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.

Integrons, an important system in bacteria that can capture, express, and excise exogenous genes (particularly antibiotic resistance genes), have received considerable attention in recent years. The integrons integrated onto transposons, conjugative plasmids, phages, or chromosomes can capture gene cassettes through site-specific recombination and facilitate their expression. Through a specific excision mechanism, gene cassettes can also be precisely excised and spread within bacterial populations via horizontal gene transfer and other means. This series of processes not only promotes the reconfiguration of gene cassettes and maintains diversity, but also provides flexibility for bacteria to adapt to constantly changing environments. This article will focus on the latest research advances in the capture, excision, and expression regulation mechanisms of integrons, in order to help researchers have a deeper understanding of the evolutionary trends of integrons and provide valuable insights for the study of bacterial antibiotic resistance dissemination mechanisms and the development of new antibiotics.

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.

Recent studies have found that the brain-gut-microbiome axis(BGMA)is closely related to the occurrence and development of Alzheimer's disease(AD). BGMA can affect AD in various aspects such as neuro-immune regulation and intestinal microflora, and is a potential new target for the treatment of AD.The "Sanjiao" acupuncture method is proposed by professor Han Jingxian, a famous Chinese medicine practitioner, based on his theory of "dysfunction of Qi activity of Sanjiao leads to aging" , and has been widely used in the treatment of AD and other age-related diseases in clinical practice.This article reviews the theory of "dysfunction of Qi activity of Sanjiao leads to aging" and the relationship between the "Sanjiao" acupuncture method and BGMA, with the hope that the "San Jiao" acupuncture method can become a new target for treatment of AD in the future.

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.

Objective:To observe any effect of transplanting bone marrow mesenchymal stem cells (BMSCs) after ischemic stroke, and explore its mechanism.Methods:Seventy-two spontaneous hypertensive male rats were randomly divided into a sham group, a model group and a BMSCs group, each of 24. A model of middle cerebral artery occlusion was induced in the rats of the model and BMSCs groups but not in the sham group. The BMSCs rats had 106 BMSCs injected into their tail veins 24 hours after the modeling, while the other 2 groups were injected with the same amount of phosphate buffer. Modified neurological deficit scoring and 2, 3, 5-triphenyltetrazole chloride staining were performed on the 3rd, 7th and 14th days after the operation. The mRNA and protein expressions of vascular endothelial growth factor (VEGF) and glial cell-derived neurotrophic factor (GDNF) in the rats′ brain tissues were detected by RT-PCR and western blotting.Results:On the 3rd, 7th and 14th days after the operation, the average neurological deficit score of the BMSCs group was significantly lower and the area of cerebral infarction was significantly smaller than among the model group. Moreover, the infarcted volume in the BMSCs group continued to decrease gradually as time went on. There was no significant difference between the sham and model group in the expression of VEGF or GDNF mRNA or protein 3, 7 or 14 days after the operation. They were, however, significantly higher in the ischemic brain tissue of the BMSCs group compared with the other two groups.Conclusions:BMSC transplantation has a neuroprotective effect on rats with hypertension modeling ischemic stroke. The mechanism may be that BMSCs can up-regulate the expression of VEGF and GDNF in ischemic brain tissue.

Background and Objectives: Stroke is the most common cause of human death and functional disability, resulting in more than 5 million deaths worldwide each year. Bone marrow mesenchymal stem cells (BMSCs) are a kind of stem cell that are able to self-renew and differentiate into many types of tissues. Therefore, BMSCs have the potential to replace damaged neurons and promote the reconstruction of nerve conduction pathways and connective tissue. However, it remains unknown whether transplanted BMSCs promote angiogenesis or improve the tissue microenvironment directly or indirectly through paracrine interactions. This study aimed to determine the therapeutic effect of BMSCs on ischemic stroke with hypertension in a rodent model and to explore the possible mechanisms underlying any benefits. Methods: and Results: Middle cerebral artery occlusion was used to establish the experimental stroke model. The area of cerebral infarction, expression of vascular endothelial growth factor (VEGF) and glial cell line-derived neurotrophic factor (GDNF), and increment of astrocyte were measured by TTC staining, western blot, real-time quantitative polymerase chain reaction (RT-qPCR) and immunocytochemistry. The results showed a smaller area of cerebral infarction and improved neurological function scores in animals treated with BMSCs compared to controls. The results of RT-qPCR and western blot assays showed higher expression of VEGF and GDNF in BMSC-treated animals compared with controls. Our study also showed that one round of BMSCs transplantation significantly promoted the proliferation of subventricular zone and cortical cells, especially astrocytes, on the ischemic side following cerebral ischemia. Conclusions Above findings support that BMSCs have therapeutic effects for ischemic stroke complicated with hypertension, which may occur via up-regulated expression of VEGF and GDNF and reduction of neuronal apoptosis, thereby promoting the recovery of nerve function.

Objective:To establish a disease risk prediction model for the newborn screening system of inherited metabolic diseases by artificial intelligence technology.Methods:This was a retrospectively study. Newborn screening data ( n=5 907 547) from February 2010 to May 2019 from 31 hospitals in China and verified data ( n=3 028) from 34 hospitals of the same period were collected to establish the artificial intelligence model for the prediction of inherited metabolic diseases in neonates. The validity of the artificial intelligence disease risk prediction model was verified by 360 814 newborns ' screening data from January 2018 to September 2018 through a single-blind experiment. The effectiveness of the artificial intelligence disease risk prediction model was verified by comparing the detection rate of clinically confirmed cases, the positive rate of initial screening and the positive predictive value between the clinicians and the artificial intelligence prediction model of inherited metabolic diseases. Results:A total of 3 665 697 newborns ' screening data were collected including 3 019 cases ' positive data to establish the 16 artificial intelligence models for 32 inherited metabolic diseases. The single-blind experiment ( n=360 814) showed that 45 clinically diagnosed infants were detected by both artificial intelligence model and clinicians. A total of 2 684 cases were positive in tandem mass spectrometry screening and 1 694 cases were with high risk in artificial intelligence prediction model of inherited metabolic diseases, with the positive rates of tandem 0.74% (2 684/360 814)and 0.46% (1 694/360 814), respectively. Compared to clinicians, the positive rate of newborns was reduced by 36.89% (990/2 684) after the application of the artificial intelligence model, and the positive predictive values of clinicians and artificial intelligence prediction model of inherited metabolic diseases were 1.68% (45/2 684) and 2.66% (45/1 694) respectively. Conclusion:An accurate, fast, and the lower false positive rate auxiliary diagnosis system for neonatal inherited metabolic diseases by artificial intelligence technology has been established, which may have an important clinical value.

Objective:Since December 2019, novel coronavirus infection has occurred in Hubei province and spread throughout the country quickly. This new crown viral pneumonia was named as coronavirus disease of 2019 (COVID-19) by WHO. However, at present, there is a high incidence of acute aortic dissection in winter and spring. How to prevent the spread of the epidemic and choose the appropriate treatment is an important topic for the patients with acute aortic dissection.Methods:From January 16, 2020 to February 26, 2020, a total of 37 of acute aortic dissection operations were carried out in several cardiovascular surgery centers in Hubei Province. There were 18 cases of Stanford type A aortic dissection and 19 cases of Stanford type B aortic dissection. There were 10 cases (55.55%) with ascending aorta replacement and 7 cases (38.89%) with Bentall procedure for aortic root surgery, and total arch replacement with stented elephant trunk implantation were performed in 14 cases (77.8%). In 19 patients with Stanford type B aortic dissection, thoracic endovascular aortic repair was performed, with the left subclavian artery chimney technique in 2 cases.Results:No deaths occurred within 30 days of hospitalization. Preoperative nucleic acid testing excluded 7 cases of novel coronavirus infection, and 3 suspected cases underwent emergency surgery. the three-level protective standard was adopted in the majority of the surgeries(62.2%, 23/37), and 11 patients were negative in the reexamination of viral nucleic acid after the operation.Conclusion:During the epidemic period, patients with acute aortic dissection should be carefully identified with actife COVID-19 before surgery. The treatment principles-" prevention and control of pneumonia epidemic should be emphasized, conservative medical management should be taken in the comfirmed cases, the selective operation should be delayed as far as possible, and the operation should be reasonable performed in critical cases" should be followed, which can save patients' lives to the greatest extent and prevent the spread of the virus.