To investigate the cellular immunity abnormalities of patients with rheumatoid arthritis(RA), peripheral blood lymphocytes subpopulations, interleukin 2 (IL-2) production and natural killer (NK) cell activity were determined in 9 patients with RA. The results showed that there were a remarkable decrease in NK cell activity and poor response to IL-2 stimlulation. IL-2 production and.the expression of membrane-bound IL-2 receptor were increased in RA patients. The percentage of T4 positive cells and the ratio of T4/T8 were also increased in patients with RA. The results indicate that there are severe cellular immunity abnormalities in patients with RA.

Objective To observe if fluoxetine has a potency to inhibit the progression of Lewis lung cancer by combining the fluoxetine and cisplatin to treat the mice bearing Lewis lung cancer with depression .Methods We devel-oped a mouse model of Lewis lung cancer with depression which was intervened with cisplatin and fluoxetine , and the indi-cators related to cancer and depression were tested .Social interaction test was used to measure the behavioral changes of the depressed model mice .The serum cortisol and IL-6, BDNF mRNA in the hippocampus , and NF-κB and VEGF in the tumor tissue were selected for investigation and comparison .Results The mice which were induced by social defeat exhib-ited social avoidance behavior in the social interaction test .The cortisol and IL-6 level in both combination groups was de-creased compared with that in the model group (P<0.05), and the cortisol and BDNF mRNA in the combination group in-creased signifuicantly ( P <0.05 ) .There were no statistically significant differences in the tumor weight , NF-κB and VEGF in tumor tissues between the single and combination groups (P>0.05).Conclusions Fluoxetine has antidepres-sant effect by decreasing the high level of serum cortisol and promoting the BDNF mRNA expression in the hippocampus . However , fluoxetine is not found to have the potency to inhibit the expression of NF -κB related with the progression of tumor.

Aiming at the management efficiency problems in the traditional medical low-value consumables management mode of the nursing unit, based on the perspective of supply chain management, this study uses lean management method to construct the lean management mode of low-value consumables with a whole cycle and whole process information monitoring, and analyzes the application effect of this mode. The results show that after the application of lean management mode, the low-value consumables of the nursing unit can achieve "consumables in use=priced consumables + un-priced consumables", the settlement cost is significantly reduced and its stability is high, and the efficiency of "supply-inventor-distribution" link is significantly enhanced. This model effectively improves the management efficiency of low-value consumables in the hospital, and also provides a reference for other hospitals to improve the management level of low-value consumables.
Hospitals ; Commerce

β-lactam antibiotics are a class of antibiotics widely used in clinical treatment. The antibacterial mechanism of them is to inhibit the cell wall synthesis of bacteria. However, the widespread of β-lactam resistance genes among bacteria has posed a great challenge to the use of β-lactam antibiotics. One of the main genes encoding β-lactamase is blaTEM, and 243 subtypes of it have been identified to date. Studying blaTEM gene is of great significance in antibiotic resistance research. This review focused on the discovery, structure, promoter, distribution, spread, antibacterial mechanism and research status of blaTEM gene, hoping to provide reference for further research on the subtypes of β-lactam resistance genes in bacteria.

Salmonella is an important foodborne pathogen and one of the main causes of diarrhea. Every year, about 550 million people suffer from diarrhea due to Salmonella infection, of which about 230 000 die. It has become a major global public safety issue. The application fields of Salmonella detection involve food safety, water quality monitoring, animal husbandry, public health monitoring, and medical diagnosis. The detection requirements mainly come from three aspects: pathogen identification, serotype identification, drug resistance and virulence identification. In recent years, the detection technology for Salmonella has made rapid progress, especially the emergence and development of emerging molecular detection technologies, providing new perspectives for Salmonella detection in different scenarios. However, due to the diversity of Salmonella serotypes and the complexity of detection scenarios, existing detection technologies still have some pain points (such as long detection time, cumbersome operation steps, low scene adaptability, etc.). This article will elaborate on the application of several emerging molecular detection technologies with distinct characteristics, such as CRISPR Cas technology, digital PCR technology, sequencing technology, and microfluidic technology, in Salmonella detection. It aims to provide a reference for the development and improvement of Salmonella detection technology and the establishment of infection warning and control systems.

Salmonella is an important foodborne pathogen and one of the main causes of diarrhea. Every year, about 550 million people suffer from diarrhea due to Salmonella infection, of which about 230 000 die. It has become a major global public safety issue. The application fields of Salmonella detection involve food safety, water quality monitoring, animal husbandry, public health monitoring, and medical diagnosis. The detection requirements mainly come from three aspects: pathogen identification, serotype identification, drug resistance and virulence identification. In recent years, the detection technology for Salmonella has made rapid progress, especially the emergence and development of emerging molecular detection technologies, providing new perspectives for Salmonella detection in different scenarios. However, due to the diversity of Salmonella serotypes and the complexity of detection scenarios, existing detection technologies still have some pain points (such as long detection time, cumbersome operation steps, low scene adaptability, etc.). This article will elaborate on the application of several emerging molecular detection technologies with distinct characteristics, such as CRISPR Cas technology, digital PCR technology, sequencing technology, and microfluidic technology, in Salmonella detection. It aims to provide a reference for the development and improvement of Salmonella detection technology and the establishment of infection warning and control systems.

Recombinase polymerase amplification technology, as a new type of nucleic acid constant temperature amplification detection technology, has shown enormous application potential and development prospects in recent years. Its unique advantages such as high sensitivity, high specificity, low dependence on instruments, and the ability to integrate multiple detection modes make it widely applicable in multiple fields, especially in grassroots and on-site real-time detection. This article reviews the development history, detection principles, research and application progress of recombinant enzyme polymerase amplification technology, and looks forward to its future development, in order to provide useful references for the research and clinical application of rapid pathogen detection methods based on recombinant enzyme polymerase amplification technology.

Listeria monocytogenes is recognized as a significant foodborne pathogen, capable of causing listeriosis in humans, which is a global public health concern. This pathogen is particularly dangerous for pregnant women, as it can lead to invasive listeriosis in fetuses and neonates, posing a significant threat to both maternal and fetal health. Therefore, establishing suitable in vitro and in vivo models for L. monocytogenes placenta infection, as well as analyzing and exploring the infection process and its pathogenic mechanism, are important approaches to prevent and control L. monocytogenes infection in mothers and infants. In this study, we reviewed the in vitro and in vivo placental models used for studying the infection of L. monocytogenes in maternal and infant, summarized and discussed the advantages and limitations of each model, and explored the potential of in vitro cell models and organoids for the study of L. monocytogenes infection. This paper aims to support the study of the infection pathway and pathogenesis of listeriosis and provide scientific references for the prevention and control of L. monocytogenes infection.
Female ; Humans ; Pregnancy ; Listeria monocytogenes ; Listeriosis/prevention & control* ; Placenta/pathology* ; Public Health ; Infant, Newborn

Objective:To explore the association of DNA methylation with immune response to hepatitis B (HepB) vaccine in Han nationality children from Guangxi province.Methods:A total of 263 children aged 8-9 months who had completed HepB immunization program were recruited from three hospitals in Guangxi province by using unmatched case-control method. Children with the HepB surface antibody concentration(Anti -HBs)<100 mIU/ml was set as the case group and ≥100 mIU/ml as the control group. Multiplex PCR and heavy sulfite sequencing were used to treat the samples. Illumina platform was used for high-throughput DNA methylation sequencing of IFNG gene target regions and CpG sites. Unconditional logistic regression was used to analyze the association between cytosine-phospho-guanosine DNA methylation at 18 loci of IFNG gene and HepB immune response level. Results:There were 104 children in the case group and 159 in the control group. The median ( Q1, Q3) level of anti -HBs in two groups were 62.34 (30.06, 98.88) mIU/ml and 1 089.10 (710.35, 1 233.45) mIU/ml. The methylation levels of IFNG_1 gene 44 and 93 locus in the case group were higher than those in the control group ( P<0.05). The unconditional logistic regression model showed that the DNA methylation level of IFNG_1 gene at 44 ( OR=1.18, 95% CI: 1.03-1.35) and 93 ( OR=1.21, 95% CI: 1.07-1.38) locus was associated with the HepB response level. Conclusion:The changes of DNA methylation at locus 44 and 93 of IFNG_1 gene may be relevant factors affecting the response level of HepB in Han nationality children from Guangxi province.

Objective:To explore the association of DNA methylation with immune response to hepatitis B (HepB) vaccine in Han nationality children from Guangxi province.Methods:A total of 263 children aged 8-9 months who had completed HepB immunization program were recruited from three hospitals in Guangxi province by using unmatched case-control method. Children with the HepB surface antibody concentration(Anti -HBs)<100 mIU/ml was set as the case group and ≥100 mIU/ml as the control group. Multiplex PCR and heavy sulfite sequencing were used to treat the samples. Illumina platform was used for high-throughput DNA methylation sequencing of IFNG gene target regions and CpG sites. Unconditional logistic regression was used to analyze the association between cytosine-phospho-guanosine DNA methylation at 18 loci of IFNG gene and HepB immune response level. Results:There were 104 children in the case group and 159 in the control group. The median ( Q1, Q3) level of anti -HBs in two groups were 62.34 (30.06, 98.88) mIU/ml and 1 089.10 (710.35, 1 233.45) mIU/ml. The methylation levels of IFNG_1 gene 44 and 93 locus in the case group were higher than those in the control group ( P<0.05). The unconditional logistic regression model showed that the DNA methylation level of IFNG_1 gene at 44 ( OR=1.18, 95% CI: 1.03-1.35) and 93 ( OR=1.21, 95% CI: 1.07-1.38) locus was associated with the HepB response level. Conclusion:The changes of DNA methylation at locus 44 and 93 of IFNG_1 gene may be relevant factors affecting the response level of HepB in Han nationality children from Guangxi province.