Objective To investigate the radon activity concentrations in subways of Nanning City and assess the average annual effective doses for subway staff and passengers due to radon exposure. Methods Sixty-three stations across the subway lines 2, 3, and 5 were selected as study sites. Radon activity concentrations were measured using the scintillation counting method with scintillation vials. Results The radon activity concentrations in subway lines 2, 3, and 5 were 7.9-24.4, 12.0-26.2, and 12.6-18.2 Bq/m³, respectively. The average radon activity concentrations for these three lines were (17.4 ± 4.6), (19.1 ± 4.1), and (14.6 ± 1.7) Bq/m³, respectively. Statistical analysis using SPSS 26.0 software revealed a significant difference in radon activity concentrations among these stations (P<0.01). Considering the data in previous research, the average radon activity concentration across all stations in the subway lines of Nanning City was determined to be 17.4 Bq/m³. The estimated average annual effective dose due to radon exposure was 0.131 mSv for subway staff and 0.033 mSv for passengers. Conclusion The radon activity concentrations in the subway lines of Nanning City were significantly lower than the national standard limit (400 Bq/m³). The annual effective doses from radon exposure for both subway staff and passengers were below the limits specified in the Basic Standards for Protection Against Ionizing Radiation and for the Safety of Radiation Sources (GB18871—2002). The health impact of radon and its progeny on subway staff and passengers in the subway lines of Nanning City was extremely low and can be considered negligible.

Chronic obstructive pulmonary disease （COPD） is a chronic respiratory disease that poses a significant threat to global health， exhibiting high morbidity， disability and mortality rate， with its prevention and treatment situation becoming increasingly critical. The pathogenesis of COPD is complex， and the underlying cellular and molecular biological mechanisms remain incompletely elucidated. Programmed cell death （PCD） is the process wherein cells actively undergo demise to maintain internal environmental stability in response to certain signals or specific stimuli. Contemporary medical research indicates that the dysregulation of PCD patterns such as apoptosis， necroptosis， pyroptosis， autophagy， and ferroptosis is closely related to the onset and progression of COPD. Clarifying the molecular mechanisms of PCD in COPD may provide novel perspectives for in-depth understanding and prevention of the disease. Traditional Chinese medicine （TCM） is characterized by holistic regulation. In recent years， extensive research has been conducted in the TCM field focusing on modulating apoptosis， necroptosis， pyroptosis， autophagy， and ferroptosis for the treatment of COPD， yielding remarkable achievements. Therefore， this study systematically explored the molecular mechanism of PCD in COPD and reviewed the potential mechanisms and intervention status of TCM targeting PCD in COPD， aiming to provide insights and references for the clinical prevention， treatment and in-depth research of COPD.

Chronic obstructive pulmonary disease （COPD） is a chronic respiratory disease that poses a significant threat to global health， exhibiting high morbidity， disability and mortality rate， with its prevention and treatment situation becoming increasingly critical. The pathogenesis of COPD is complex， and the underlying cellular and molecular biological mechanisms remain incompletely elucidated. Programmed cell death （PCD） is the process wherein cells actively undergo demise to maintain internal environmental stability in response to certain signals or specific stimuli. Contemporary medical research indicates that the dysregulation of PCD patterns such as apoptosis， necroptosis， pyroptosis， autophagy， and ferroptosis is closely related to the onset and progression of COPD. Clarifying the molecular mechanisms of PCD in COPD may provide novel perspectives for in-depth understanding and prevention of the disease. Traditional Chinese medicine （TCM） is characterized by holistic regulation. In recent years， extensive research has been conducted in the TCM field focusing on modulating apoptosis， necroptosis， pyroptosis， autophagy， and ferroptosis for the treatment of COPD， yielding remarkable achievements. Therefore， this study systematically explored the molecular mechanism of PCD in COPD and reviewed the potential mechanisms and intervention status of TCM targeting PCD in COPD， aiming to provide insights and references for the clinical prevention， treatment and in-depth research of COPD.

This paper introduces a real-world cohort research model for community-acquired pneumonia （CAP） based on the Jiangsu Traditional Chinese Medicine （TCM） Dominant Diseases Diagnosis and Treatment Data Platform. Firstly， data cleaning is performed by standardizing diagnosis， symptoms， treatment and imaging， intelligently extracting unstructured information， and cleaning and constructing a standardized database. Secondly， for cohort establishment， CAP patients across the province are screened in accordance with CAP diagnostic criteria to build a high-quality disease-specific cohort. Lastly， in terms of protocol design， the characteristics of TCM research and the CAP disease profile are considered to determine appropriate inclusion and exclusion criteria， estimate sample size， define interventions， outcomes and economic evaluations， providing a reference for real-world TCM research on CAP.

This paper introduces a real-world cohort research model for community-acquired pneumonia （CAP） based on the Jiangsu Traditional Chinese Medicine （TCM） Dominant Diseases Diagnosis and Treatment Data Platform. Firstly， data cleaning is performed by standardizing diagnosis， symptoms， treatment and imaging， intelligently extracting unstructured information， and cleaning and constructing a standardized database. Secondly， for cohort establishment， CAP patients across the province are screened in accordance with CAP diagnostic criteria to build a high-quality disease-specific cohort. Lastly， in terms of protocol design， the characteristics of TCM research and the CAP disease profile are considered to determine appropriate inclusion and exclusion criteria， estimate sample size， define interventions， outcomes and economic evaluations， providing a reference for real-world TCM research on CAP.

Metal-organic frameworks(MOFs)are porous materials composed of metal ions or metal clusters and organic ligands by coordination,which have the advantages of large specific surface area,good thermal stability and adjustable pore size,and have a promising application in gas chromatographic separation.In recent years,MOFs materials have been used as stationary phases for gas chromatography mainly including ZIF,MIL,UiO-66,HKUST-1,IRMOFs,etc.Based on the molecular sieve effect,van der Waals forces,hydrogen bonding and π-π interactions,the pore size,pore microenvironment,unsaturated metal site and special functional group of the MOFs stationary phase materials can be specifically designed and regulated.MOFs materials as stationary phases have unique separation performance for n-alkanes and their isomers,aromatic compounds and their isomers,alcohols/ketones/aldehydes and their isomers,and chiral compounds.The combination of organic polymers and novel nanomaterials with MOFs materials can improve the separation performance and stability of MOFs.Therefore,MOFs materials are expected to be the promising stationary phase that can be applied to gas separation in complex environments.In this article,the research advances of various stationary phases based on MOFs for gas chromatography in recent years were reviewed.The separation performance and separation mechanism of MOFs stationary phases for mixed gas samples were discussed,and the development trends in the future were prospected.

In this work,a fluorescent probe PIN was synthesized using indole-3-carbohydrazide and pyrenecarboxaldehyde as raw materials.PIN showed weak fluorescence emission in aqueous solution with acetonitrile volume fraction of 70％.However,when Cu2+was added to this aqueous solution of PIN,a new fluorescence emission peak appeared at 495 nm,and the intensity of this peak gradually increased with the increase of concentration of Cu2+,and also caused a significant change in the fluorescence color of the solution.In contrast,the addition of 15 kinds of other common metal ions did not cause such change.The detection limit of PIN for Cu2+was 78.7 nmol/L,which was much lower than the maximum permitting level of Cu2+in drinking water in hygienic standard for drinking water in China.Therefore,PIN was a highly selective and sensitive fluorescence-enhanced probe for Cu2+.Meanwhile,the addition of Cu2+could also cause a new absorption peak at 440 nm in the ultraviolet-visible absorption spectrum of the aqueous solution of PIN,and meanwhile the colorless PIN solution changed into yellow,exhibiting the performance of PIN as a colorimetric probe for Cu2+.By fitting with the Levenberg-Marquardt algorithm equation,the binding ratio of PIN to Cu2+was 2:1,and the binding constant was 3.42×1012 L2/mol2.In addition,the binding mode of PIN with Cu2+was explored by using proton nuclear magnetic resonance(1H NMR)titration experiments and density functional theory simulations.The results showed that the addition of Cu2+could cause the aggregation of PIN molecules to form excimers,thus showing highly selective recognition.Finally,PIN was made into a simple test strip,which could achieve rapid and convenient fluorescence detection of Cu2+in actual water samples.

Objective To explore the prevalence of 9 respiratory pathogens from March 2023 to February 2024,as well as the detection efficiency of various methods for pathogens.Methods A retrospective analysis was conducted on the detection of 9 pathogens in 38 948 patients who first presented with respiratory symp-toms from March 2023 to February 2024,as well as the detection efficacy of nucleic acid,antigen,antibody and other methods.Results Firstly,among 38 948 patients,a total of 8 345 cases(21.43%)were detected with at least one pathogen,of which 8 158 cases(20.95%)were detected with only one pathogen,and 187 cases(2.29%,187/8 158)were detected with two or more pathogens.The top three detection rates were SARS-CoV-2(20.37%),mycoplasma pneumoniae(MP,15.58%)and influenza A virus(IVA,10.79%).Secondly,among patients who detected at least one of the nine pathogens,the detection rate was 24.94%in autumn,21.45%in spring,18.54%in summer,and 19.22%in winter,and the difference in detection rates between the four seasons was statistically significant(P<0.001).Thirdly,except for the relatively high detection rates of SARS-CoV-2 in spring(51.24%)and summer(37.31%),and the highest detection rate of IVB in winter(11.28%),the detection rates of other pathogens were highest in autumn.Fourthly,there was a statistically significant difference in the total detection rates among the children group(31.83%),the youth group(12.48%),the middle-aged group(10.70%),and the elderly group(12.43%)(P<0.001).The detection rates of 7 pathogens,including MP,IVA,Influenza B virus(IVB),syncytial virus,CP,adenovirus,and parain-fluenza virus type 1,were highest in children,and there was a statistically significant difference in comparison between different age groups(P<0.05).The detection rate of SARS-CoV-2 in the children group(3.45%)was lower than that in other age groups(30.90%,29.09%,32.16%,P<0.001).There was no statistically significant difference in HPIV-3 between different age groups(P=0.478).Fifthly,there was no significant difference in overall detection rate between male and female(P>0.05).However,the detection rates of MP and CP in female were higher than those in male(P<0.05),while IVA in male was slightly higher than that in female(P=0.014).There were no significant differences in the detection rate of other 6 pathogens between female and male(P>0.05).Sixthly,the detection rate of MP antigen was lower than that of MP nucleic acid detection(P<0.001),and the detection rate of MP antibody detection was lower than that of MP nucleic acid detection(P<0.001).The detection rate of MP antibody detection increased significantly with the extension of time from initial symptoms to medical treatment(P<0.001).Seventhly,the detection rates of antigen of IVA,IVB,RSV and ADV were significantly lower than those of the corresponding nucleic acid(P<0.001),and the detection rates of nucleic acid testing for 4 kinds of pathogen was about 5 times that of the correspond-ing antigen testing(4.75-6.25 times).And the consistency of the detection rate between antigen detection and nucleic acid detection was poor(Kappa=0.046-0.239).Conclusion The prevalence of common respir-atory pathogens from March 2023 to February 2024 exhibits certain characteristics.Moreover,the detection ef-ficiency of different methods for pathogens varies greatly,and appropriate detection methods should be select-ed based on a thorough understanding of their performance.

Objective To investigate the relationship between the levels of C1q/tumor necrosis factor-relat-ed protein 9(CTRP9),Klotho(Klotho)and chitinase 1(CHIT1)in aqueous humor with the disease severity and macular edema(ME)in patients with retinal vein occlusion(RVO).Methods A total of 174 in patients with ME caused by RVO who visited the hospital from January 2022 to June 2024(observation group)and 174 patients with simple RVO(RVO group)were selected.Observation group was divided into mild,moder-ate and severe subgroup according to the disease severity of ME.The levels of CTRP9,Klotho and CHIT1 in aqueous humor between RVO group and observation group were compared.The evaluation value of CTRP9,Klotho and CHIT1 levels in aqueous humor for ME in patients with RVO was analyzed by receiver operating characteristic(ROC)curve.The influencing factors of ME in patients with RVO were analyzed by univariate and multivariate Logistic regression model.The correlation between the levels of CTRP9,Klotho,CHIT1 in a-queous humor with the disease severity of ME in patients with RVO was analyzed by spearman correlation a-nalysis.Results Compared with RVO group,the levels of CTRP9 and Klotho in aqueous humor of observa-tion group were lower,and the level of CHIT1 was higher(P＜0.05).ROC analysis curve showed that,the area under the curve(AUC)of CTRP9,Klotho and CHIT1 in aqueous humor for evaluating ME in patients with RVOwere 0.757,0.773 and 0.813,respectively.The AUC of combined detection of the three was 0.939,and the efficiency of combined evaluation was higher than that of the single evaluation(Z=7.520,7.513,6.278,all P＜0.05).Multivariate Logistic regression model showed that high level of CHIT1 in aque-ous humor,hypertension and severe retinal vein tortuosity were risk factors for ME in patients with RVO(P＜0.05),and high levels of CTRP9 and Klotho in aqueous humor were protective factors(P＜0.05).Spearman correlation analysis showed that the levels of CTRP9 and Klotho in aqueous humor were negatively correlated with the disease severity of ME in patients with RVO(r=-0.584,-0.401,all P＜0.05),while level of CHIT1 in aqueous humor was positively correlated with the disease severity of ME in patients with RVO(r=0.809,P＜0.05).Conclusion The levels of CTRP9,Klotho and CHIT1 in aqueous humor have high value in the evaluation of ME in patients with RVO,and they are the influencing factors of ME in pa-tients with RVO.The level changes of the three are closely related to the disease severity of ME in patients with RVO.

BACKGROUND:Gradient artificial bone repair scaffolds can mimic unique anatomical features in musculoskeletal tissues,showing great potential for repairing injured musculoskeletal tissues. OBJECTIVE:To review the latest research advances in gradient artificial bone repair scaffolds for tissue engineering in the musculoskeletal system and describe their advantages and fabrication strategies. METHODS:The first author of the article searched the Web of Science and PubMed databases for articles published from 2000 to 2023 with search terms"gradient,bone regeneration,scaffold".Finally,76 papers were analyzed and summarized after the screening. RESULTS AND CONCLUSION:(1)As an important means of efficient and high-quality repair of skeletal system tissues,gradient artificial bone repair scaffolds are currently designed bionically for the natural gradient characteristics of bone tissue,bone-cartilage,and tendon-bone tissue.These scaffolds can mimic the extracellular matrix of native tissues to a certain extent in terms of structure and composition,thus promoting cell adhesion,migration,proliferation,differentiation,and regenerative recovery of damaged tissues to their native state.(2)Advanced manufacturing technology provides more possibilities for gradient artificial bone repair scaffold preparation:Gradient electrospun fiber scaffolds constructed by spatially differentiated fiber arrangement and loading of biologically active substances have been developed;gradient 3D printed scaffolds fabricated by layered stacking,graded porosity,and bio-3D printing technology;gradient hydrogel scaffolds fabricated by in-situ layered injections,simple layer-by-layer stacking,and freeze-drying method;and in addition,there are also scaffolds made by other modalities or multi-method coupling.These scaffolds have demonstrated good biocompatibility in vitro experiments,were able to accelerate tissue regeneration in small animal tests,and were observed to have significantly improved histological structure.(3)The currently developed gradient artificial bone repair scaffolds have problems such as mismatch of gradient scales,unclear material-tissue interactions,and side effects caused by degradation products,which need to be further optimized by combining the strengths of related disciplines and clinical needs in the future.