Publications by authors named "XiaoDan Sun"

Background: Rheumatoid arthritis (RA) is a chronic autoimmune disease and the integrity of CXCR1 synovial macrophage barrier significantly impacts its progression. However, the mechanisms driving the dynamic changes of this macrophage barrier remain unclear. Traditional drug therapies for RA have substantial limitations.

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Amino-modified polystyrene nanoplastics (NH-NPs), generated through ultraviolet aging and photocatalytic processes, can lead to vascular damage. Baicalein is a flavonoid compound with anti-inflammatory properties that exerts a protective effect on blood vessels. However, whether baicalein can inhibit vascular damage induced by NH-NPs remains to be investigated.

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Oriented poly(lactic acid) (PLA) fiber bone tissue engineering scaffolds are often limited by factors including poor material hydrophilicity and weak osteogenic activity. The introduction of in situ mineralization can address these issues, but it requires the assistance of hydrophilic materials to achieve optimal performance. Collagen, a nature-based ECM component, was adopted because it can enhance hydrophilicity, encourage cell adhesion, and biomimetrically induce mineralization, according to recent studies of ECM-mimicking scaffolds.

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Background: This study aimed to identify independent predictors of cervical central lymph node metastasis (CLNM), cervical lateral lymph node metastasis (LLNM), and recurrence in patients with PTC, which could help guide the surgical management of these patients.

Methods: This retrospective study analyzed data from 542 patients with PTC, who underwent thyroid surgery and were enrolled in The Cancer Genome Atlas and Gene Expression Omnibus databases. Patients were categorized into two groups based on the presence or absence of cervical LNM, classified as CLNM or LLNM.

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Cervical cancer is one of the cancers commonly found in the female reproductive system and is associated with obesity. However, the exact connection mechanisms remain unclear. Screening of key therapeutic targets and natural products with good antitumor activity has become a crucial strategy for cancer therapy.

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Plant leaves can reduce the concentration of atmospheric particulate matter (PM) by absorbing it in the air, and this mitigates the deleterious human health effects of PM. However, the ability of plant leaves to retain dust is limited and varies continually due to various meteorological factors such as rainfall, extreme wind speed, and PM concentrations. Here, we measured the ability of seven types of turfgrass with leaves similar in macromorphology but varying in micromorphology to retain dust particles of different sizes; we also analyzed the effects of various meteorological factors, such as rainfall, maximum wind speed, and PM concentration, on the ability of leaves to retain particles of different sizes.

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Anlotinib is a novel small-molecule multi-target tyrosine kinase inhibitor (TKIs) independently developed in China, it possesses the functions of inhibiting tumor angiogenesis and suppressing tumor growth. Anlotinib has achieved notable therapeutic effects in approved indications for advanced non-small cell lung cancer, soft tissue sarcoma, small cell lung cancer, and medullary thyroid carcinoma. Additionally, with unanimous expert consensus, it has been used off-label in various other tumors, yielding favorable outcomes.

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Biomimetic neural substitutes, constructed through the bottom-up assembly of cell-matrix modulus via 3D bioprinting, hold great promise for neural regeneration. However, achieving precise control over the fate of neural stem cells (NSCs) to ensure biological functionality remains challenging. Cell behaviors are closely linked to cellular dynamics and cell-matrix mechanotransduction within a 3D microenvironment.

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Wound healing in chronic diabetic patients remains challenging due to the multiple types of cellular dysfunction and the impairment of multidimensional microenvironments. The physical signals of structural anisotropy offer significant potential for orchestrating multicellular regulation through physical contact and cellular mechanosensing pathways, irrespective of cell type. In this study, we developed a highly oriented anisotropic nanofiber hydrogel designed to provide directional guidance for cellular extension and cytoskeletal organization, thereby achieving pronounced multicellular modulation, including shape-induced polarization of macrophages, morphogenetic maturation of Schwann cells, oriented extracellular matrix (ECM) deposition by fibroblasts, and enhanced vascularization by endothelial cells.

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Chronic allodynia stemming from peripheral stump neuromas can persist for extended periods, significantly compromising patients' quality of life. Conventional managements for nerve stumps have demonstrated limited effectiveness in ensuring their orderly termination. In this study, we present a spatially confined conduit strategy, designed to enhance the self-organization of regenerating nerves after truncation.

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Soft actuators with multi-stimuli response have shown promising applications in soft intelligent robots. However, most soft actuators are limited by the unidirectional actuation and self-perception capabilities. Here, a bilayer self-sensing actuator with bidirectional actuation is proposed, which showed exceptional bidirectional actuation, self-sensing of temperature and moisture, and smart solar panel.

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A novel multiscale model is formulated to examine the co-evolution among behavioral dynamics, disease transmission dynamics and viral dynamics, in which perceived risk act as a bridge for realizing the bidirectional coupling of between-host dynamics and within-host dynamics. The model is validated by real data and exhibits rich dynamic behaviors including the periodic oscillations of the solutions, the discordance of transmission dynamics and viral dynamics. It is observed that new infections may increase with improving treatment efficacy, which may reveal the hidden mechanisms why it is hard to eliminate HIV/AIDS infection only with the strategy of treatment.

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Epidermal growth factor receptor (EGFR)-mutant lung adenocarcinoma (LUAD) exhibits a poor response to immune checkpoint inhibitors (ICIs) by shaping a suppressive tumor immune microenvironment (TIME), which characters as lacking immune cell infiltration; however, the underlying mechanism remains to be elucidated. Here, we demonstrated that Sirtuin 5 (SIRT5), a member of the deacetylase SIRT family, functions as a desuccinylase of acetyl-CoA acetyltransferase 1 (ACAT1) and enhances the enzymatic activity of ACAT1 to activate the NRF2 pathway, inhibiting the secretion of the chemokines CCL5 and CXCL10, which are important for recruiting CD8 T cells, thereby participating in the formation of an inhibitory TIME in -mutant LUAD. In conclusion, we propose that the combination of a SIRT5 inhibitor with ICIs therapy may be a promising therapeutic approach for patients with -mutant LUAD.

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The commonly used baseline-free Lamb wave damage identification methods often require a large amount of sensor data to eliminate the dependence on baseline signals. To improve the efficiency of damage localization, this paper proposes a new Lamb wave damage location method, namely the probabilistic exchanging-element time-reversal method (PEX-TRM), which is based on the exchanging-element time-reversal method (EX-TRM) and the probabilistic damage identification method. In this method, the influence of the damage wave packet migration on the correlation coefficient between the reconstructed signals of each sensing path and the initial excitation signal is analyzed, and the structure is divided into multiple regional units corresponding to the damage to locate damage.

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Chronic osteomyelitis (OM) represents a severe and persistent infectious bone disease. Effective treatment requires controlled anti-inflammatory releases and bone regeneration across disease phases. A Sr@Ag-based scaffold was successfully printed, featuring micron-scale coaxial fibers containing Ag-doped hydroxyapatite (HA) in the outer layer of PLLA and Sr-doped HA in the inner layer of PLLA, facilitating the spatiotemporal and sequential release of Ag and Sr ions during OM treatment.

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Intermittent androgen-deprivation therapy (IADT) can be beneficial to delay the occurrence of treatment resistance and cancer relapse compared to the standard continuous therapy. To study the effect of IADT in controlling prostate cancer, we developed a Filippov prostate cancer model with a joint threshold function: therapy is implemented once the total population of androgen-dependent cells (AC-Ds) and androgen-independent cells (AC-Is) is greater than the threshold value ET, and it is suspended once the population is less than ET. As the parameters vary, our model undergoes a series of sliding bifurcations, including boundary node, focus, saddle, saddle-node and tangency bifurcations.

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For practical engineering structures, fatigue is one of the main factors affecting their safety and durability. Under long-term service conditions, the minor damage will be affected by fatigue loading and expand to macroscopic cracks, affecting the structure's service performance. Based on the sensitivity of Lamb waves to minor and initial damage, a damage monitoring method for fatigue crack propagation is proposed.

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Rainstorm is one of the global meteorological disasters that threaten the safety of transportation infrastructure and the connectivity of transportation system. Aiming to support the resilience assessment of transportation infrastructure in three representative regions: Sichuan-Chongqing, Yangtze River Delta, and Beijing-Tianjin-Hebei-Shandong, rainfall data over 40 years in the three regions are collected, and the temporal distribution of rainfall are analyzed. Prediction equations of rainfall are established.

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Objectives: To estimate adolescents and children age using stepwise regression and machine learning methods based on the pulp and tooth volumes of the left maxillary central incisor and cuspid on cone beam computed tomography (CBCT) images, and to compare and analyze the estimation results.

Methods: A total of 498 Shanghai Han adolescents and children CBCT images of the oral and maxillofacial regions were collected. The pulp and tooth volumes of the left maxillary central incisor and cuspid were measured and calculated.

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Article Synopsis
  • This study introduces material repurposing, focusing on carbonyl iron powder (CIP) as a potential treatment for cancer, building on the successful drug repurposing strategy used in pharmaceuticals.
  • The research shows that CIP can enhance the effectiveness of chemotherapy and photothermal therapy, particularly when combined in an injectable alginate hydrogel that rapidly heats tumors under NIR-II laser irradiation.
  • The findings indicate that using CIP-ALG in a tumor model leads to effective tumor destruction and inhibition of secondary tumors, demonstrating its promise as a safe and efficient cancer treatment.
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Perfluorooctane sulfonate (PFOS) and perfluorooctanoate (PFOA) are persistent anthropogenic chemicals that are widely distributed in the environment and pose significant risks to human health. Foam fractionation has emerged as a promising method to recover PFOS/PFOA from water. However, PFOS/PFOA concentrations in wastewater are often inadequate to generate stable foams due to their high critical micelle concentrations and the addition of a cosurfactant is necessary.

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Article Synopsis
  • The study focuses on a novel "nano trap" designed to combat breast cancer by preventing the evasion of cell death, a common issue in tumor progression and treatment resistance.
  • This nano trap utilizes disulfiram-loaded nanoparticles combined with calcium and copper ions, which trigger both paraptosis and apoptosis in cancer cells through a carefully engineered release mechanism.
  • Experimental results indicate that this dual-ion approach effectively enhances cancer treatment outcomes by inducing cell death and could reshape future strategies for managing tumorigenesis.
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Small cell lung cancer (SCLC) is heterogenous in phenotype and microenvironment. Dynamic phenotypic reprogramming, leading to heterogeneity, is prevalent in SCLC, while the mechanisms remain incompletely understood. Cancer-associated fibroblasts (CAFs) possess comprehensive roles in cancer progression, while their function in phenotypic reprogramming of SCLC remain elusive.

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Ovarian leiomyoma and abdominal wall leiomyoma are both rare clinical entities. Here, we report the rare case with ovarian leiomyoma accompanied by a neglected abdominal wall leiomyoma to raise the awareness of clinicians of ovarian leiomyoma and multiple occurrences of benign leiomyoma for appropriate diagnosis.

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Long noncoding RNAs (LncRNAs) have been gaining attention as potential therapeutic targets for lung cancer. In this study, we investigated the expression and biological behavior of lncRNA DARS-AS1, its predicted interacting partner miR-302a-3p, and ACAT1 in nonsmall cell lung cancer (NSCLC). The transcript level of DARS-AS1, miR-302a-3p, and ACAT1 was analyzed using qRT-PCR.

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