Objective : To analyze the differential expression profile of miRNAs in amniotic fluid exosomes of fetu- ses with Down syndrome (DS) and provide insights for identifying novel biomarkers for the prenatal diagnosis of DS . Methods : Amniotic fluid samples were collected from fetuses with DS and chromosomally normal fetuses . Exo- somes were isolated from the amniotic fluid and subjected to high-throughput sequencing. Differentially expressed miRNAs were identified , and target genes were predicted using TargetScan and miRanda. Target genes located on chromosome 21 were selected , and their biological functions and associated diseases were analyzed using Gene- Cards , HGNC , NCBI Gene , UniProtKB/Swiss-Prot , Ensembl , and OMIM databases . GO and KEGG enrichment analyses were performed to investigate the biological functions of the enriched genes . Results : A total of 59 differ- entially expressed miRNAs were identified , including 31 upregulated and 28 downregulated miRNAs . Based on a fold change > 2 and P < 0. 05 , 10 upregulated and 9 downregulated miRNAs with the highest expression levels were selected . Key miRNAs included hsa-let-7b-5p , hsa-let-7c-5p , hsa-let-7b-3p _ 1ss22CT , and hsa-miR-199b-5p , with BACH1 and IFNAR1 identified as their shared target genes . GO analysis revealed that the enriched target genes were primarily involved in protein binding , metal ion binding , transferase activity , DNA binding , transcriptional regulation by RNA polymerase Ⅱ , and nucleotide binding. KEGG pathway analysis indicated that the target genes were mainly associated with metabolic pathways , cancer-related pathways , the PI3K-Akt signaling pathway , and the Rap1 signaling pathway . Conclusion Differential expression of miRNAs in amniotic fluid exosomes was ob- served between DS fetuses and those with normal karyotypes . Combined analysis with placental miRNAs revealed hsa-miR-199b-5p as a common differentially expressed miRNA in both DS amniotic fluid and placenta. It is hypoth- esized that BACH1 and IFNAR1 , shared target genes of hsa-miR-199b-5p , hsa-let-7b-5p , hsa-let-7c-5p , and hsa- let-7b-3p_1ss22CT , may play a role in the pathogenesis of DS .

Objective To explore the mechanism of action of Huaier (Vanderbylia robiniophila) against pancreatic cancer. Methods The chemical components and targets of Huaier (Vanderbylia robiniophila) were searched through the Herb database. Pancreatic cancer-related targets were screened from GeneCards, NCBI, and DisGeNET online databases, and a Venn diagram was drawn to obtain the intersection targets of drugs and diseases. The protein-protein interaction (PPI) network was constructed using the String platform, and a series of network diagrams were drawn using Cytoscape 3.8.0 software to screen core targets and perform GO analysis and KEGG pathway enrichment analysis on the target genes. Finally, the key active components were molecularly docked with potential target genes using AutoDock software. The KEGG enrichment top 20 pathways and the whole-genome association analysis data of pancreatic cancer were used to further validate the results using the Open GWAS database through Mendelian randomization analysis. Results A total of 4 effective components of Huaier (Vanderbylia robiniophila) were identified, 112 drug-disease intersection targets, the main active components were kaempferol, rutin, genistein, and glucuronic acid, and the core targets were mitogen-activated protein kinase 8 (MAPK8), uridine diphosphate(UDP)-glucuronic acid transferase 1 family peptide A1 (UGT1A1), and superoxide dismutase 2 (SOD2). The mechanism of action may be related to pancreatic cancer, tumor necrosis factor(TNF) signaling pathway, and interleukin(IL)-17 signaling pathway. The molecular docking showed that the main active components had good docking activity with the key targets. After screening, 73 genes were retained, and 24,195,229 single nucleotide polymorphism(SNP) were used for two-sample Mendelian randomization analysis. The analysis results showed that MAPK8 may be an important therapeutic target for pancreatic cancer. Conclusions Huaier (Vanderbylia robiniophila) may exert an anti-pancreatic cancer effect by acting on MAPK8, providing initial theoretical evidence for further verifying the mechanism of action of Huaier in treating pancreatic cancer.

Robotic surgical systems, with advantages such as 3D visualization, rotating instruments, and stable imaging, are increasingly utilized in transabdominal and transanal approaches for rectal cancer surgery. Compared to traditional laparoscopy, robotic systems could educe the technical difficulty of total mesorectal excision (TME) and enhance pelvic autonomic nerve preservation, while demonstrating comparable long-term outcomes. However, the high cost and limited clinical benefits have led to reflection. Controversies persist regarding prolonged operative time, lack of haptic feedback and limited cost-effectiveness. Studies suggest robotic surgery may benefit patients with complex conditions such as obesity, narrow pelvis or low rectal tumors. The rapid development of domestic surgical robots is expected to break market monopolies, reduce costs and expand applications through telemedicine. Future efforts should focus on identifying optimal patient cohorts and generating high-quality evidence to refine the clinical utility of robotic surgery.

Robotic surgical systems, with advantages such as 3D visualization, rotating instruments, and stable imaging, are increasingly utilized in transabdominal and transanal approaches for rectal cancer surgery. Compared to traditional laparoscopy, robotic systems could educe the technical difficulty of total mesorectal excision (TME) and enhance pelvic autonomic nerve preservation, while demonstrating comparable long-term outcomes. However, the high cost and limited clinical benefits have led to reflection. Controversies persist regarding prolonged operative time, lack of haptic feedback and limited cost-effectiveness. Studies suggest robotic surgery may benefit patients with complex conditions such as obesity, narrow pelvis or low rectal tumors. The rapid development of domestic surgical robots is expected to break market monopolies, reduce costs and expand applications through telemedicine. Future efforts should focus on identifying optimal patient cohorts and generating high-quality evidence to refine the clinical utility of robotic surgery.

African swine fever(ASF)caused by African swine fever virus(ASFV)is a febrile,hem-orrhage and highly fatal infectious disease in pigs,which poses a serious threat to the global pig in-dustry.Currently,no vaccine is available for the prevention and control of ASF,and several ASF vaccines,including gene deletion attenuated live vaccines,live vector vaccines,and subunit vaccines are under the development stage in the laboratory research.As one of the most promising vaccines,live vector vaccine has the characteristic of safety and simulation of the pathogen natural infection to effectively stimulate the innate and adaptive immune responses,which becomes one of the hotspots in the research and development of novel ASF vaccines.This review focuses on the pro-gress in using modified viruses as vectors for ASF live vector vaccines,and aims to provide valua-ble information for future development of safe and effective ASF vector vaccines.

Over the past three decades years, the treatment of gastric cancer has shifted from traditional open surgery to minimally invasive surgery. Cutting-edge technologies such as three-dimensional and 4K ultra-high-definition imaging systems, indocyanine green fluorescence navigation, and robotic surgical systems have been widely used in clinical practice, facilitating precise intraoperative anatomy and lymph node dissection. For early gastric cancer, endoscopic submucosal dissection, as the standard surgical procedure, can improve the 5-year survival rate and reduce the local recurrence rate. For locally advanced gastric cancer, neoadjuvant chemotherapy combined with minimally invasive surgery has increased the R0 resection rate and improved the prognosis of patients. For advanced gastric cancer, conversion therapy combined with minimally invasive surgery has brought hope for extended survival to patients with stage Ⅳ disease, and the application of immune checkpoint inhibitors has further promoted the progress of advanced gastric cancer treatment. With the advancement of technology and the improvement of policies, artificial intelligence and 5G remote surgery have become important directions in the minimally invasive surgical treatment of gastric cancer. In the future, it is necessary to accumulate evidence through multi-center prospective studies, optimize the evaluation of function-preserving surgery, develop cross-platform artificial intelligence tools, conduct cost-benefit analyses, and resolve ethical and legal disputes to promote the development of minimally invasive surgical treatment of gastric cancer towards precision and intelligence, achieving a dual improvement in efficacy and accessibility.

Objective To explore the influencing factors of physical activity behavior change in lung cancer patients and provide a basis for developing targeted intervention programs.Methods A descriptive qualitative research method was employed.Using purposive sampling,18 lung cancer pa-tients and 10 healthcare professionals were selected for semi-structured interviews from October to De-cember 2023.The health action process approach(HAPA)theory was used as the framework,and directed content analysis was applied to analyze the data.Results The barriers to physical activity behavior change in lung cancer patients were distilled into six themes:insufficient risk perception,negative outcome expectations,self-doubt and behavior avoidance tendencies,challenges in persist-ence and risk of interruption,lack of behavioral intention and demand,and absence of action and coping plans.The facilitating factors were divided into six themes:perception of the potential hazards of insufficient physical activity,perception of the health benefits of physical activity,cultivation and development of self-efficacy,stimulation of motivation for activity,formulation of differentiated activity plans,and formulation of adaptive coping plans.Conclusion Physical activity behavior in lung cancer patients is influenced by multiple factors.Targeted intervention strategies can be developed based on the HAPA theory to promote physical activity behavior change and improve physical activity levels.

Minimally invasive surgery represented by laparoscopy has been carried out for more than 30 years, and the technological development has tended to be flat. Currently, the techno-logy is still improving and innovating on the platform of laparoscopy, from traditional laparoscopy to reduced port and single port laparoscopy, from transabdominal to natural orifice transluminal tech-niques, from standard definition and high-definition to 3D and 4K ultra high definition fluorescence guided laparoscopy. The booming development of robotic surgery is also based on the platform of laparoscopy. From the perspective of disease treatment, there is no revolutionary change, such as changing the long-term efficacy of tumor treatment. In this era of technological prosperity but uncertainty, the future of minimally invasive surgery may not be a single technological innovation, but the organic integration and common development of multiple technologies. The authors will focus on the advantages and challenges of various minimally invasive technologies, and look forward to the application prospects of artificial intelligence in precision technology and decision-making in minimally invasive surgery, in order to open up new paths for the sustainable development of mini-mally invasive surgery, overcome current confusion, and move towards a more accurate, efficient, and popularized future.

African swine fever(ASF)caused by African swine fever virus(ASFV)is a febrile,hem-orrhage and highly fatal infectious disease in pigs,which poses a serious threat to the global pig in-dustry.Currently,no vaccine is available for the prevention and control of ASF,and several ASF vaccines,including gene deletion attenuated live vaccines,live vector vaccines,and subunit vaccines are under the development stage in the laboratory research.As one of the most promising vaccines,live vector vaccine has the characteristic of safety and simulation of the pathogen natural infection to effectively stimulate the innate and adaptive immune responses,which becomes one of the hotspots in the research and development of novel ASF vaccines.This review focuses on the pro-gress in using modified viruses as vectors for ASF live vector vaccines,and aims to provide valua-ble information for future development of safe and effective ASF vector vaccines.

Minimally invasive surgery represented by laparoscopy has been carried out for more than 30 years, and the technological development has tended to be flat. Currently, the techno-logy is still improving and innovating on the platform of laparoscopy, from traditional laparoscopy to reduced port and single port laparoscopy, from transabdominal to natural orifice transluminal tech-niques, from standard definition and high-definition to 3D and 4K ultra high definition fluorescence guided laparoscopy. The booming development of robotic surgery is also based on the platform of laparoscopy. From the perspective of disease treatment, there is no revolutionary change, such as changing the long-term efficacy of tumor treatment. In this era of technological prosperity but uncertainty, the future of minimally invasive surgery may not be a single technological innovation, but the organic integration and common development of multiple technologies. The authors will focus on the advantages and challenges of various minimally invasive technologies, and look forward to the application prospects of artificial intelligence in precision technology and decision-making in minimally invasive surgery, in order to open up new paths for the sustainable development of mini-mally invasive surgery, overcome current confusion, and move towards a more accurate, efficient, and popularized future.