Objective To investigate the gene expression profile of cervical exfoliated cells from woman treated by artificial cycle,and their potential association with endometrial receptivity in order to screen specific biomarkers closely related to the receptivity.Methods A total of 19 female patients were enrolled from those preparing for frozen embryo transfer(FET)at the Reproductive Center of First Medical Center of Chinese PLA General Hospital from February 2024 to October 2024.Under the artificial cycle frozen embryo transfer protocol,the endometrial tissues were collected on the 4th day after progesterone administration(P+4)to verify their endometrial receptivity status.Additionally,cervical exfoliated cells were collected on the 4th day(P+4)and the 6th day(P+6)after progesterone administration.RNA sequencing(RNA-Seq)was used to detect gene expression profiles.Differentially expressed genes(DEGs)were identified using the criteria of|log2fold change|＞1 and a false discovery rate(FDR)＜0.05,followed by bioinformatics analysis.The protein-protein interaction(PPI)network of DEGs was constructed using R software(4.4.1)and analyzed with gene ontology(GO)and Kyoto encyclopedia of genes and genomes(KEGG)analyses.The candidate genes were identified based on the PPI network using Cytoscape software.Quantitative reverse transcription PCR(RT-qPCR)was employed to validate the target candidate genes both in vitro and in vivo.Results The rsERT confirmed that all 19 women were in state of endometrial receptivity at P+6.RNA-Seq identified 3 458 DEGs in cervical exfoliated cells between P+4 and P+6.The up-regulated DEGs were mainly enriched in the pathways associated with immune response and cell differentiation,and the down-regulated ones were mainly enriched in the pathways associated with lipid metabolism and cell proliferation.Using maximal clique Centrality(MCC)algorithm in the PPI network,the top 20 genes were selected.Among them,6 genes,such as IFIT2,OASL,MX1,RSAD2,IFIT1 and IFIT3,tied for the first place,and the 6 genes all belong to interferon-stimulated genes(ISGs).qRT-PCR indicated that the above 6 genes showed significantly higher expression levels in the cervical exfoliated cells at the P+4 stage than the cells at the P+6 stage(P＜0.05).Conclusion There are changes in the expression levels of the genes related to immunity and cytoskeleton remodeling in cervical exfoliated cells during the endometrial receptivity phase.The decrease in the expression of ISGs may serve as a potential biomarker for endometrial receptivity.

The development of artificial intelligence(AI)technology has promoted major changes in the field of immunology innovation and teaching reform.Traditional teaching classrooms are developing towards digital and intelligent teaching models.In order to improve high-quality education,cultivate AI thinking and comprehensive ability of graduate students,optimize current situations of traditional large classes and diversified characteristics of student,the AI technology is used to analyze the learning situation of students before class.Next,differentiated intelligence allocates digital learning materials according to the results of pre-class survey analysis,adopts"Research on scientific literature-based flipped classroom"teaching methods,carries out differentiated assessment methods,and finally the personalized teaching mode of doctoral students is implemented.This teaching strategy of deep integration of artificial intelligence and personalization can provide theoretical support and practical guidance for the subsequent reform and innovation in the immunology classroom and meet the needs of personalized training for PhD doctoral talents.

The development of artificial intelligence(AI)technology has promoted major changes in the field of immunology innovation and teaching reform.Traditional teaching classrooms are developing towards digital and intelligent teaching models.In order to improve high-quality education,cultivate AI thinking and comprehensive ability of graduate students,optimize current situations of traditional large classes and diversified characteristics of student,the AI technology is used to analyze the learning situation of students before class.Next,differentiated intelligence allocates digital learning materials according to the results of pre-class survey analysis,adopts"Research on scientific literature-based flipped classroom"teaching methods,carries out differentiated assessment methods,and finally the personalized teaching mode of doctoral students is implemented.This teaching strategy of deep integration of artificial intelligence and personalization can provide theoretical support and practical guidance for the subsequent reform and innovation in the immunology classroom and meet the needs of personalized training for PhD doctoral talents.

In order to meet the needs of the comprehensive development of life sciences and medicine,and fulfill the coher-ence and intersectionality of undergraduate experimental courses,it is necessary to break the teaching contents of conventional single experiment courses,and carry out the teaching reform of tumor comprehensive experimental course.Molecular biology and immuno-logy are two basic subjects which are closely related to the scientific research of life science,basic medicine and clinical medicine.Meantime,they are important sources for students to acquire skill training and scientific thinking as well.In this study,we try to inte-grate the experimental courses about the analysis and intervention of tumor-related genes based on the molecular biology and immunology technologies,facilitating to establish a new tumor comprehensive experimental course system.The course focuses on the development of students'logical thinking,and simulates the scientific research process through database screening,experimental operation,experi-mental report and paper writing,so as to significantly improve undergraduates'interest in scientific research and their ability to com-bine theory with practice,and cultivate students'rigorous scientific and innovative thinking ability as well as their ability to compre-hensively analyze and solve problems.It lays a solid foundation for future postgraduate related scientific research.At the same time,it is helpful to train teachers with multi-disciplinary knowledge reserves,and promote the coordinated development of scientific research through teaching.

Objective To investigate the safety of regular plasma donors aged 55 to 60,so as to provide reference for retention and recruitment of elderly plasma donors in China.Methods Plasma donors from 9 blood products manufacturing enterprises from 2018 to 2020 and the local general population were selected as the research objects.The total protein level,albumin and globulin ratio(ALB/GLB,A/G)and adverse reactions of plasma donation of regular plasma donors and local general population were retrospectively analyzed.Results The total protein level(g/L)and A/G of plasma donors aged 56 to 60 and the general population were 61.21±5.62 vs 60.04±6.93 and 1.610±0.299 vs 1.635±0.330,respectively,and the differences were statistically significant.The total protein level of regular plasma donors was higher than that of general popu-lation,but A/G was slightly lower than that of general population.From 2018 to 2020,there were a total of 23 056 302 plas-ma donations in 108 plasma stations,and adverse reactions occurred in 20 932 donations,with a total incidence of 0.09%,with no serious adverse reactions.Conclusion It is safe for regular plasma donors aged 55 to 60 to donate plasma,and the retention of them can alleviate the pressure of plasma supply.

3D printing technology has great advantages in small batch and personalized customization, so it has attracted much attention in the biomedical field. The consumables available for 3D printing include polymer, metal, ceramic and derived materials. Biomedical ceramics, with high melting point and poor toughness, are the most difficult materials to be used in 3D printing. The progress of 3D printing ceramic preparation process using ceramic powder, ceramic slurry, ceramic wire, ceramic film and other different raw materials as consumables are reviewed, and the surface roughness, size, density and other parameters of ceramics prepared by SLS, 3DP, DIW, IJP, SL, DLP, FDM, LOM and other different processes are compared. The study also summarizes the clinical application status of 3D printed bioceramics in the field of hard tissue repair such as bone tissue engineering scaffolds and dental prostheses. The SL ceramic additive manufacturing technology based on the principle of UV polymerization has better manufacturing precision, forming quality and the ability to prepare large-size parts, and can also endow bioceramics with better biological properties, mechanical properties, antibacterial, tumor treatment and other functions by doping trace nutrients and surface functional modification. Compared with the traditional subtractive manufacturing process, the bioceramics prepared by 3D printing not only have good mechanical properties, but also often have better biocompatibility and osteoconductivity.
Bone and Bones ; Ceramics ; Printing, Three-Dimensional ; Tissue Engineering ; Tissue Scaffolds

Objective:To investigate the changes of blood pressure and serum circadian clock protein levels after cerebral ischemia-reperfusion in spontaneously hypertensive rat (SHR) and their correlation.Methods:The middle cerebral artery occlusion method was used to prepare the SHR cerebral ischemia-reperfusion model at zero point of Zeitgeber Time (ZT), and the systolic blood pressure within 24 h was continuously monitored after the model was made. The tail vein blood of rats was taken every 3 h, and the changes in serum circadian clock proteins (CLOCK, BMAL1, PER1 and CRY1) levels were detected by enzyme-linked immunosorbent assay. Pearson correlation analysis was used to determine the relationship between blood pressure circadian rhythm pattern and circadian clock protein level fluctuation after cerebral ischemia-reperfusion.Results:In the sham operation group, there were various blood pressure patterns, including dipper (53%), non-dipper (27%), super dipper (13%), and reverse dipper (7%), and the main pattern was dipper. In contrast, the degree of blood pressure disorder in the model group was aggravated, and the non-dipper was the main type, with the proportion as high as 40%. The proportion of super dipper and reverse dipper increased to 27% and 13% respectively; proportion of dipper blood pressure decreased to 20%. The serum level of CLOCK in the model group was relatively stable, while the circadian rhythm of BMAL1, PER1 and CRY1 was significantly changed compared with the sham operation group. Pearson analysis showed that PER1 was negatively correlated with the dipper ( r=-0.565, P=0.002) and super dipper ( r=-0.531, P=0.001) blood pressure patterns, and positively correlated with the non-dipper blood pressure pattern ( r=0.620, P<0.001). Conclusion:The circadian rhythm pattern of blood pressure in SHR after cerebral ischemia-reperfusion was obviously disordered, which was closely associated with the regulation of Per1 gene.

Rhythm of blood pressure refers to the circadian variation of blood pressure, which is regulated by clock genes. However, the rhythm disorder of blood pressure increases the risk of stroke. Taking the process of blood pressure regulation as a clue and focusing on the clock gene pathway, this article explores the possible mechanism of period gene regulating renin-angiotensin-aldosterone system in rhythm of blood pressure, so as to provide reference for the in-depth study of the relevant mechanism of rhythm disorder of blood pressure and search for a new target for the primary prevention of cerebrovascular diseases.

Personalized management of ischemic stroke prevention and treatment remains a top priority in the field of neurology. The purpose of this article is to elucidate the role of nontraditional lipid profile and traditional lipids in the pathogenesis and recurrence of acute ischemic stroke in order to provide new indicators for stroke prevention, risk grading and high-risk population screening, and attempt to discuss the potential predictive value of nontraditional lipid indicators.

Almost all life on Earth has a 24 h circadian rhythm. The circadian clock that controls the circadian rhythm is an important regulator of physiology and disease. Disturbance of circadian rhythm can negatively affect physiological homeostasis at the molecular, cellular, organ system, and whole organism levels. The circadian clock rhythm disorders are considered to be involved inmany cardiocerebrovascular diseases, such as ischemic stroke and myocardial infarction. Ischemic stroke is one of the main causes of long-term disability and death worldwide. The incidence is higher in the daytime and lower at night, but the exact mechanism of this time distribution is unclear. This article discusses the role of the circadian clock in stroke pathophysiological mechanism and the specific molecular mechanism of clock gene regulation. It is expected that molecular time can be used or changed to open up new targets for stroke treatment.