Objective: To understand the dynamic temporal evolution pathways of Internet addiction among university students and to identify the core driving nodes, so as to provide theoretical evidences for the precise implementation of targeted interventions. Methods: Using a convenient cluster sampling method, a total of 1 066 full time freshmen and sophomores were recruited from three universities in Guizhou, Jiangxi, and Guangdong Provinces for a follow up survey (T1:January-March 2024; T2:January-March 2025). The Revised Chen Internet Addiction Scale (CIAS-R) was employed to assess the status of Internet addiction among university students, and cross sectional as well as cross lagged panel network models were constructed to analyze Internet addiction and its multidimensional influencing factors. Results: The T1 network comprised 19 nodes and 114 non zero edges, while the T2 network comprised 19 nodes and 126 non zero edges. Cross sectional network analysis revealed the strongest association between "insufficient sleep" and "daytime fatigue"; the core nodes were "first thought upon waking for going online" and "feeling low after disconnection" (characteristics of psychological dependence) at T1, while the core nodes shifted to "impaired health" and "excitement when online" (characteristics of functional impairment and addictive psychodynamic features) at T2. Cross lagged network analysis further indicated that "reduced leisure" directly predicted "sleep compression", and a bidirectional relationship was observed between "needing more time to achieve satisfaction" and "academic decline". Conclusions Internet addiction among university students exhibits dynamic evolutionary characteristics. Stage specific targeted interventions focusing on core driving nodes are needed, integrating behavioral regulation and academic support to break the vicious cycle and enhancing the ability to cope with real life demands.

Objective Infertility affects approximately one-sixth of the people of childbearing age worldwide,causing not only economic burdens of treatment for families with fertility problems but also psychological stress for patients and presenting challenges to societal and economic development.Premature ovarian insufficiency(POI)refers to the loss of ovarian function in women before the age of 40 due to the depletion of follicles or decreased quality of remaining follicles,constituting a significant cause of female infertility.In recent years,with the help of the rapid development in genetic sequencing technology,it has been demonstrated that genetic factors play a crucial role in the onset of POI.Among the population suffering from POI,genetic studies have revealed that genes involved in processes such as meiosis,DNA damage repair,and mitosis account for approximately 37.4% of all pathogenic and potentially pathogenic genes identified.FA complementation group M(FANCM)is a group of genes involved in the damage repair of DNA interstrand crosslinks(ICLs),including FANCA-FANCW.Abnormalities in the FANCM genes are associated with female infertility and FANCM gene knockout mice also exhibit phenotypes similar to those of POI.During the genetic screening of POI patients,this study identified a suspicious variant in FANCM.This study aims to explore the pathogenic mechanisms of the FANCM genes of the FA pathway and their variants in the development of POI.We hope to help shed light on potential diagnostic and therapeutic strategies for the affected individuals.Methods One POI patient was included in the study.The inclusion criteria for POI patients were as follows:women under 40 years old exhibiting two or more instances of basal serum follicle-stimulating hormone levels>25 IU/L(with a minimum interval of 4 weeks inbetween tests),alongside clinical symptoms of menstrual disorders,normal chromosomal karyotype analysis results,and exclusion of other known diseases that can lead to ovarian dysfunction.We conducted whole-exome sequencing for the POI patient and identified pathogenic genes by classifying variants according to the standards and guidelines established by the American College of Medical Genetics and Genomics(ACMG).Subsequently,the identified variants were validated through Sanger sequencing and subjected to bioinformatics analysis.Plasmids containing wild-type and mutant FANCM genes were constructed and introduced into 293T cells.The 293T cells transfected with wild-type and mutant human FANCM plasmids and pEGFP-C1 empty vector plasmids were designated as the EGFP FANCM-WT group,the EGFP FANCM-MUT group,and the EGFP group,respectively.To validate the production of truncated proteins,cell proteins were extracted 48 hours post-transfection from the three groups and confirmed using GFP antibody.In order to investigate the impact on DNA damage repair,immunofluorescence experiments were conducted 48 hours post-transfection in the EGFP FANCM-WT group and the EGFP FANCM-MUT group to examine whether the variant affected FANCM's ability to localize on chromatin.Mitomycin C was used to induce ICLs damage in vitro in both the EGFP FANCM-WT group and the EGFP FANCM-MUT group,which was followed by verification of its effect on ICLs damage repair using γ-H2AX antibody.Results In a POI patient from a consanguineous family,we identified a homozygous variant in the FANCM gene,c.1152-1155del:p.Leu386Valfs*10.The patient presented with primary infertility,experiencing irregular menstruation since menarche at the age of 16.Hormonal evaluation revealed an FSH level of 26.79 IU/L and an anti-Müllerian hormone(AMH)level of 0.07 ng/mL.Vaginal ultrasound indicated unsatisfactory visualization of the ovaries on both sides and uterine dysplasia.The patient's parents were a consanguineous couple,with the mother having regular menstrual cycles.The patient had two sisters,one of whom passed away due to osteosarcoma,while the other exhibited irregular menstruation,had been diagnosed with ovarian insufficiency,and remained childless.Bioinformatics analysis revealed a deletion of four nucleotides(c.1152-1155del)in the exon 6 of the patient's FANCM gene.This variant resulted in a frameshift at codon 386,introducing a premature stop codon at codon 396,which ultimately led to the production of a truncated protein consisting of 395 amino acids.In vitro experiments demonstrated that this variant led to the production of a truncated FANCM protein of approximately 43 kDa and caused a defect in its nuclear localization,with the protein being present only in the cytoplasm.Following treatment with mitomycin C,there was a significant increase in γ-H2AX levels in 293T cells transfected with the mutant plasmid(P<0.01),indicating a statistically significant impairment of DNA damage repair capability caused by this variant.Conclusions The homozygous variant in the FANCM gene,c.1152-1155del:p.Leu386Valfs*10,results in the production of a truncated FANCM protein.This truncation leads to the loss of its interaction site with the MHF1-MHF2 complex,preventing its entry into the nucleus and the subsequent recognition of DNA damage.Consequently,the localization of the FA core complex on chromatin is disrupted,impeding the normal activation of the FA pathway and reducing the cell's ability to repair damaged ICLs.By disrupting the rapid proliferation and meiotic division processes of primordial germ cells,the reserve of oocytes is depleted,thereby triggering premature ovarian insufficiency in females.

The concept of enhanced recovery after surgery (ERAS) has attracted more and more attention so far, but there are different opinions on it. ERAS philosophy covers many fields, in which anesthesiology plays an irreplaceable role by virtue of its professional advantages. Based on ERAS philosophy, anesthesiologists will provide guidance on preoperative assessment, preoperative prehabilitation, intraoperative fluid management, analgesia, temperature management, and postoperative rehabilitation to improve patient comfort and satisfaction.

PURPOSE: The long non-coding RNA H19, a conservatively imprinted gene, acts as a molecular sponge for the let-7 family, which has been identified as a set of tumor suppressors. However, the combined prognostic value of H19 and let-7a signature in breast cancer patients remains unclear. METHODS: In this research we assessed the prognostic value of the combined H19 and let-7a signature in breast cancer patients by retrospectively reviewing that data of 79 patients who underwent neoadjuvant chemotherapy; we also investigated the expression and function of H19 in breast cancer cell lines in vitro. Survival data were calculated using the Kaplan-Meier method and compared using the log-rank test. Univariate and multivariate survival analyses were conducted using the Cox proportional hazards regression method. As determined using X-tile, the optimal cutoff value for the risk score to assess progression-free survival (PFS) based on the combined signature was –0.1. RESULTS: Patients with an overall positive treatment response had higher let-7a and lower H19 levels. In addition, let-7a expression was negatively correlated with H19 expression. Patients with a risk score of >–0.1 had shorter overall survival and PFS. In vitro data showed that chemoresistant cell lines exhibit higher H19 and lower let-7a levels and knockdown H19 restores paclitaxel sensitivity. CONCLUSION: Our results suggest that the combined let-7a and H19 signature is a novel prognostic factor for breast cancer patients treated with neoadjuvant chemotherapy.
Breast Neoplasms* ; Breast* ; Cell Line ; Disease-Free Survival* ; Drug Therapy ; Humans ; In Vitro Techniques ; Methods ; Neoadjuvant Therapy ; Paclitaxel ; Porifera ; Prognosis ; Retrospective Studies ; RNA, Long Noncoding