of tumor cells in the EVO group.Con-clusions The findings suggest that EVO could sup-press the activation of the Wnt signaling pathway through a mechanism involving the downregulation of FOXM1 protein expression,thus inhibiting the prolifer-ation of HCT8/5-FU cells and induce their apoptosis.

Objective:To investigate the effect of elimination,combination,rearrangement and simplification(ECRS)management combined with risk assessment on reducing the incidence of multidrug-resistant bacteria infections of patients who received mechanical ventilation in intensive care unit(ICU).Methods:The management mode of prevention and control for multidrug-resistant bacteria infections of patients in ICU was optimized on the basis of ECRS management combined with risk assessment.A total of 600 patients who received mechanical ventilation in ICU of Jiuquan Hospital of Shanghai General Hospital(Jiuquan People's Hospital)from January 2022 to December 2023 were selected.According to different management methods,these patients were divided into a control group and an observation group,with 300 cases in each group.The control group was managed by using the risk assessment management method,while the observation group was managed by using the ECRS management on the basis of risk assessment management method.The indicators of respiratory function,patients'satisfaction score,stay time in ICU,time of mechanical ventilation and incidence of multidrug-resistant bacteria were compared between the two groups.Results:The mean value of the ratio of forced expiratory volume in one second(FEV1)to forced vital capacity(FVC)(FEV1/FVC),and the FEV1 level in observation group by using ECRS management combined with risk assessment method were respectively(78.69±4.65)%and(1.58±0.24)L,both of which were higher than those of control group,and the differences of them between two groups were statistically significant(t=16.483,11.742,P<0.05).The average scores of work efficiency,emergency response capability,professional ethics,isolation and resettlement,and overall patients'satisfaction in the observation group were respectively(23.12±1.20),(23.34±1.08),(23.65±1.10),(23.80±1.05)and(92.24±4.37),all of which were higher than those in the control group,and the differences of them between two groups were statistically significant(t=22.176,27.903,22.373,31.364,13.963,P<0.05).The average ICU stay time and the average time of mechanical ventilation were respectively(14.15±1.60)and(9.15±2.13)days in the observation group,both of which were lower than those in the control group,and the differences of them between two groups were statistically significant(t=16.872,15.410,P<0.05).The incidence of multidrug-resistant bacteria was 0.33%in 300 patients of the observation group,which was lower than that of the control group,with a statistically significant difference(x2=4.561,P<0.05).Conclusion:The application of ECRS management combined with risk assessment in the management of ICU for patients who receive mechanical ventilation can protect respiratory function of patients,and decrease the risk of occurring the infection of multidrug-resistant bacteria,and reduce ICU stay time and the time of mechanical ventilation of patients,and improve patients'satisfaction.

AIM To study the effects of Jiaotai Pills and their single composition drugs on high-fat diet-induced hypothalamic inflammation in obese mice.METHODS C57BL/6J mice were randomly divided into the normal group(15 mice)and the high-fat group(75 mice).The mice given 12 weeks of high-fat diet feeding were further randomly divided into the model group,the Jiaotai Pills group,the Coptis chinensis group,the Cinnamomum cassia group and the positive metformin group,with 15 mice in each group.After 6 weeks of administration,the mice had their body weight and fasting blood glucose(FBG)levels detected;their hypothalamic expressions of IL-1β,IL-6,TNF-α and Socs3 mRNA detected by RT-qPCR;their hypothalamic expressions of TLR4,MyD88,IKKβ and activated NF-κB protein detected by Western blot;their hypothalamic expressions of Iba1 and GFAP detected by immunohistochemistry;and their ultrastructural changes of nerve tissues observed using transmission electron microscopy(TEM).RESULTS Compared with the model group,each drug group displayed decreased hypothalamic expressions of IL-1β,IL-6,TNF-α and Socs3 mRNA(P＜0.01),and improved number and morphology of nerve cells revealed by TEM.The groups intervened with Jiaotai Pills,or Coptis chinensis,or metformin shared decreased body weight and FBG levels(P＜0.05);decreased protein expressions of TLR4,MyD88,IKKβ and p-NF-κB(P＜0.05);and decreased number of hypothalamic astrocytes and microglia(P＜0.05).Additionally,decreased p-NF-κB protein expression was observed in the Cinnamomum cassia group(P＜0.05).CONCLUSION Jiaotai Pills and their single composition drugs can improve high-fat diet-induced hypothalamic inflammation in obese mice.

Objective To investigate changes in the microRNA expression profiles of apoptotic vesicles(apoVs)derived from bone marrow mesenchymal stem cells(BMSCs)under a simulated negative pressure environment,and to provide a theoretical basis for understanding the mechanism by which mechanical stress microenvironments influence the progression of osteoarthritis.Methods A negative pressure cellular environment was established using a pressure-loading system.Cell viability and apoptosis were assessed via the CCK-8 assay,Western blotting,and Annexin V-FITC/PI double staining.ApoVs were isolated by differential centrifugation and characterized using transmission electron microscopy(TEM),nanoparticle tracking analysis(NTA),and Western blotting.Small RNA sequencing was performed using the HiSeq Single-End mode,and differential expression analysis of microRNAs was conducted using DESeq to screen for differentially expressed microRNAs.The differentially screened microRNAs were validated by real-time quantitative PCR.After treating BMSCs with inhibitors of these differentially expressed microRNAs,the effects of the screened microRNAs on BMSCs were detected.Results Compared to apoVs generated by BMSCs under STS chemical treatment,those produced under a-40 kPa pressure environment showed significantly upregulated miR-183-5p and downregulated miR-3473.GO and KEGG enrichment analyses revealed that these differentially expressed microRNAs affected cell activity and inflammatory responses through multiple signaling pathways.Inhibition of miR-183-5p and miR-3473 expression reduced the proliferative activity of BMSCs.After inhibiting miR-183-5p expression,the levels of inflammatory factors increased.Inhibition of miR-3473 expression did not alter the IL-6 expression level,but significantly increased the TNFα expression level.Conclusions MicroRNAs specifically expressed in BMSC-derived apoVs under negative pressure stimulation may act as critical mechanical signaling mediators,regulating inflammatory response processes to participate in the pathogenesis and progression of arthritis.

Objective:The relationship between benign prostatic hyperplasia(BPH)and the oxidative balance score(OBS)will be discussed in this study.Methods:The clinical data on 16 dimensions of diet and 4 dimensions of lifestyle from the National Health and Nutrition Examination Survey(NHANES)from 2001 to 2008 were used to calculate OBS.We considered BPH as the out-come and investigated the linear and nonlinear relationships between the two.Additionally,subgroup analyses and interaction tests were conducted as well.Furthermore,the methods of machine learning including XGBoost,support vector machine(SVM)and naive Bayes(NB)were used to establish a predictive model for BPH.Results:Higher OBS was consistently associated with an increased preva-lence of BPH,with Restricted Cubic Splines highlighting a significant positive nonlinear association(P=0.015).Subgroup analyses revealed differences and interactive relationships based on alcohol consumption.Among the seven machine learning models that we in-cluded the OBS score in,the XGBoost model emerged as the best,with an AUC value of 0.769.Conclusion:There is a significant association between OBS and the prevalence of BPH in the American population,which provides a valuable insight for further diagnosis and research of the disease.

Aim To explore the MST1 knockdown at-tenuates the inhibitory effect of salvianolic acid B(Sal B)on pERK anti-renal fibrosis.Methods In vitro experiments stimulated human renal cortical proximal tubular epithelial cells(HK-2)with XMU-XP-1(10μmol·L-1)inhibitor;in vivo experiments induced wild-type(WT)and MST1 systemic knockout mouse(MST1-/-)renal fibrosis models with DEN/CCl4/C2H5OH(DCC)and interfered with Sal B(15 mg·kg-1·d-1,ig)intervention.Renal histopathology was observed by HE and Masson staining;α-SMA and pERK protein expression was detected by Western blot;and pERK protein expression was detected by im-munofluorescence.Results In vitro results showed that Sal B could inhibit pERK protein expression.In vivo results showed that Sal B could improve DCC-in-duced renal tissue pathological injury and inhibit α-SMA and pERK protein expression;MST1-/-aggrava-ted pathological injury and significantly up-regulated α-SMA and pERK protein expression.Conclusion Sal B reduces the stimulatory effect of XMU-MP-1 on HK-2 cells by inhibiting the phosphorylation of ERK protein;Sal B exerts its anti-renal fibrosis effect by inhibiting the phosphorylation of α-SMA protein and ERK pro-tein;and MST1-/-,aggravating the pathological inju-ry of renal tissue,significantly up-regulated the expres-sion of α-SMA and pERK protein,which in turn atten-uated the antirenal fibrosis effect of Sal B.

The cell membrane biomimetic nanodrug delivery platform consists of nanoparticles coated with drug-loaded cell membranes,demonstrating a significant anti-atherosclerosis effect.This platform can identify and bind to atherosclerotic plaques through the homing capabilities of cell membranes.It releases drugs in response to specific environmental triggers,such as reactive oxygen species and shear stress from blood flow in areas affected by atherosclerosis.Furthermore,it inhibits macrophage lipid phagocytosis,thereby reducing foam cell formation,regulating macrophage phenotypes,and decreasing the production of inflammatory factors.Additionally,it accelerates cholesterol dissolution and efflux in atherosclerotic regions,effectively removes high concentrations of reactive oxygen species,and mitigates oxidative stress damage as well as the deposition of oxidized low-density lipoprotein.This review article delves into the functions and mechanisms of cell membrane biomimetic nanodrug delivery platform in combating atherosclerosis,offering fresh insights for targeted atherosclerosis treatment through the lens of nanomedicine.