Objective To explore the role of miR-429 in synovial mesenchymal stem cell-derived exosomes(SMSC-Exos)in repairing cartilage damage in temporomandibular joint osteoarthritis(TMJ OA)by extracting SMSC-Exos from human synovial tissue and screening differentially expressed microRNA(miRNA)through transcriptome sequencing.Methods Human synovial tissues were obtained from 6 patients who underwent surgery at the First Medical Center of the Chinese PLA General Hospital from June to December 2023,including 3 patients with osteoarthritis(OA group)and 3 control patients(control group),all of whom were male.SMSC-Exos were extracted from the synovial tissues for miRNA sequencing and differential expression analysis.Further,Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses were performed on the target genes of differentially expressed miRNA to identify key functional miRNA and construct miRNA-target gene regulatory networks and protein-protein interaction(PPI)networks of target genes.An in vitro model of rabbit condylar cartilage cell inflammatory microenvironment induced by interleukin-1β(IL-1β)was established,with the control group cultured in DMEM/F12 basic medium and the inflammation-induced group cultured in DMEM/F12 basic medium containing 10 ng/ml IL-1β.RT-qPCR was used to detect the effects of overexpressed target miRNA on the mRNA expression levels of cartilage phenotype factors such as type Ⅱ collagen α1 chain(Col2a1),aggrecan(Acan),as well as inflammatory factors including a disintegrin and metalloproteinase with thrombospondin motifs 5(Adamts5)and cyclooxygenase-2(Cox-2).Results(1)SMSC-Exos were successfully isolated,cultured,and identified.(2)miRNA sequencing of SMSC-Exos from OA and control groups revealed 16 differentially expressed miRNAs(|log2FC|>2,P<0.05).Compared with control group,7 miRNAs were up-regulated and 9 were down-regulated in OA group.GO and KEGG analysis indicated that the target genes of miR-429 were mainly involved in development process,anatomical structure development,system development,cell development and differentiation,and were enriched in inflammation-related pathways such as mitogen-activated protein kinase(MAPK)and phosphatidylinositol 3-kinase-protein kinase B(PI3K-Akt).(3)Functional validation of miR-429 in the rabbit condylar cartilage cell inflammatory model showed that overexpression of miR-429 increased the mRNA expression levels of Col2a1 and Acan(P<0.05)and decreased the mRNA expression levels of Adamts5 and Cox-2(P<0.05)in the inflammation-induced group.Conclusions miRNA sequencing of SMSC-Exos isolated and identified from human synovial tissues reveals a specific miRNA expression profile in OA patients,with miR-429 significantly down-regulated.Functional validation demonstrates that overexpression of miR-429 has reparative and anti-inflammatory effects on condylar cartilage cells in an inflammatory microenvironment.

Objective To design an image processing system for skeletal measurement of arch,calcaneus and knee joint.Methods The image processing system had its hardware part composed of an image acquisition system,a body mass measurement system and a height measurement system.The image acquisition system consisted of an arch image acquisition module,a calcaneus image acquisition modue and a knee joint image acquisition module;the height measurement system included mainly a height meter component with a mechanically retractable structure;the body mass measurement system used CZL902 sensor combined with the hardware architecture to determine the body mass.The software system of the image processing system was developed with C#language and the application program interface was constructed by combining WinForm technique.Thirty-two healthy children and adult volunteers without significant foot or knee disease were recruited to assess the reliability and validity of the system by means of the consistency testing method.Results The system developed gained high reliability in the reliability and validity of the data on arch,calcaneus and knee joint(intragroup coefficient>0.75,P<0.05),and all the indexes except ankle sapcing width had higher intra-and inter-tester reliablity for the child volunteers than for the adult ones.Conclusion The system developed with high convenience and accuracy can be used for skeletal measurement of arch,calcaneus and knee joint.[Chinese Medical Equipment Journal,2025,46(10):36-40]

Objective To design an image processing system for skeletal measurement of arch,calcaneus and knee joint.Methods The image processing system had its hardware part composed of an image acquisition system,a body mass measurement system and a height measurement system.The image acquisition system consisted of an arch image acquisition module,a calcaneus image acquisition modue and a knee joint image acquisition module;the height measurement system included mainly a height meter component with a mechanically retractable structure;the body mass measurement system used CZL902 sensor combined with the hardware architecture to determine the body mass.The software system of the image processing system was developed with C#language and the application program interface was constructed by combining WinForm technique.Thirty-two healthy children and adult volunteers without significant foot or knee disease were recruited to assess the reliability and validity of the system by means of the consistency testing method.Results The system developed gained high reliability in the reliability and validity of the data on arch,calcaneus and knee joint(intragroup coefficient>0.75,P<0.05),and all the indexes except ankle sapcing width had higher intra-and inter-tester reliablity for the child volunteers than for the adult ones.Conclusion The system developed with high convenience and accuracy can be used for skeletal measurement of arch,calcaneus and knee joint.[Chinese Medical Equipment Journal,2025,46(10):36-40]

Objective To explore the influence of extracellular matrix protein ABI-interactor 3-binding protein(ABI3BP)on vesicular stomatitis virus(VSV)genome replication and innate immune signaling pathway. Methods The small interfering RNA(siRNA)was transfected to knock down ABI3BP gene in human skin fibroblast BJ-5ta cells.VSV-green fluorescent protein(VSV-GFP)-infected cell model was established.The morphological changes and F-actin stress fiber formation were detected on ABI3BP knockdown cells by phalloidin immunofluorescence staining.The mRNA level of virus replication was detected by RT-qPCR in BJ-5ta cells after VSV-GFP infection;western blotting was performed to detect the changes in interferon regulatory factor 3(IRF3)andTANK-binding kinase 1(TBK1)phosphorylation levels. Results The VSV-GFP-infected BJ-5ta cell model was successfully established.Efficient knockdown of ABI3BP in BJ-5ta cells was achieved.Phalloidin immunofluorescence staining revealed structural rearrangement of intracellular F-actin after ABI3BP gene knockdown.Compared with the control group,the gene copy number of VSV-GFP in ABI3BP knockdown cells increased by 2.2-3.5 times(P＜0.01)and 2.2-4.0 times(P＜0.01)respectively when infected with VSV of multiplicity of infection 0.1 and 1.The expression of viral protein significantly increased in ABI3BP knockdown cells after virus infection.The activation of type-Ⅰ interferon pathway,as determined by phosphorylated IRF3 and phosphorylated TBK1,was significantly decreased in ABI3BP knockdown cells after VSV-GFP infection. Conclusions Extracellular matrix protein ABI3BP plays an important role in maintaining the formation and rearrangement of actin structure.ABI3BP gene deletion promotes RNA virus replication,and ABI3BP is an important molecule that maintains the integrity of type Ⅰ interferon pathway.

In the context of "New Era" and "New Medicine", the teaching team of laboratory diagnostics proposed a new teaching method of PDCA (Plan, Do, Check, Action) cycle to innovate the instructional design and implementation of laboratory diagnosis on the base of traditional teaching model. Through optimizing the curriculum system, integrating superior resources, taking full advantage of information technology, mobilizing the virtual simulation laboratory, implementing moral education and multiple comprehensive evaluation results, the self-learning enthusiasm, innovation and development ability of students were improved significantly, accompanied with high humanistic care spirit. Moreover, the enthusiasm of participating in scientific research activities and professional competitions was enhanced obviously. Therefore, we believe that the PDCA cycle, with notable successes, deserves high promotion value and wide application.

Objective To explore the prevention and treatment of vasovagal reflex during and after operation in diseases of urinary system.Methods From February 2020 to April 2023,1436 patients who completed inpatient surgery in Department of Urology,Songshan Hospital,Qingdao University Medical College were selected to analyze the emergency management measures of vasovagal reflex during and after operation and summarize the diagnosis and treatment experience.Results Among 1436 patients,vasovagal reflex occurred in 4 cases during operation and 14 cases after operation,with an incidence of 1.25%.Most patients showed simultaneous decrease in blood pressure and heart rate.After intravenous injection of atropine and dopamine,blood pressure and heart rate returned to normal,and various concomitant symptoms disappeared,and no death cases were reported.Conclusion Urological specialists should pay attention to vasovagal reflex,sum up experience,do early identification,timely treatment to ensure the safety of patients.

Objective:To investigate the impact of ionizing radiation(IR)on the structure and function of the testis and pro-vide some strategies for the prevention and treatment of IR-induced damage(IRD).Methods:Using radiation dose simulation,se-men analysis,hormone testing,electron microscopy and single-cell transcriptome sequencing,we assessed and analyzed a case of IRD.We established a mouse model of IRD to validate the results of single-cell sequencing,and investigated the specific biological mecha-nisms of IRD and potential strategies for its intervention.Results:IR at 1-2 Gy significantly reduced sperm concentration and mo-tility,which gradually recovered after 12 months but the percentage of morphologically normal sperm remained low.It also caused im-balanced levels of various steroid hormones,decreased testosterone and dehydroepiandrosterone sulfate,increased progesterone,prolac-tin,luteinizing hormone,and follicle-stimulating hormone.Electron microscopy revealed damages to the testis structure,including loss of germ cells,atrophy of the seminiferous tubules,nuclear membrane depression of the spermatocytes,mitochondrial atrophy and de-formation,and reduction of mitochondrial cristae.Single-cell sequencing indicated significant changes in the function of the Leydig cells and macrophages and disrupted lipid-related metabolic pathways after IRD.Administration of L-carnitine to the mouse model im-proved lipid metabolism disorders and partially alleviated IRD to the germ cells.Conclusion:Ionizing radiation can cause disorders of testicular spermatogenesis and sexual hormones and inhibit lipid metabolism pathways in Leydig cells and macrophages.Improving lipid metabolism can alleviate IRD to germ cells.

Objective:To study the differential expressions of piRNAs in the seminal plasma of men and the role of piRNAs in spermatogenesis.Methods:We sequenced the seminal plasma samples collected from 187 male infertility patients and 58 normal healthy men,obtained differentially expressed piRNAs,and detected the relative expressions of piRNAs in different types of sperm by RT-qPCR to explore their significance in the diagnosis of male infertility.Using histopathology,RNA-protein pull-down and Western blot,we investigated the action mechanism of piRNAs in spermatogenesis in the mouse model.Results:RT-qPCR of the seminal plasma samples revealed a high expression of hsa_piR_000478 in teratozoospermia and ROC curve analysis showed an auxiliary signifi-cance of hsa_piR_000478 in the diagnosis of the disease(AUC=0.7549).Transfection of hsa_piR_000478 and its homologous se-quence piR_mmu_54800729 into the seminiferous tubules of the mouse model significantly decreased sperm motility,increased the per-centage of morphologically abnormal sperm and destroyed the testicular structure.Molecular biological experiments exhibited a close correlation between piRNAs and the energy metabolism-related pathway,which elevated the level of cell glycolysis and interfered with normal spermatogenesis.Conclusion:hsa_piR_000478 has an auxiliary significance in the diagnosis of male infertility,and piRNAs may interfere with spermatogenesis by affecting the glycolysis-related pathway in the spermatogenic microenvironment of the testis.

The unipolar/bipolar pacing mode of pacemaker is related to its circuit impedance, which affects the battery life. In this study, the in vitro experiment scheme of pacemaker circuit impedance test was constructed. The human blood environment was simulated by NaCl solution, and the experimental environment temperature was controlled by water bath. The results of in vitro experiments showed that under the experimental conditions similar to clinical human parameters, the difference between the circuit impedance of bipolar mode and unipolar mode is 120~200 Ω. The results of the in vitro experiment confirmed that the circuit impedance of bipolar circuit was larger than that of unipolar mode, which was found in clinical practice. The results of this study have reference value to the optimization of pacing mode and the reduction of pacemaker power consumption.
Cardiac Pacing, Artificial/methods* ; Electric Impedance ; Humans ; Pacemaker, Artificial ; Prostheses and Implants

Pathogenic bacterial infection is one of the main clinical symptoms. Antibiotics are widely used in clinical practice to inhibit or kill the bacteria， fungi and other pathogenic microorganisms. However， with the massive use of antibiotics， drug-resistant strains continue to appear that make the antibacterial situation is becoming increasingly severe. Due to the advantages of multiple targets， multiple pathways and multiple components， traditional Chinese medicine （TCM） have gradually attracted more attention and were used in antibacterial treatment. However， some antimicrobial TCM have problems such as low solubility， poor stability， and low bioavailability. Improving and enhancing the antibacterial activity of TCM through preparation technology is one of the effective solutions. Based on this， two aspects of unilateral antibacterial TCM preparation technology and combination antibacterial preparation technology are introduced， including inclusion technology， nanotechnology， electrospinning， 3D printing and others. Distinctive features and specific application effects of these preparation technologies are explained firstly， and then their advantages and disadvantages are compared and analyzed. The review can be a useful reference for improving the antibacterial activity of TCM.