OBJECTIVE To elucidate the burden of lower respiratory tract infections(LRIs)attributable to non-op-timal temperature risk and its changing trends in China from 1990 to 2021,and to provide insights for identifying susceptible populations.METHODS The changing trends in mortality and disability-adjusted life years(DALYs)of LRIs attributed to non-optimal,low and high temperature risks were analyzed through the 2021 global burden of disease(GBD)database.Joinpoint software was used to analyze the trend changes of time series and explore the standardized mortality rate and the standardized DALYs rate of LRIs attributed to non-optimal temperature risk.RESULTS In 2021,LRIs mortality and DALYs rates attributable to non-optimal temperature risk in China were 1.92 per 100,000(down 66.80%from 5.76 per 100,000 in 1990)and 37.99 per 100,000(down 90.47%from 398.77 per 100,000 in 1990),respectively.The burden of LRIs attributed to non-optimal temperature risks was higher in males than that in females,with the mortality rates of 2.86 per 100,000 and 2.48 per 100,000,and DA-LYs rates of 44.90 per 100,000 and 30.75 per 100,000,respectively.The burden of LRIs increased significantly in children under 5 years old and elderly individuals aged 75 and above.From 1990 to 2021,the standardized mortali-ty rate and the standardized DALYs rate of LRIs attributed to non-optimal temperature factors in China showed a declining trend[average annual percentage change(AAPC):-5.04%and-7.33%,respectively].CONCLUSIONS The overall burden of LRIs attributable to non-optimal temperature in China has generally declined from 1990 to 2021.with higher burden in males than that in females,and higher burden in individuals under 5 years old and those aged 75 and above.In China,low temperature risk plays an important role in the non-optimal temperature effect.To reduce the burden of LRIs disease,early intervention measures should be implemented for males,the middle-aged and elderly people and children,and early protection for susceptible populations should be provided based on changes in external environmental temperature,which are of significant public health importance for re-ducing disease burden.

OBJECTIVE To investigate the age-group differences and seasonal distribution patterns of epidemiologi-cal characteristics of hospital-associated infection in elderly inpatients in a three-A hospital.METHODS Based on the Xinglin Real-time Monitoring System,a retrospective analysis was conducted on clinical data of 67 157 patients hospitalized in the Air Force Hospital of Eastern Theater Command from Jan.2020 to Dec.2024.Elderly patients were divided into three age groups:young-age group(60-69 years),middle-age group(70-79 years)and ol-dest-age(≥80 years).The epidemiological characteristics and seasonal distribution patterns of the three groups were analyzed.RESULTS From 2020 to 2024,there were 1 524 cases of hospital-associated infection,with an inci-dence rate of 2.27％.The infection rate was higher in the oldest-age group(6.08％)than those in the young-age group(1.77％)and the middle-age group(2.52％)(P＜0.001).The top three departments with the highest in-cidence rates of hospital-associated infection were the geriatric department(10.97％),intensive care unit(9.65％)and respiratory department(4.96％).The lower respiratory tract was the main site of infection,and the infection rate was higher in winter than in other seasons.The pathogens were predominantly gram-negative bacteria(60.35％),with Pseudomonas aeruginosa being the most frequently detected.CONCLUSIONS Advanced age,male gender and hospitalization in winter are key risk factors for hospital-associated infection.Seasonal pre-vention and control strategies should be implemented in departments with high incidence of respiratory infections,and monitoring of multidrug-resistant bacteria should be enhanced.

OBJECTIVE To investigate the age-group differences and seasonal distribution patterns of epidemiologi-cal characteristics of hospital-associated infection in elderly inpatients in a three-A hospital.METHODS Based on the Xinglin Real-time Monitoring System,a retrospective analysis was conducted on clinical data of 67 157 patients hospitalized in the Air Force Hospital of Eastern Theater Command from Jan.2020 to Dec.2024.Elderly patients were divided into three age groups:young-age group(60-69 years),middle-age group(70-79 years)and ol-dest-age(≥80 years).The epidemiological characteristics and seasonal distribution patterns of the three groups were analyzed.RESULTS From 2020 to 2024,there were 1 524 cases of hospital-associated infection,with an inci-dence rate of 2.27％.The infection rate was higher in the oldest-age group(6.08％)than those in the young-age group(1.77％)and the middle-age group(2.52％)(P＜0.001).The top three departments with the highest in-cidence rates of hospital-associated infection were the geriatric department(10.97％),intensive care unit(9.65％)and respiratory department(4.96％).The lower respiratory tract was the main site of infection,and the infection rate was higher in winter than in other seasons.The pathogens were predominantly gram-negative bacteria(60.35％),with Pseudomonas aeruginosa being the most frequently detected.CONCLUSIONS Advanced age,male gender and hospitalization in winter are key risk factors for hospital-associated infection.Seasonal pre-vention and control strategies should be implemented in departments with high incidence of respiratory infections,and monitoring of multidrug-resistant bacteria should be enhanced.

OBJECTIVE To elucidate the burden of lower respiratory tract infections(LRIs)attributable to non-op-timal temperature risk and its changing trends in China from 1990 to 2021,and to provide insights for identifying susceptible populations.METHODS The changing trends in mortality and disability-adjusted life years(DALYs)of LRIs attributed to non-optimal,low and high temperature risks were analyzed through the 2021 global burden of disease(GBD)database.Joinpoint software was used to analyze the trend changes of time series and explore the standardized mortality rate and the standardized DALYs rate of LRIs attributed to non-optimal temperature risk.RESULTS In 2021,LRIs mortality and DALYs rates attributable to non-optimal temperature risk in China were 1.92 per 100,000(down 66.80%from 5.76 per 100,000 in 1990)and 37.99 per 100,000(down 90.47%from 398.77 per 100,000 in 1990),respectively.The burden of LRIs attributed to non-optimal temperature risks was higher in males than that in females,with the mortality rates of 2.86 per 100,000 and 2.48 per 100,000,and DA-LYs rates of 44.90 per 100,000 and 30.75 per 100,000,respectively.The burden of LRIs increased significantly in children under 5 years old and elderly individuals aged 75 and above.From 1990 to 2021,the standardized mortali-ty rate and the standardized DALYs rate of LRIs attributed to non-optimal temperature factors in China showed a declining trend[average annual percentage change(AAPC):-5.04%and-7.33%,respectively].CONCLUSIONS The overall burden of LRIs attributable to non-optimal temperature in China has generally declined from 1990 to 2021.with higher burden in males than that in females,and higher burden in individuals under 5 years old and those aged 75 and above.In China,low temperature risk plays an important role in the non-optimal temperature effect.To reduce the burden of LRIs disease,early intervention measures should be implemented for males,the middle-aged and elderly people and children,and early protection for susceptible populations should be provided based on changes in external environmental temperature,which are of significant public health importance for re-ducing disease burden.

Aptamers are DNA or RNA fragments that can specifically bind to target substances.Because of the excellent properties such as strong binding force,high specificity,small physical size,chemical synthesis and modification,good biocompatibility,and low immunogenicity aptamers show wide application propects in biomedical researches.Aptamers can also bind specifically to receptors on the surface of cell membranes,and mediate the endocytosis of nanoparticles into cells,making them ideal drug targeting ligands.Organic nanomaterials have excellent application value in nanodrug delivery system because of their good biocompatibility and degradability.In this paper,the recent research progress of aptamers and organic nanomaterials drug delivery systems was reviewed.

Objective To establish ovarian cancer cell line SKVO3 that can stably express human ADP ribosylation factor-4 (ARF4). Methods A eukaryotic expression vector pCDH-CMV-MCS-EF1-Puro/ARF4 was constructed and transfected into SKOV3 cells after verifying by DNA sequencing. The expression of ARF4 mRNA was verified by real-time quantitative PCR (qRT-PCR). Then, the recombinant plasmid with lentiviral packaging plasmids were co-transfected into SKOV3 cells for packaging. The recombinant lentiviral particles LV-ARF4 were collected and transfected into SKOV3 cells, and the stable transfected SKOV3 cell line was screening by culture with puromycin. The expression of ARF4 gene was detected by qRT-PCR and Western Blot. Results A eukaryotic expression vector pCDH-CMV-MCS-EF1-Puro/ARF4 was successfully constructed. The vector could significantly up-regulate the expression of ARF4 mRNA in SKOV3 cells and be successfully packaged into recombinant lentiviral particles in HEK-293T cells. Compared with the control group, the relative expression level of ARF4 mRNA and protein in SKOV3 cells was significantly increased after the infection with LV-ARF4 (all P<0.001). Conclusion The recombinant plasmid pCDH-CMV-MCS-EF1-Puro/ARF4 and lentiviral vector LV-ARF4 were successfully constructed. The establishment of stably infected SKOV3 cell line with LV-ARF4 provides an experimental foundation for further studies on the biological function of ARF4 in ovarian cancer.