👤 Hsiao-Man Liao

Orthodontic tooth movement (OTM) is a biomechanically driven process governed by dynamic cellular and molecular signaling interactions between neural and skeletal systems. This review synthesizes current evidence on neuron-bone cell crosstalk and the coordinated involvement of immune and vascular components in regulating alveolar bone remodeling during OTM. Key neural contributors include sensory neurons (nociceptors), autonomic neurons, central nervous system (CNS) circuits, and Schwann cells, which communicate with osteoblasts, osteoclasts, and periodontal ligament cells to modulate their proliferation, differentiation, and functional activity. These interactions are mediated by defined signaling pathways, including neuropeptide signaling (CGRP-CLR, SP-NK1, NGF-TrkA, BDNF-TrkB), axon guidance signaling (Sema3A-PlexinA/Nrp1), adrenergic signaling (β2-AR-dependent pathways), and intracellular cascades such as Rac1-β-catenin, RhoA/ROCK2, and Notch3. Sensory nerves function as primary initiators by releasing neuropeptides that promote osteoclastogenesis in pressure zones and osteogenesis in tension zones, while simultaneously shaping local immune responses and vascular remodeling. The autonomic nervous system exerts context-dependent regulation, with sympathetic signaling favoring bone resorption and parasympathetic pathways emerging as modulators of osteogenesis and neurovascular homeostasis. CNS circuits integrate sensory and autonomic inputs to coordinate OTM kinetics and pain perception. Together, these neuro-osteogenic signaling networks define mechanistic targets for improving orthodontic outcomes and pain management via neuromodulation. Show less

Depression is one of the most prevalent and disabling non-motor symptoms in Parkinson's disease (PD), forming a bidirectional relationship with motor dysfunction that worsens quality of life. Pharmacological treatments exhibit limited and inconsistent efficacy, and may lead to adverse interactions. Acupuncture may improve both depressive and motor symptoms by regulating the neuro-immune-endocrine network, but high-quality evidence remains insufficient. This study aims to evaluate the efficacy and safety of acupuncture as an adjunctive therapy for depression in PD and to explore potential biological correlates of clinical changes using predefined serum biomarkers. In this single-center, evaluator-blinded, randomized controlled trial, 88 patients with PD and comorbid depression will be randomly assigned to an acupuncture group or a waitlist control group. The primary outcome is the change in the Montgomery-Asberg Depression Rating Scale (MADRS) score. Secondary outcomes include motor function, anxiety, sleep quality, and overall quality of life. Exploratory analyses will assess serum inflammatory cytokines, brain-derived neurotrophic factor (BDNF), and kynurenine/tryptophan (KYN/TRP) ratio. We hypothesize that adjunctive acupuncture may improve depressive and motor symptoms compared with the control. Exploratory analyses will examine whether clinical changes are associated with changes in relevant biomarkers. This study will provide rigorous evidence for acupuncture as an adjunctive therapy, offering a non-pharmacological strategy to optimize the comprehensive management of PD and disrupt the bidirectional emotion-motor interplay. https://www.chictr.org.cn/, identifier ChiCTR2500113443. Show less

Age-related Macular Degeneration (AMD) is a leading cause of vision loss. There is no cure for AMD. Current treatments focus on preventing disease progression and preserving vision. In recent years, the role of brain-derived neurotrophic factor (BDNF) in AMD has attracted increasing attention. BDNF is widely involved in the physiology and pathophysiology of the retina. These include the development of photoreceptors during early development and synaptic communication between photoreceptors and retinal neurons. Under pathological conditions, BDNF affects the functions of multiple cell types in the retina including photoreceptors, ganglion cells, Müller cells, microglia cells, amacrine cells, and the retinal pigment epithelium (RPE). Importantly, BDNF does not act alone. Its function relates with other neurotrophic factors such as basic fibroblast growth factor (bFGF), ciliary neurotrophic factor (CNTF), and glial cell derived neurotrophic factor (GDNF). Meanwhile, the dynamic interaction between BDNF, its precursor protein proBDNF and the BDNF receptor TrkB not only affects the survival of retinal cells in AMD but may also guide the treatment strategy. Various approaches have been taken to deliver BDNF in animal models for managing AMD. Despite the exciting progress, challenges remain in implementing BDNF therapy as an effective treatment. In this review, we summarize the current research progress of BDNF in AMD and highlight the issues that need to be addressed before translation into clinical practice. Show less

Hippocampal neuroinflammation (HNF) is a key pathological feature in neurodegenerative disorders. Milk-derived exosomes, as bioactive extracellular vesicles, have underexplored potential in regulating brain neuroinflammatory responses. This study aimed to characterize desert milk exosomes (D-Exo) and investigate their neuroprotective and anti-neuroinflammatory effects in LPS-induced HNF mice model and an LPS-stimulated BV2 microglia. Exosomes were isolated from desert and non-desert milk (ND-Exo) for proteomic analysis. After pretreating BV2 cells with exosomes and stimulating with LPS, their inflammatory responses and polarization were assessed by RT-PCR. Balb/c mice were orally gavaged with D-Exo or 0.9% NaCl for 28 days before LPS injection. Cognitive function was assessed via behavioral tests, with microglial/astrocyte activation analyzed by immunofluorescence. D-Exo exhibited superior stability and a unique proteomic profile enriched with proteins linked to neuroinflammation and blood-brain barrier (BBB) integrity, notably within the AMPK signaling pathway. In vitro, D-Exo shifted LPS-stimulated microglia from the M1 to the M2 phenotype. In vivo, it alleviated HNF and cognitive decline, reduced Aβ D-Exo is enriched with specific proteins, attenuates neuroinflammation and cognitive decline by regulating microglial M1/M2 polarization and AMPK pathway, highlighting its preventive potential. Show less

Alzheimer's disease (AD) and osteoporosis are common age-related degenerative diseases. Emerging evidence suggests that amyloid-β (Aβ) deposition may contribute to the pathogenesis of both conditions. This study investigated whether probucol could alleviate AD-associated bone loss and Aβ42-induced osteoblast dysfunction, and further explored the underlying mechanisms. Female mice were divided into four groups (n = 5 per group): C57BL/6 wild-type (WT), WT treated with probucol (WT + PBC), APP/PS1 transgenic (AD) mice, and AD treated with probucol (AD+PBC). Bone mineral density (BMD) was assessed by micro-CT. Levels of pro-inflammatory cytokines (IL-1β, IL-6, TNF-α) along with bone metabolism markers including fibroblast growth factor 23 (FGF23), sclerostin, and brain-derived neurotrophic factor (BDNF) in bone and brain tissues were measured by ELISA. FOXO3a was knocked down in the bone marrow of APP/PS1 mice via stereotactic injection of lentiviral vectors. Expression of APP and FOXO3a in bone tissue was evaluated using RT-qPCR and Western blotting (WB). Mitochondrial damage in osteoblasts and neuronal cells was assessed by transmission electron microscopy (TEM). In vitro study, osteoblast differentiation and mineralization deficits were evaluated using Alizarin Red staining. WB was used to measure the expression of AKT, FOXO3a, autophagy and apoptosis related proteins. Probucol attenuated bone loss and mitochondrial damage in both APP/PS1 and FOXO3a-knockdown APP/PS1 mice, and improved cognitive impairment and neuronal ultrastructure in APP/PS1 mice. Furthermore, probucol attenuated Aβ42-induced osteoblast differentiation and mineralization via the AKT/FOXO3a signaling pathway in vitro. These findings demonstrate that probucol ameliorates AD-associated bone loss and Aβ42-induced osteoblast impairments by regulating AKT/FOXO3a signaling pathway. Show less

Osteoarthritis (OA) often coexists with metabolic traits (MTs), causing significant disability. Our study aims to uncover the shared genetic mechanisms between OA and MTs, revealing novel OA-MT related genes, proteins and pathways. We first explored the clinical associations between OA and MTs based on UK Biobank data. Using GWAS statistics for 9 OA subtypes and 51 MTs, we identified both global and regional genetic correlations. Multi-trait GWAS helped revealed credible genes and relevant pathways through various methods. Protein-level analyses were also conducted to identify key proteins. We developed polygenic scores (PGS), machine learning models and drug repurposing strategies were explored to translate these findings into clinical applications. We identified 152 trait pairs with significant associations and 709 local regions linked to OA-MT. Key SNVs like rs13135092 (SLC39A8) and rs34811474 (ANAPC4) were associated with multiple OA-MT pairs. Lipid and glucose metabolism emerged as central pathways, with tissue-specific enrichment analyses revealing key gene clusters in hepatocytes, arteries, and brain regions. Protein-level analyses identified 205 protein subgroups. PGS integrating MTs outperformed model based solely on OA, improving AUC by 17.5%. Causal gene-based models showed strong diagnostic accuracy (average AUC = 0.875 in external cohorts). Drug prediction highlighted fenofibrate as a promising treatment among 71 candidates. This study provides new insights into the genetic links between OA and MTs. We identified genes, proteins, and pathways related to comorbidities, revealing shared mechanisms, highlighting the potential of integrating metabolic factors to improve OA prediction, diagnosis, and treatment. Show less

This study aims to elucidate the role of Enterococcusin the progression from inflammatory bowel disease to colorectal cancer (CRC), with a focus on identifying key metabolites and host genes regulated by Enterococcusand their influence on CRC development. Using the database gutMGene, gutMDisorder and MACdb, we mined the key metabolites and human genes. We acquired the activated genes (panel 1) and inhibited genes (panel 2), and metabolite associated genes (MAGs, panel 3). Subsequent analyses included protein-protein interaction (PPI) network construction, functional enrichment, differential expression and survival analysis in CRC, and immune infiltration assessment. We screened 12 activated genes (Panel1: Show less

Anoikis resistance and epithelial-mesenchymal transition (EMT) are crucial factors in tumor invasiveness and metastasis in lung adenocarcinoma (LUAD). Identifying anoikis-EMT-related genes could be beneficial for predicting prognosis and immunotherapeutic efficacy in patients with LUAD. This study aims to establish and validate a novel prognostic signature based on anoikis-EMT-related genes for LUAD and to identify the potential biomarkers encapsulated within it. Anoikis-related genes and EMT-related genes were retrieved from the GeneCards and dbEMT 2.0 databases. Univariate Cox regression analysis and principal component analysis (PCA) were conducted to define anoikis and EMT levels. Gene expression and clinical information of patients with LUAD were downloaded from The Cancer Genome Atlas (TCGA) and the Gene Expression Omnibus (GEO) databases. Univariate Cox regression and multivariate Cox regression analyses were conducted to construct a risk score model. Immune correlation and drug sensitivity analyses were performed to investigate the association of the risk score with the immune profile and antitumor treatment. Three essential genes in the model were examined for messenger RNA (mRNA) expression by reverse transcription-polymerase chain reaction (RT-PCR) and for protein levels via the Human Protein Atlas (HPA) database. LUAD patients demonstrating low Anoikis Potential Index (API) combined with high EMT Potential Index (EPI) exhibited the poorest overall survival (OS). We further constructed a nine-gene prognostic risk model that combines anoikis and EMT. High-risk patients demonstrated significantly shorter survival duration. The clinical-prognostic nomogram accurately predicted outcomes at 1, 3, and 5 years. In addition, patients in low-risk group demonstrated superior immune responses to treatment and were more sensitive to commonly used chemotherapy drugs. Our validation studies confirmed upregulated expression of ANGPTL4, SLC2A1, and BIRC5 in LUAD, observed at both transcriptional and translational levels. The anoikis-EMT-based risk model effectively forecasts both OS and immunotherapy response in LUAD patients, accelerating the identification of groundbreaking molecular biomarkers and prospective molecular targets. Show less

Clinical application of mesenchymal stem cells for endometrial repair has been hampered by variability in cell quality, large-scale production, and uncertainty regarding the optimal delivery route. In this study, we investigated the therapeutic potential of clinical-grade human embryonic stem cell-derived immunity-and-matrix-regulatory cells (IMRCs) for treating refractory moderate-to-severe intrauterine adhesion (IUA). In a rabbit IUA model, sub-endometrial injection of IMRCs significantly reduced fibrosis and enhanced endometrial angiogenesis, outperforming uterine perfusion. Transcriptomic analysis revealed distinct pro-angiogenic gene expression profiles between the two delivery routes. In vitro, IMRCs co-cultured with endometrial stromal cells (ESCs) markedly enhanced angiogenic potential compared to either cell type alone. Protein array analysis of the co-culture supernatant showed elevated levels of angiogenic factors, with functional assays confirming that inhibition of ANGPTL4, a non-canonical pro-angiogenic mediator, impaired angiogenesis. In a first-in-human, single-center, phase 1 dose-escalation trial involving 18 patients with refractory IUA, high-dose sub-endometrial IMRC injection promoted angiogenesis, reduced uterine scarring, and improved pregnancy outcomes, with no safety concerns observed over 3 years of follow-up. These findings highlight the translational promise of IMRCs as a novel therapeutic strategy for endometrial regeneration in severe IUA. Show less

Residual cardiovascular risk persists in statin-treated patients with coronary artery disease (CAD), even when low-density lipoprotein cholesterol (LDL-C) targets are met. Excess apolipoprotein B (apoB), defined as measured apoB minus LDL-C-predicted apoB, may capture atherogenic particle burden beyond LDL-C, but its prognostic value for long-term mortality in secondary prevention remains uncertain. We conducted a pooled analysis of two nationwide Chinese cohorts (CIN-II and RED-CARPET) comprising 68,616 statin-treated CAD patients. Excess apoB was calculated using an internal reference population (triglycerides ≤ 1.0 mmol/L). Associations with all-cause and cardiovascular mortality were assessed using multivariable Cox models, with adjustment for clinical covariates including nutritional status. External validation was performed in 13,702 participants from the UK Biobank. Over a median follow-up of 5.2 years, 10,835 deaths occurred (5,090 cardiovascular). Each 1-standard deviation (15.4 mg/dL) increase in excess apoB was associated with a 12% higher risk of all-cause mortality (adjusted hazard ratio [aHR] 1.12, 95% CI 1.06-1.18) and a 24% higher risk of cardiovascular mortality (aHR 1.24, 95% CI 1.15-1.34). Patients in the highest excess apoB quartile (≥ 11.5 mg/dL) had significantly worse survival. Notably, these associations persisted consistently across all achieved LDL-C strata (< 2.0 to > 4.0 mmol/L). These findings were robustly confirmed in the external validation cohort. Excess apoB is an independent predictor of long-term mortality in statin-treated CAD patients, even among those with well-controlled LDL-C. Its incorporation into risk assessment could improve prognostic stratification and guide personalized management in secondary prevention. CIN-II: ClinicalTrials.gov, NCT05050877 (Retrospectively registered, 21 September 2021); RED-CARPET: Chinese Clinical Trial Registry, ChiCTR2000039901 (Prospectively registered, 14 November 2020). The UK Biobank study is covered by generic ethical approval from the NHS National Research Ethics Service (Ref: 99231). Show less

Atherosclerosis (AS), a chronic cardiovascular disease, originates from endothelial dysfunction, a process closely linked to cellular energy metabolism. While rosmarinic acid (RA) exhibits protective cardiovascular effects, its precise mechanism against AS remains undefined. This study demonstrates that RA alleviates AS in ApoE Show less

Lecanemab, an anti-amyloid beta (Aβ) protofibril antibody, was introduced in China in 2024, but its real-world performance remains unknown. In this prospective, multicenter study across 21 sites, 261 Alzheimer's disease patients (mild cognitive impairment to moderate dementia) received biweekly lecanemab (10 mg/kg). A matched Alzheimer's Disease Neuroimaging Initiative (ADNI) cohort served as comparator. Cognitive tests, plasma biomarkers, and optional amyloid/tau positron emission tomography (PET) were assessed over 6 months. Lecanemab significantly attenuated cognitive decline versus ADNI. Plasma Aβ42, Aβ40, phosphorylated tau 217 (p‑tau217), glial fibrillary acidic protein (GFAP), and ratios showed robust changes; a p‑tau217 reduction correlated with amyloid PET clearance (mean -22.1 Centiloid; 29.2% turned amyloid-negative). Apolipoprotein E (APOE) ε4 non-carriers showed greater improvements. Infusion reactions occurred in 11.1% and amyloid-related imaging abnormalities in 9.2% (1.6% symptomatic), with no stage-related safety differences. Lecanemab was effective and well tolerated in real-world Chinese patients. Plasma p‑tau217 may serve as a sensitive, minimally invasive treatment-response biomarker. Show less

Atherosclerosis is a leading cause of worldwide cardiovascular morbidity and mortality, and endothelial ferroptosis has emerged as a key mechanism in driving vascular injury. This study aimed to investigate whether quercetin (QCT), a natural dietary flavonoid with potent anti-oxidant activity, protects against atherosclerosis-associated endothelial dysfunction by modulating ferroptosis. In order to test this, ApoE[Formula: see text] mice fed a high-fat diet were treated with QCT or ferrostatin-1, and their aortic plaque burden, stability, and macrophage infiltration were then assessed. To evaluate ferroptosis, human umbilical vein endothelial cells (HUVECs) were exposed to oxidized low-density lipoprotein (Ox-LDL), with or without QCT, and their reactive oxygen species (ROS), Fe[Formula: see text] accumulation, and heme oxygenase-1 (HMOX-1) expression were measured. While functional assays examined endothelial barrier integrity and monocyte adhesion, gene modulation studies explored the role of phosphofurin acidic cluster sorting protein 2 (PACS2). QCT treatment markedly reduced plaque area, necrotic core size, and macrophage infiltration while enhancing plaque stability. Show less

Calcific aortic valve disease (CAVD) involves pathological mineralization, but the roles of chemokine signaling and ferroptosis remain unclear. This study investigated the regulatory function of C-C motif chemokine ligand 5 (CCL5) in CAVD progression via the chemokine pathway and ferroptosis. Bioinformatics analysis and single-cell RNA sequencing analysis were performed to identify hub genes and potential cell types. Human aortic valve interstitial cells (VICs) were treated with osteogenic medium (OM) to induce calcification. Apoe CCL5 was identified as a key hub gene in CAVD. Knockdown of CCL5 significantly attenuated OM-induced VICs calcification, osteogenic differentiation, oxidative stress, and ferroptosis. Similar protective effects were observed in vivo, with reduced valve thickening and calcification in Apoe CCL5 promoted CAVD progression by activating the chemokine signaling pathway to induce ferroptosis. Targeting CCL5 may offer a novel therapeutic strategy for CAVD. Show less

Perfluorooctane sulfonate (PFOS), a pervasive environmental contaminant, is ubiquitously detected in water, air, soil, and food chains. Emerging evidence has implicated PFOS in the pathogenesis of cardiovascular diseases, particularly atherosclerosis - the fundamental pathological process underlying diverse cardiovascular and cerebrovascular disorders. A previous study demonstrated that PFOS exacerbates atherosclerosis in apolipoprotein E-deficient (ApoE Show less

Impaired synaptic plasticity underlies cognitive impairment as a core pathological substrate. While aerobic exercise represents a significant non-pharmacological intervention for enhancing synaptic plasticity, its precise molecular mechanisms remain incompletely defined. This study investigated whether aerobic exercise ameliorates synaptic plasticity and synaptic loss in Apolipoprotein E homozygous knockout (APOE Show less

Cognitive impairment is a significant health concern in aging populations, but the interplay between biological aging, lifestyle factors, and genetic susceptibility remains unclear. This study examined whether accelerated biological aging is associated with cognitive impairment, whether lifestyle modifies this association, and how genetic background influences these relationships in Chinese older adults. In this cross-sectional study (2022-2023), 7033 participants from southwestern China were included. Accelerated biological aging was calculated as the residual difference between biological age (based on 10 biomarkers) and chronological age. Lifestyle was assessed via a composite index (smoking, alcohol, physical activity, diet, sleep). Cognitive function was measured using the Chinese Mini-Mental State Examination (C-MMSE), and genetic risk was evaluated through polygenic scores and APOE ε4 status. Linear and logistic regression models assessed associations between accelerated aging and cognition. Accelerated biological aging was associated with lower MMSE scores ( β = -0.243, 95% CI: -0.354, -0.133) and higher cognitive impairment prevalence (OR = 1.098, 95% CI: 1.040, 1.158). An unhealthy lifestyle exacerbated cognitive impairment in biologically older individuals (RERI = 0.25). Those with both accelerated aging and unhealthy lifestyle had the lowest MMSE scores ( β = -1.424, 95% CI: -1.846, -1.003) and highest odds of cognitive impairment (OR = 1.467, 95% CI: 1.194, 1.803). These effects were consistent across all genetic background subgroups. Accelerated aging was associated with lower cognitive function, especially in individuals with unhealthy lifestyles, regardless of genetic susceptibility. This highlights lifestyle modification as a potential intervention target for aging-related cognitive impairment. Show less

Disruption of circadian rhythms is increasingly recognized as a contributor to cognitive dysfunction, but its role in gestation-associated cognitive changes remains unexplored. Here we combine human cognitive screening with a comprehensive longitudinal mouse model to investigate whether gestational cognitive impairment and postpartum recovery are coupled with disruption and restoration of hippocampal circadian rhythms. Cognitive function was assessed in pregnant and postpartum women using the Montreal Cognitive Assessment (MoCA) and Mini-Mental State Examination (MMSE). In mice, four reproductive stages were compared: control, gestation, 1 month postpartum, and 3 months postpartum. Serum gonadotropins and sex hormones levels were quantified using ELISA. Home-cage locomotor activity was recorded over 48 h under a 12 h:12 h light-dark cycle. Hippocampal-dependent memory was evaluated using the novel object recognition test and Barnes maze at Zeitgeber times ZT6 (day) and ZT18 (night). Hippocampal amyloid β (Aβ) deposition was visualized via immunofluorescence; protein expression of amyloid precursor protein (APP), β-site amyloid precursor protein cleaving enzyme-1 (BACE1), and phosphorylated tau was measured by Western blots. Hippocampal clock gene expression was quantified by RT-qPCR at six time points; circadian parameters (mesor, amplitude, acrophase) were derived by cosinor analysis and compared between groups. Human cognitive screening confirmed modest gestational decline with postpartum recovery. In mice, gestation disrupted daily locomotor activity rhythms and reduced nocturnal preference; both partially recovered by 1 month and fully by 3 months postpartum. Behaviourally, pregnancy impaired the normal day-night difference and performance in novel object exploration and Barnes maze, which recovered progressively. At the molecular level, gestation increased hippocampal APP and BACE1 expression, elevated Aβ42 deposition, and induced tau hyperphosphorylation at multiple sites-hallmarks of Alzheimer's disease-related pathology. These alterations partially reversed by 1 month postpartum and normalized by 3 months. Hippocampal clock genes maintained 24 h rhythmicity, but gestation induced gene-specific phase shifts, amplitude reductions, and mesor alterations. These parameters showed gradual, gene-dependent normalization postpartum. Gestational cognitive impairment and postpartum recovery are associated with reversible disruption and restoration of both hippocampal circadian rhythms and Alzheimer's disease-related molecular pathology. These findings are correlational in nature and provide a foundation for future causal investigations. Show less

Persistent chronic hepatitis B virus (HBV) infection leads to chronic hepatitis, liver cirrhosis, and hepatocellular carcinoma. The immunosuppressive tissue microenvironment in the liver restricts the immune response, potentially facilitating persistent HBV infection. This study examined the expression of immunity-related factors in the liver in response to HBV. We performed gene expression profiling on mice subjected to HBV DNA hydrodynamic transfection to identify transcriptomic changes. The expression of IL-27 was validated through Western blotting, ELISA, and immunohistochemical staining. Liver macrophages in mice were depleted using clodronate-liposomes to evaluate their role in IL-27 production. IL-27 knockout mice were generated to examine the effects of IL-27 deficiency on CD8 T cell dysfunction and HBV persistence. Transcriptomic analysis demonstrated that IL-27 is significantly induced in the liver in response to HBV DNA. The elevated levels of IL-27 are strongly correlated with HBV persistence and are linked to CD8 T cell dysfunction, characterized by increased expression of PD-1 and Tim-3, along with reduced IFN-γ production in liver-infiltrating T cells. Furthermore, depleting macrophage-lineage cells using clodronate-liposomes significantly reduces IL-27 production in the liver and promotes viral clearance. Additionally, mice with IL-27 deficiency exhibit enhanced HBV clearance and restored CD8 T cell function. Collectively, IL-27 is significantly induced by HBV in the liver, and its production is strongly associated with HBV persistence and CD8 T cell dysfunction. This highlights the immunosuppressive role of IL-27 in the liver microenvironment and suggests that IL-27 could serve as a potential therapeutic target for HBV infection. Show less

Insufficient physical activity is prevalent among perinatal women, and digital health interventions offer a promising avenue to promote engagement in physical activity within this population. However, previous studies have relied heavily on self-reported data, lacking a systematic synthesis based on objective measurements. This study aims to systematically evaluate the effects of digital health interventions on objectively measured physical activity and sedentary behavior in perinatal women. A systematic search was conducted in PubMed, Embase, Web of Science, and the Cochrane Library databases from inception to December 20, 2025. Fourteen randomized controlled trials (RCTs) involving 2,101 participants were included. The Risk of Bias 2.0 (RoB 2.0) tool was used to assess bias risk, random-effects models were employed to pool effect sizes, and the quality of evidence was evaluated using the GRADE system. The meta-analysis showed that, following the exclusion of outliers via sensitivity analysis, digital health interventions significantly increased daily step counts (MD = 0.68, Digital health interventions can effectively and robustly enhance daily baseline activity levels in perinatal women, with the observed increments potentially reaching the minimal effective dose for improving metabolic health. However, current intervention designs face challenges in driving high-intensity behavior change and disrupting sedentary habits. Future research should explore more targeted and personalized intervention strategies. This systematic review and meta-analysis has been registered in PROSPERO (www.crd.york.ac.uk/prospero), identifier CRD420261280936. Show less

Executive function (EF) deficits are a core cognitive feature of autism spectrum disorder (ASD) and are closely associated with social responsiveness. Previous research has primarily focused on children with ASD, whereas how specific executive components relate to social functioning in adults remains less clear. This study examined whether patterns of association between EF and social responsiveness differ between children and adults with and without ASD. Data were obtained from the Autism Brain Imaging Data Exchange II (ABIDE II), including 423 participants aged 8-23 years (ASD = 184; controls = 239). EF was evaluated using the Behavior Rating Inventory of Executive Function (BRIEF/BRIEF-A), and social responsiveness was assessed with the Social Responsiveness Scale (SRS). Covariates of age, sex, and full-scale IQ (FIQ) were controlled using entropy balancing in children and multiple regression in adults. Hierarchical regression, moderated mediation analysis, and latent profile analysis (LPA) were conducted to examine the moderation, mediation, and heterogeneity effects, respectively. Across both child and adult samples, individuals with ASD exhibited significantly higher T-scores than controls on nearly all BRIEF and SRS subdomains after covariate adjustment (all adjusted p < 0.01), indicating widespread EF and social responsiveness impairments. Moderation analyses revealed no significant age group × EF interaction, indicating that the association between EF and social responsiveness was consistent across development. Mediation analysis revealed age-specific pathways, with EF broadly mediating social responsiveness in adults but showing more selective mediation in children. LPA identified four distinct subtypes, which were independent of age, sex, and FIQ. EF-social responsiveness associations were evident across development, but the functional contribution of specific executive components became more differentiated with age. Working memory showed greater relative prominence in adulthood. Latent profile analysis revealed heterogeneity in how executive difficulties align with social challenges, supporting developmentally informed assessment and clinical interpretation rather than direct treatment recommendations. Show less

This paper presents the Assimilation Modified Emotional (AME) algorithm, which is an enhanced version of the traditional label propagation algorithm (LPA) designed to address key challenges in social network analysis and emotional feature extraction. Traditional LPA methods, such as asynchronous label propagation and the Louvain algorithm, do not incorporate emotional representations and are often limited by local structural dependencies. The AME algorithm addresses these limitations by applying spectral algorithms, Markov chains, graph coarsening, and link prediction to simulate and optimize emotional transitions within the network. In addition, the AME algorithm enhances label representation through multi-label encoding, which allows for more accurate simulation of dynamic emotional states. Experimental results show that the AME algorithm achieves better performance than traditional LPA methods in terms of both accuracy and loss values. These findings indicate that the AME algorithm has strong potential for improving AI models used in social network analysis and emotional feature extraction. Show less

Cardiovascular (CV) disease risk is increased in rheumatoid arthritis (RA) and is the leading cause of mortality. Improved CV risk stratification tools in RA could enhance use of preventative care and improve outcomes. We previously studied biomarkers of CV disease - adiponectin, hsCRP, Lp(a), osteoprotegerin (OPG), high-sensitivity cardiac troponin T (hsTnT), serum amyloid A (SAA), YKL-40, soluble TNF receptor1 (sTNFR1) -- that were associated with CV risk. In the current study, these biomarkers were tested in an unrelated external cohort of RA patients followed at a single academic medical center without a history of CV events. CV events were identified through Medicare and Medicaid administrative data or through medical record review of self-reported events.Biomarkers were assessed at cohort entry among a nested cohort of cases and controls, matched 1:1 on sex and age. Analyses were conducted using conditional logistic regression. We examined whether the candidate biomarkers added to clinical CV risk factors improved model prediction, using the area under the curve (AUC) as well as the net reclassification index (NRI). From a cohort of 1,345 eligible patients with RA, we identified 123 patients with confirmed CV events. Cases and matched controls were typical of RA: median age 63 years, 77% women, RA disease duration 11 years, 72% seropositive, 85% used a biologic or conventional disease modifying anti-rheumatic drug, 58% non-steroidal anti-inflammatory drugs, and 30% oral glucocorticoids. From the candidate biomarkers, LASSO regression selected hsTnT and sTNFR1 as associated with CV events. The AUC for models that included only clinical risk factors was 0.758 (95% CI 0.689-0.829); after adding hsTnT and sTNFR1, the AUC increased to 0.802 (95% CI 0.718-0.998). The NRI of the model with biomarkers was 16.3%, with improvement only observed in patients who did not have CV events during follow-up. Adding selected biomarkers to clinical risk factors enhances the discrimination of models predicting CV events among patients with RA. These risk models require prospective testing to see if they have value in clinical practice decision-making regarding preventative care. Show less

At present, the research on the effective teaching behaviors of clinical nursing teachers mainly focuses on the overall level of effective teaching behaviors and their relationship with other variables, ignoring the individual heterogeneity of the effective teaching behaviors of clinical nursing teachers. This study through latent profile analysis (LPA), aims to identify different effective teaching behavior profiles of clinical nursing teachers and explore the demographic and personal factors associated with these different effective teaching behavior profiles. This is a cross-sectional study. A survey was conducted among 842 clinical nursing teachers through demographic questionnaires, the Effective Teaching Behavior Scale, and the Self-Efficacy Scale. LPA analyzes the potential characteristics of effective teaching behaviors of clinical nursing teachers. The multiple logistic regression method was used to explore the predictors of different spectra. Three potential characteristics were identified: Profile 1- high effective teaching behavior group, Profile 2- moderate effective teaching behavior group, and Profile 3 - low effective teaching behavior group. Marital status, years of teaching experience and self-efficacy are predictive factors for different profiles. Most clinical nursing teachers are classified as type 1, and they have relatively good effective teaching behavior ability. Strategies such as enhancing self-efficacy, paying attention to the marital status of clinical nursing teachers, and focusing on training clinical nursing teachers with shorter tenure may be effective ways to improve the effective teaching behaviors of clinical nursing teachers in different situations. Show less

Sequence alignment is essential for genomic research and clinical diagnostics, yet detecting complex rearrangements such as inversions, duplications, and gene conversions remains challenging due to allele complexity and limitations of current methods. We introduce VACmap, a non-linear mapping approach to enhance the detection and representation of all genetic variations. VACmap improves duplication detection from 20% to 90% in the Challenging Medically-Relevant Genes (CMRG) benchmark and improves characterization of complex inversions in repetitive regions and gene conversion events. It improves resolving clinically significant loci, including the LPA gene (with repetitive KIV-2 units linked to coronary heart disease), GBA1 and STRC genes (risk factors for Parkinson's disease and hearing loss, respectively, affected by pseudogene recombination with GBAP1 and STRCP1). Here, we show that VACmap delivers better alignment accuracy and SV detection, providing a robust tool for genomic analysis and clinical insights, with potential to advance understanding of genetic diversity and disease mechanisms. Show less

24 h behaviours (sleep, time awake in bed, moderate-to-vigorous physical activity [MVPA], light physical activity [LPA], and sedentary behaviour [SB]) may influence long-term mental health through their associations with affective experiences in everyday life. Here, we investigated the daily, prospective associations between 24 h behaviours and affect. Actigraphy-measured 24 h behaviours and self-reported affect data were collected across 7-15 consecutive days in healthy, community-dwelling adults (N = 354, M Associations between 24 h behaviours and next-day affect emerged at the within-person, not between-person level. Relative to the remaining behaviours, more LPA predicted 0.14 [95 % CI 0.03, 0.26] higher high arousal positive affect, whereas less SB predicted lower high and low arousal positive affect (-0.14 [-0.25, -0.02] and -0.12 [-0.24, -0.01], respectively) higher high arousal negative affect (0.13 [0.03, 0.23]). Further, within-person 30-min reallocation to LPA from SB, sleep, and time awake in bed also predicted ≥0.03 [0.00, 0.06] higher high arousal positive affect. 30-minute reallocation of time to LPA and MVPA from SB predicted 0.04 [0.01, 0.06] higher high arousal positive affect and -0.02 [-0.04, -0.00] lower low arousal negative affect. Findings provide stepping stone evidence for identifying optimal daily compositions of 24 h behaviours for affective enhancements in healthy individuals. Replacing time in SB with LPA and MVPA for improving affect should be experimentally tested in daily settings and clinical populations, to inform diagnostic and intervention strategies for better daily affect and mental health. Show less

Dibutyl phthalate (DBP) is a widely distributed endocrine-disrupting chemical with potential carcinogenic properties, yet its role in head and neck squamous cell carcinoma (HNSC) remains unclear. Here, we applied an integrative framework combining network toxicology, Mendelian randomization (MR), multi-omics analyses, molecular docking, molecular dynamics simulations, and in vitro experiments to elucidate the mechanisms underlying DBP-associated HNSC. Lipoprotein lipase (LPL) was identified as the sole overlapping gene between DBP-related targets and HNSC-associated genes. MR analysis supported a potential causal relationship between LPL and HNSC susceptibility. Expression profiling demonstrated tissue- and cell type-specific patterns of LPL and its dysregulation in HNSC, with associations to tumor stage and prognosis. Genomic analyses revealed that LPL alterations were infrequent and mainly driven by copy number loss. LPL expression positively correlated with immune and stromal infiltration. Enrichment analyses implicated immune regulation and PI3K-AKT signaling. Molecular simulations showed stable DBP-LPL binding. Functionally, DBP promoted SCC9 proliferation and reduced LPL expression, and was associated with transcriptional changes in PI3K-AKT-mTOR-related genes, whereas LPL restoration mitigated these effects. These findings reveal a novel DBP-LPL axis in HNSC. Show less

Excessive fat deposition compromises the health of companion animals and the carcass quality of food-producing livestock. Follicle-stimulating hormone (FSH) has been demonstrated to play a critical regulatory role in fat deposition, with its function dependent on binding to its cognate receptor (FSHR) in target organs. In this study, female Sprague-Dawley (SD) rats were immunized with subunit vaccines targeting FSHβ and FSHR, respectively, and obesity was induced by a high-fat diet (HFD) to investigate the effects of these vaccines on adipose deposition in female mammals. The results revealed that active immunization against FSHβ and FSHR effectively suppressed HFD-induced obesity and the elevated serum triglyceride levels. Histological observations found that FSHβ and FSHR immunity decreased adipocyte hypertrophy and increased the cross-sectional area of skeletal muscle fibers caused by HFD, partially ameliorated HFD-associated hepatic sinusoidal spaces and vacuolated steatosis in the cytoplasm. RT-qPCR results indicated that FSHβ and FSHR immunization inhibited lipid synthesis by downregulating adipogenic-related genes, including C/ebpα, Creb, Pparγ, Lpl, and Perilipin. These findings suggest that both vaccines can mitigate HFD-induced adipose deposition in rats, with the FSHR vaccine exhibiting more pronounced effects. This study provides a novel strategy to mitigate pet health deterioration caused by excessive obesity and the decline in carcass quality of food-producing livestock. Show less

To investigate whether vaccinia-related kinase 1 (VRK1) mediates transforming growth factor-beta2 (TGF-β2)-caused epithelial-mesenchymal transition (EMT) and inflammatory responses in retinal pigment epithelial (RPE) cells through regulating snail family transcriptional repressor 1 (SNAI1), and to validate its role in a proliferative vitreoretinopathy (PVR) mouse model. Human RPE cell line ARPE-19 cells were treated with TGF-β2 to construct an EMT model. Western blot detected VRK1 level. The effects of VRK1 on SNAI1 expression and biological behavior of ARPE-19 cells were detected by immunofluorescence, ELISA, Transwell, and scratch assay, and the interaction between VRK1 and SNAI1 was confirmed through immunoprecipitation. A PVR mouse model was constructed, and the effects of VRK1 or/and SNAI1 on retinal damage were assessed by pathologic staining. Inflammatory factors and EMT-related proteins were assessed with ELISA and Western blot. VRK1 was upregulated in ARPE-19 cells after TGF-β2 treatment. Overexpression of VRK1 increased cell viability, promoted cell migration and EMT, and the levels of inflammatory factors. Silencing of VRK1 reversed the above indexes. There was a direct interaction between VRK1 and SNAI1, and overexpresssion SNAI1 weakened the impacts of silencing of VRK1. In PVR mice, silencing of VRK1 ameliorated retinal structural damage, decreased proinflammatory factor levels, and suppressed SNAI1 and mesenchymal marker expression. SNAI1 overexpression antagonized the protective effects of silencing VRK1 and exacerbated EMT and inflammatory responses. VRK1 plays a key role in retinal structural and inflammatory damage in PVR mice by regulating SNAI1 and mediating TGF-β2-caused EMT and inflammatory responses in RPE cells. Show less