Your search keyword '"Qiang, Wu"' showing total 165 results

1. Gender, Ethnicity Differences in Mental Health Status and COVID-19 Vaccine Intention among U.S. College Students during COVID-19 Pandemic

Author

Lei Xu, Wenhua Lu, Aimee W. Smith, Qiang Wu, Victoria Chan, and Anjalee Hou

Abstract

To examine mental health status, COVID-19 vaccine intention and barriers among college students in the U.S. Participants: Students (n = 337) registered at a large public university in 2021. Methods: Cross-sectional survey data were collected online and analyzed using independent samples t test, chi-square test, and one-way ANOVA. Results: Compared to male students, females reported greater anxiety (p < 0.05) and fear (p < 0.01). Hispanic participants reported increased anxiety level and the least positive pandemic coping strategies (both p < 0.05) across the ethnic groups. Black students were the racial group with the lowest trust in the safety and effectiveness of COVID-19 vaccine (p < 0.05). Vaccine intention was positively correlated with factors such as vaccine safety measures, and perceptions toward vaccination (both p < 0.001). Conclusions: These gender- and ethnicity- based mental health struggles should be addressed immediately for better health and vaccine promotion outcomes amid the COVID-19 pandemic.

Published

2024

2. Effects of transcranial direct current stimulation on pain and physical function in patients with knee osteoarthritis: a systematic review and meta-analysis

Author

Yan-lin Wu, Yun Luo, Jia-ming Yang, Yong-qiang Wu, Qiang Zhu, Yi Li, Hao Hu, Jia-hong Zhang, Yan-biao Zhong, and Mao-yuan Wang

Subjects

Transcranial direct current stimulation, Knee osteoarthritis, Pain, Physical function, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Keen Osteoarthritis (KOA) is a common chronic disabling disease characterized by joint pain and dysfunction, which seriously affects patients’ quality of life. Recent studies have shown that transcranial direct current stimulation (tDCS) was a promising treatment for KOA. Purpose Investigate the effects of tDCS on pain and physical function in patients with KOA. Methods Randomized controlled trials related to tDCS and KOA were systematically searched in the PubMed, Embase, Medline, Cochrane Library, CINHL, and Web of Science databases from inception to July 23, 2024. The pain intensity was evaluated using the visual analog scale or the numeric rating scale, and the pain sensitivity was assessed using conditioned pain modulation, pressure pain threshold, heat pain threshold, or heat pain tolerance. The physical function outcome was evaluated using the Western Ontario and McMaster Universities Osteoarthritis Index or the Knee injury and Osteoarthritis Outcome Score. Statistical analysis was performed using Review Manager 5.4. Results Seven studies with a total of 503 participants were included. Compared to sham tDCS, tDCS was effective in reducing the short-term pain intensity (SMD: -0.58; 95% CI: -1.02, -0.14; p = 0.01) and pain sensitivity (SMD: -0.43; 95% CI: -0.70, -0.16; p = 0.002) but failed to significantly improve the long-term pain intensity (SMD: -0.26; 95% CI: -0.59, 0.08; p = 0.13) in KOA patients. In addition, tDCS did not significantly improve the short-term (SMD: -0.13; 95% CI: -0.35, 0.08; p = 0.22) and long-term (SMD: 0.02; 95% CI: -0.22, 0.25; p = 0.90) physical function in patients with KOA. Conclusions The tDCS can reduce short-term pain intensity and sensitivity but fails to significantly relieve long-term pain intensity and improve the physical function in patients with KOA. Thus, tDCS may be a potential therapeutic tool to reduce short-term pain intensity and pain sensitivity in patients with KOA.

Published

2024

3. Senescence-targeted MicroRNA/Organoid composite hydrogel repair cartilage defect and prevention joint degeneration via improved chondrocyte homeostasis

Author

Ye Sun, Yongqing You, Qiang Wu, Rui Hu, and Kerong Dai

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492, Biology (General), QH301-705.5

Abstract

Introduction: Cartilage defect (CD) is a common complication in osteoarthritis (OA). Impairment of chondrogenesis and cellular senescence are considered as hallmarks of OA development and caused failure of cartilage repair in most clinical CD cases. Exploring markers for cellular senescence in CD patients might provide new perspectives for osteoarthritic CD patients. In the present study, we aim to explore senescent markers in CD patients with OA to fabricate a senescence-targeted SMSC organoid hydrogel for cartilage repair. Methods: Clinical cartilage samples from cartilage defect patients were collected. Immunofluorescence staining of senescent markers and SA-β-Gal staining were used to detect the senescence state of SMSCs and chondrocytes in cartilage defect and OA patients. MicroRNA expression profiles of SMSC organoids and H2O2-treated SMSC organoids were analyzed and compared with high-throughput microRNA sequencing. Fluorescent in situ hybridization of miRNA were used to determine the expression level of miR-24 in SMSC organoids and cartilage samples. Interaction between miR-24 and its downstream target was analyzed via qRT-PCR, immunofluorescence and luciferase assay. Senescence-targeted miR-24 μS/SMSC organoid hydrogel (MSOH) was constructed for cartilage repair. Anti-senescence properties and chondrogenesis were determined in vitro for MSOH. Rats were used to evaluate the cartilage repair capacity of the MSOH hydrogel in vivo. Results: In this study, we found Osteoarthritic cartilage defect patients demonstrated upregulated cellular senescence in joint cartilage. MicroRNA sequencing demonstrated senescence marker miR-24 was negatively associated with cartilage impairment and cellular senescence in osteoarthritic CD patients. Moreover, miR-24 mimics alleviates cellular senescence to promote chondrogenesis by targeting downstream TAOK1. Also, miR-24 downregulated TAOK1 expression and promoted chondrogenesis in SMSC organoids. Senescence-targeted miR-24 μS/SMSC organoid hydrogel (MSOH) was constructed and demonstrated superior chondrogenesis in vitro. Animal experiments demonstrated that MSOH hydrogel showed better cartilage repairing effects and better maintained joint function at 24 weeks with low intra-articular inflammatory response after transplantation in rat joint. Single-cell RNA-seq of generated cartilage indicated that implanted MSOH could affect chondrocyte homeostatic state and alter the chondrocyte cluster frequency by regulating cellular glycolysis and OXPHOS, impacting cell cycle and ferroptosis to alleviate cellular senescence and prevent joint degeneration. Conclusion: Osteoarthritic cartilage defect patients demonstrated upregulated cellular senescence in joint cartilage. Senescence marker miR-24 was negatively associated with cartilage impairment in osteoarthritic CD patients. miR-24 attenuates chondrocytes senescence and promotes chondrogenesis in SMSC organoids through targeting TAOK1. Senescence-targeted miR-24 microsphere/SMSC organoid composite hydrogel could successfully repair cartilage defect in osteoarthritic microenvironment via enhanced miR-24/TAOK1 signaling pathway, suggesting MSOH might be a novel therapy for cartilage repair in osteoarthritic CD patients.

Published

2024

4. 'Three zones' method for coal mine water hazard control and its significance

Author

Yifan ZENG, Chao YU, Qiang WU, Linger ZHAO, Shangxian YIN, Bocheng ZHANG, Zeyang LIU, Yashuai CUI, Xuedong KAN, and Hao HUANG

Subjects

coal mine water hazard control, the “three zones” division, hydrogeological conditions, water hazard to disaster factors, water hazard management measures, Geology, QE1-996.5, Mining engineering. Metallurgy, TN1-997

Abstract

In order to systematically understand the various types of water hazards and standardize the management of water prevention and control work in coal mines, the National Mine Safety Administration in June 2022 extended the “three zones” management methodology for old goaf water prevention and control to more types of water hazards, such as roof water, floor water, and structural water. However, in the process of dividing the “three zones” of water prevention and control in coal mines, it is revealed that the water damage causing factors and water damage management situation are not closely linked with the division standard, and that technically different divisions are not made for different coal seams and mining areas, and there are inconsistencies in the scope of the division area, and the standardization and timeliness of the division results. Accordingly, combined with the purpose of water hazard prevention and control “three zones” division, compared the similarities and differences between the new and old “three zones” division work, this paper clarifies the degree of hydrogeological conditions survey, water hazard analysis, water hazard management as elements of the division principles, and determines the technical path of the division of the “three zones”. Combining the characteristics of five common types of water hazards in coal mines, the paper puts forward the division method of different types of water hazards, that is: surface water hazard should be divided according to the distribution and development characteristics of surface water bodies in the mining area and the degree of influence of atmospheric precipitation, landslides and other geological disasters in mining. The roof water hazard should be divided according to whether there is a strong water-rich aquifer, a medium water-rich but hydrostatic reservoir-rich aquifer, a loose aquifer. The floor water hazard should be divided according to the relationship between the thickness of the floor water barrier and the depth of the floor mine pressure damage zone in the coal seam pressure mining area, as well as the size of the floor water inrush coefficient. The old goaf water hazard should be divided according to the distribution range and amount of water in the mine and the surrounding mines. The structural water hazards should be divided according to the water-richness, water content, and water source conduction of geological structures and bad geological bodies such as faults, trap columns and caves in the mining area. The key points and difficulties of the division work include the clear division of time and space scope, the comprehensive analysis of division standards, the clear management responsibilities for the “three zones”, and the dynamic transformation of division results. On this basis, typical coal mines with various types of water hazards and complex hydrogeological conditions are selected as case studies. Following the principle of division, according to the division standard, the mineable zone, the slow mining zone and no-mining zone are divided by the method of separating coal seams and mining areas, and detailed explanations are given. The significance of carrying out the division of the “three zones” for water hazard prevention and control is clarified, which can enhance the comprehensive detection level, strengthen the prediction ability, and identify the direction of water hazard management in order to guide and standardize the division of the “three zones” for water prevention and control in the coal mines of China.

Published

2024

5. Giant Kerr nonlinearity of terahertz waves mediated by stimulated phonon polaritons in a microcavity chip

Author

Yibo Huang, Yao Lu, Wei Li, Xitan Xu, Xinda Jiang, Ruobin Ma, Lu Chen, Ningjuan Ruan, Qiang Wu, and Jingjun Xu

Subjects

Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

Abstract Optical Kerr effect, in which input light intensity linearly alters the refractive index, has enabled the generation of optical solitons, supercontinuum spectra, and frequency combs, playing vital roles in the on-chip devices, fiber communications, and quantum manipulations. Especially, terahertz Kerr effect, featuring fascinating prospects in future high-rate computing, artificial intelligence, and cloud-based technologies, encounters a great challenge due to the rather low power density and feeble Kerr response. Here, we demonstrate a giant terahertz frequency Kerr nonlinearity mediated by stimulated phonon polaritons. Under the influences of the giant Kerr nonlinearity, the power-dependent refractive index change would result in a frequency shift in the microcavity, which was experimentally demonstrated via the measurement of the resonant mode of a chip-scale lithium niobate Fabry-Pérot microcavity. Attributed to the existence of stimulated phonon polaritons, the nonlinear coefficient extracted from the frequency shifts is orders of magnitude larger than that of visible and infrared light, which is also theoretically demonstrated by nonlinear Huang equations. This work opens an avenue for many rich and fruitful terahertz Kerr effect based physical, chemical, and biological systems that have terahertz fingerprints.

Published

2024

6. Metformin enhances endogenous neural stem cells proliferation, neuronal differentiation, and inhibits ferroptosis through activating AMPK pathway after spinal cord injury

Author

Cong Xing, Song Liu, Liyue Wang, Hongpeng Ma, Mi Zhou, Hao Zhong, Shibo Zhu, Qiang Wu, and Guangzhi Ning

Subjects

Spinal cord injury, Endogenous neural stem cells, Metformin, AMPK activation, Cell proliferation, Differentiation fate, Medicine

Abstract

Abstract Background Inadequate nerve regeneration and an inhibitory local microenvironment are major obstacles to the repair of spinal cord injury (SCI). The activation and differentiation fate regulation of endogenous neural stem cells (NSCs) represent one of the most promising repair approaches. Metformin has been extensively studied for its antioxidative, anti-inflammatory, anti-aging, and autophagy-regulating properties in central nervous system diseases. However, the effects of metformin on endogenous NSCs remains to be elucidated. Methods The proliferation and differentiation abilities of NSCs were evaluated using CCK-8 assay, EdU/Ki67 staining and immunofluorescence staining. Changes in the expression of key proteins related to ferroptosis in NSCs were detected using Western Blot and immunofluorescence staining. The levels of reactive oxygen species, glutathione and tissue iron were measured using corresponding assay kits. Changes in mitochondrial morphology and membrane potential were observed using transmission electron microscopy and JC-1 fluorescence probe. Locomotor function recovery after SCI in rats was assessed through BBB score, LSS score, CatWalk gait analysis, and electrophysiological testing. The expression of the AMPK pathway was examined using Western Blot. Results Metformin promoted the proliferation and neuronal differentiation of NSCs both in vitro and in vivo. Furthermore, a ferroptosis model of NSCs using erastin treatment was established in vitro, and metformin treatment could reverse the changes in the expression of key ferroptosis-related proteins, increase glutathione synthesis, reduce reactive oxygen species production and improve mitochondrial membrane potential and morphology. Moreover, metformin administration improved locomotor function recovery and histological outcomes following SCI in rats. Notably, all the above beneficial effects of metformin were completely abolished upon addition of compound C, a specific inhibitor of AMP-activated protein kinase (AMPK). Conclusion Metformin, driven by canonical AMPK-dependent regulation, promotes proliferation and neuronal differentiation of endogenous NSCs while inhibiting ferroptosis, thereby facilitating recovery of locomotor function following SCI. Our study further elucidates the protective mechanism of metformin in SCI, providing new mechanistic insights for its candidacy as a therapeutic agent for SCI.

Published

2024

7. Ecological-Based Mining: A Coal–Water–Thermal Collaborative Paradigm in Ecologically Fragile Areas in Western China

Author

Xiaoxiu Liu, Yifan Zeng, Qiang Wu, Shihao Meng, Jiyue Liang, and Zhuping Hou

Subjects

Dual carbon targets, Coal–water–thermal co-mining, Ecologically fragile areas, Mine–water control, Resource utilization, Engineering (General). Civil engineering (General), TA1-2040

Abstract

A substantial reduction in groundwater level, exacerbated by coal mining activities, is intensifying water scarcity in western China’s ecologically fragile coal mining areas. China’s national strategic goal of achieving a carbon peak and carbon neutrality has made eco-friendly mining that prioritizes the protection and efficient use of water resources essential. Based on the resource characteristics of mine water and heat hazards, an intensive coal–water–thermal collaborative co-mining paradigm for the duration of the mining process is proposed. An integrated system for the production, supply, and storage of mining companion resources is achieved through technologies such as roof water inrush prevention and control, hydrothermal quality improvement, and deep-injection geological storage. An active preventive and control system achieved by adjusting the mining technology and a passive system centered on multi-objective drainage and grouting treatment are suggested, in accordance with the original geological characteristics and dynamic process of water inrush. By implementing advanced multi-objective drainage, specifically designed to address the “skylight-type” water inrush mode in the Yulin mining area of Shaanxi Province, a substantial reduction of 50% in water drillings and inflow was achieved, leading to stabilized water conditions that effectively ensure subsequent safe coal mining. An integrated-energy complementary model that incorporates the clean production concept of heat utilization is also proposed. The findings indicate a potential saving of 8419 t of standard coal by using water and air heat as an alternative heating source for the Xiaojihan coalmine, resulting in an impressive energy conservation of 50.2% and a notable 24.2% reduction in carbon emissions. The ultra-deep sustained water injection of 100 m3·h−1 in a single well would not rupture the formation or cause water leakage, and 7.87 × 105 t of mine water could be effectively stored in the Liujiagou Formation, presenting a viable method for mine–water management in the Ordos Basin and providing insights for green and low-carbon mining.

Published

2024

8. Prediction technology of mine water inflow based on entropy weight method and multiple nonlinear regression theory and its application

Author

Bo Li, Huang Wu, Qiang Wu, Yifan Zeng, and Xiaoming Guo

Subjects

Prediction of mine water inflow, Entropy weight model, Nonlinear regression fitting, Multi source factor decision-making, Degree of correlation, Geophysics. Cosmic physics, QC801-809

Abstract

Abstract Mine water inflow is an important basis for the formulation of mining plans and the utilization of groundwater resources. The mine water inflow is the result of the combined influence of many factors. The weight value of the influencing factors is calculated by the entropy method, and the order of importance of the factors is: precipitation > mining depth > cumulative mined-out area > aquifer thickness > mining area > mining height. The optimal univariate nonlinear regression model of mine water inflow to each influencing factor is obtained by factor scatter analysis and Matlab function programming. On this basis, combined with the weight values of factors, a multivariate nonlinear regression prediction model of mine water inflow based on weighting is innovatively established, which overcomes the defect that the traditional water inflow prediction method that cannot reflect the relative importance differences of various influencing factors. The multivariate weighted nonlinear regression model is used to predict the mine water inflow of typical coal mines, and the prediction results are compared with the linear regression model and the measured value. The results show that the prediction model of mine water inflow based on weighted multivariate nonlinear regression is accurate higher, with higher practical application value.

Published

2024

9. Link-area commutators in AdS3 area-networks

Author

Jesse Held, Molly Kaplan, Donald Marolf, and Jie-qiang Wu

Subjects

AdS-CFT Correspondence, Gauge-Gravity Correspondence, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract Random tensor networks (RTNs) have proved to be fruitful tools for modelling the AdS/CFT correspondence. Due to their flat entanglement spectra, when discussing a given boundary region R and its complement R ¯ $$ \overline{R} $$ , standard RTNs are most analogous to fixed-area states of the bulk quantum gravity theory, in which quantum fluctuations have been suppressed for the area of the corresponding HRT surface. However, such RTNs have flat entanglement spectra for all choices of R, R ¯ $$ \overline{R} $$ , while quantum fluctuations of multiple HRT-areas can be suppressed only when the corresponding HRT-area operators mutually commute. We probe the severity of such obstructions in pure AdS3 Einstein-Hilbert gravity by constructing networks whose links are codimension-2 extremal-surfaces and by explicitly computing semiclassical commutators of the associated link-areas. Since d = 3, codimension-2 extremal-surfaces are geodesics, and codimension-2 ‘areas’ are lengths. We find a simple 4-link network defined by an HRT surface and a Chen-Dong-Lewkowycz-Qi constrained HRT surface for which all link-areas commute. However, the algebra generated by the link-areas of more general networks tends to be non-Abelian. One such non-Abelian example is associated with entanglement-wedge cross sections and may be of more general interest.

Published

2024

10. β-catenin mediates endodermal commitment of human ES cells via distinct transactivation functions

Author

Xun Ma, Liujiang Dai, Chunlai Tan, Jiangchuan Li, Xiangjun He, Yaofeng Wang, Junyi Xue, Min Huang, Jianwei Ren, Yin Xia, Qiang Wu, Hui Zhao, Wai-Yee Chan, and Bo Feng

Subjects

Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Abstract Background β-catenin, acting as the core effector of canonical Wnt signaling pathway, plays a pivotal role in controlling lineage commitment and the formation of definitive endoderm (DE) during early embryonic development. Despite extensive studies using various animal and cell models, the β-catenin-centered regulatory mechanisms underlying DE formation remain incompletely understood, partly due to the rapid and complex cell fate transitions during early differentiation. Results In this study, we generated new CTNNB1-/- human ES cells (hESCs) using CRISPR-based insertional gene disruption approach and systematically rescued the DE defect in these cells by introducing various truncated or mutant forms of β-catenin. Our analysis showed that a truncated β-catenin lacking both N- and C-terminal domains (ΔN148C) could robustly rescue the DE formation, whereas hyperactive β-catenin mutants with S33Y mutation or N-terminal deletion (ΔN90) had limited ability to induce DE lineage. Notably, the ΔN148C mutant exhibited significant nuclear translocation that was positively correlated with successful DE rescue. Transcriptomic analysis further uncovered that two weak β-catenin mutants lacking the C-terminal transactivation domain (CTD) activated primitive streak (PS) genes, whereas the hyperactive β-catenin mutants activated mesoderm genes. Conclusion Our study uncovered an unconventional regulatory function of β-catenin through weak transactivation, indicating that the levels of β-catenin activity determine the lineage bifurcation from mesendoderm into endoderm and mesoderm.

Published

2024

11. Correction: The number of polyploid giant cancer cells and epithelial-mesenchymal transitionrelated proteins are associated with invasion and metastasis in human breast cancer

Author

Fei Fei, Dan Zhang, Zhengduo Yang, Shujing Wang, Xian Wang, Zhengsheng Wu, Qiang Wu, and Shiwu Zhang

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2024

12. Research on power grid fault diagnosis method based on multi-source heterogeneous data.

Author

Hongzhong Chen, Qiang Wu, Xiao Yang, Lei Xu, and Xinlian Bu

Published

2024

13. Multimodal Imaging Classification Based on Mixture Model Networks.

Author

Xuan Li, Fuyuan Yu, Jiachen Cui, Ju Liu, and Qiang Wu 0009

Published

2024

14. Confidence-Guided Online Knowledge Distillation for Semi-supervised Medical Image Classification.

Author

Aixi Qu, Qiang Wu 0009, Luyue Yu, and Ju Liu

Published

2024

15. Lung Nodule Detection Based on Spike-Driven Self-Attention YOLO.

Author

Xiaoqing Wei, Yuchao Lv, Hui Wang, Peiyin Yang, Zheng Dong, Ju Liu, and Qiang Wu

Published

2024

16. A Remote FPGA-based Experimental Teaching System Design Supporting Single-board Multi-user and Multi-board Single-user Operations in MOOCs.

Author

Zhixiong Di, Xufeng Wei, Yiduo Chen, Shuanglong Wu, Peihao Sun, and Qiang Wu

Published

2024

17. Higher-Order Graph Convolutional Network with Flower-Petals Laplacians on Simplicial Complexes.

Author

Yiming Huang, Yujie Zeng, Qiang Wu 0010, and Linyuan Lü

Published

2024

18. Hydrogeochemical processes of groundwater system and its mining-motivated effect in mining areas of Western China

Author

Aoshuang MEI, Yifan ZENG, Qiang WU, Zhichao LIU, Yanping MIAO, Sitong WANG, Yashuai CUI, Huaming WEI, Shuaifeng REN, and Lei YANG

Subjects

groundwater hydrochemistry, self-organizing maps (som), entropy-weighted water quality index (ewqi), complex groundwater system in mines, yushen mining area, jurassic coalfield, Geology, QE1-996.5, Mining engineering. Metallurgy, TN1-997

Abstract

The exploitation of coal resources will destroy the aquifer structure, disturb the groundwater system and produce a new water cycle model. As the focus of coal supply and production, the western mining area is short of water resources and fragile in ecology. High-intensity and large-scale mining aggravates this disturbance and makes the hydrochemical process such as water-rock interaction more intense. The coal mining-motivated effect of groundwater system hydrochemistry behind it is a key scientific problem related to the prediction accuracy of coal mine safety mining and the protection of groundwater environment in green mining. In view of this, taking the Caojiatan coal mine in western Yushen mining area as an example, using the principles and methods of hydrogeochemistry, from the perspective of ‘what it is’, ‘why it is’ and ‘how it changes’, the results of mining-motivated effect, the process of mining-motivated effect, and the evolution trend of hydrochemistry are systematically studied. The results show that the groundwater in the study area can be divided into five clusters. Cluster Ⅰ represents the shallow groundwater dominated by Quaternary and weathered bedrock aquifers in the west wing of the mine field after coal mining. Cluster Ⅱ represents the mixing of groundwater before and after mining. Cluster Ⅲ represents the groundwater before mining. Cluster Ⅳ and Cluster Ⅴ mainly represent the groundwater of Yan’an Formation after mining. After coal mining, the proportion of HCO3–Ca and HCO3–Mg in the groundwater samples of the fourth and fifth sections of Zhiluo Formation and Yan’an Formation increased, the shallow groundwater quality after mining in the west wing of the mine field was the best as a whole, and the water quality of each aquifer has a tendency to evolve well and is not sensitive to the response of coal mining. The groundwater in the study area is controlled by the ion exchange, and the groundwater in the fourth and above aquifers of Yan’an Formation before coal mining is controlled by the dissolution of carbonate and silicate rocks. The shallow groundwater in the west wing of the mine field after coal mining is controlled by the dissolution of carbonate rocks. The groundwater in the aquifers of the Zhiluo Formation and the fourth and fifth sections of the Yan’an Formation is mainly controlled by the dissolution of silicate rocks and the oxidation of FeS2. The groundwater in the aquifers of the third and lower sections of the Yan’an Formation is mainly controlled by the dissolution of evaporated salt. Coal mining accelerates the circulation speed of groundwater and the hydraulic connection between aquifers. The resulting dilution effect and the discharge measures after mine water treatment are the reasons for the hydrochemical characteristics and water quality evolution of the aquifers in the fourth section of Yan'an Formation and above. In the future, we should continue to do a good job in the discharge of mine water after treatment, and pay attention to the trend of groundwater characteristics in the fifth section of Zhiluo Formation and Yan’an Formation evolving to shallow groundwater, so as to avoid misjudgment of the results of water inrush sources.

Published

2024

19. Macro-meso mechanical properties of gas hydrate bearing coal under triaxial compression with flexible boundary condition

Author

Xia GAO, Nannan WANG, Cheng QIN, Baoyong ZHANG, Jingyu JIANG, and Qiang WU

Subjects

coal and gas outburst, gas hydrate bearing coal, discrete element, triaxial compression test, confining pressure, flexible boundary, Geology, QE1-996.5, Mining engineering. Metallurgy, TN1-997

Abstract

To explore the influence of confining pressure on the macro-meso mechanical characteristics of gas hydrate bearing coal (GHBC) under different boundary conditions, the biaxial discrete element tests were carried out subjected to the confining pressures of 12，16 and 20 MPa for GHBC with saturation of 80%. Firstly, the biaxial numerical models of GHBC were established for flexible and rigid boundaries, using the linear model of the rolling resistance and the parallel bonding model. These numerical models incorporated the influences of particle shape effect, the hydrate cementation and the heat-shrinkable pipe. Then, the reliability of the numerical model was verified, by comparing with the indoor test results (stress-strain curves, bulk strain curves, internal friction angle cohesion and specimen failure modes). It is found that the flexible boundary can better reflect the deviatoric, stress-axial strain, the shear expansion and the strength characteristics of the sample. Based on the established numerical model, the roles of the confining pressure and the boundary condition on the macro-meso mechanical properties of GHBC were clarified from the perspectives of the internal displacement field, the mean mechanical coordination number, the mean porosity, the contact force chain and the hydrate bond failure. The results show that: ① with the increase of confining pressure, the numerical sample with the rigid boundary mostly exhibits the single inclined plane shear failure, while that with the flexible boundary varies from the single fork shear failure to the single inclined plane shear failure. ② With the increase of confining pressure, for the two boundaries, the mean mechanical coordination numbers increase and the mean porosity decrease, leading to a denser and higher strength of the sample. ③ With the increase of confining pressure, the normal contact force between particles continues to increase, and the sample strength increases. The normal contact force distributed near the axial direction increases, while that near the horizontal direction varies weakly. The higher the confining pressure is, the more difference between the vertical and the horizontal normal contact forces have, the more prominent the anisotropy is. The normal contact force increases by 54.50%, at the flexible boundary, and increases by 45.70%, at the peak strength point, with the confining pressure increasing from 12 MPa to 20 MPa. ④ Under different confining pressures and boundary conditions, the samples fail with two different failure modes, tensile and shear. The samples mainly crack from the shear between the hydrate and coal. The research results reveal the mechanism of the influence of confining pressure on the strength deformation and failure of GHBC on the mesoscale.

Published

2024

20. Psychological distress and uterine fibroids: a bidirectional two-sample mendelian randomization study

Author

Xinyu Han, Tian qiang Wu, Yuanyuan Bian, Lu Chen, and Xiaoling Feng

Subjects

Mendelian randomization, UFs, Major depressive disorder, Mood swings, Anxiety or panic attacks, Causality, Gynecology and obstetrics, RG1-991, Public aspects of medicine, RA1-1270

Abstract

Abstract Background Observational data indicates a connection between emotional discomfort, such as anxiety and depression, and uterine fibroids (UFs). However, additional investigation is required to establish the causal relationship between them. Hence, we assessed the reciprocal causality between four psychological disorders and UFs utilizing two-sample Mendelian randomization (MR). Methods To evaluate the causal relationship between four types of psychological distress (depressive symptoms, severe depression, anxiety or panic attacks, mood swings) and UFs, bidirectional two-sample MR was employed, utilizing single nucleotide polymorphisms (SNPs) associated with these conditions. Both univariate MR (UVMR) and multivariate MR (MVMR) primarily applied inverse variance weighted (IVW) as the method for estimating potential causal effects. Complementary approaches such as MR Egger, weighted median, simple mode, and weighted mode were utilized to validate the findings. To assess the robustness of our MR results, we conducted sensitivity analyses using Cochran’s Q-test and the MR Egger intercept test. Results The results of our UVMR analysis suggest that genetic predispositions to depressive symptoms (Odds Ratio [OR] = 1.563, 95% Confidence Interval [CI] = 1.209–2.021, P = 0.001) and major depressive disorder (MDD) (OR = 1.176, 95% CI = 1.044–1.324, P = 0.007) are associated with an increased risk of UFs. Moreover, the IVW model showed a nominally significant positive correlation between mood swings (OR: 1.578; 95% CI: 1.062–2.345; P = 0.024) and UFs risk. However, our analysis did not establish a causal relationship between UFs and the four types of psychological distress. Even after adjusting for confounders like body mass index (BMI), smoking, alcohol consumption, and number of live births in the MVMR, the causal link between MDD and UFs remained significant (OR = 1.217, 95% CI = 1.039–1.425, P = 0.015). Conclusions Our study presents evidence supporting the causal relationship between genetic susceptibility to MDD and the incidence of UFs. These findings highlight the significance of addressing psychological health issues, particularly depression, in both the prevention and treatment of UFs.

Published

2024

21. Research on the Critical Moisture Content of Frost Heaving in Gas-Containing Coal

Author

Pengwu Han, Zhaofeng Wang, Xingying Ma, Kainian Wang, and Qiang Wu

Subjects

Chemistry, QD1-999

Published

2024

22. Intrinsically stretchable organic photovoltaics by redistributing strain to PEDOT:PSS with enhanced stretchability and interfacial adhesion

Author

Jiachen Wang, Yuto Ochiai, Niannian Wu, Kiyohiro Adachi, Daishi Inoue, Daisuke Hashizume, Desheng Kong, Naoji Matsuhisa, Tomoyuki Yokota, Qiang Wu, Wei Ma, Lulu Sun, Sixing Xiong, Baocai Du, Wenqing Wang, Chih-Jen Shih, Keisuke Tajima, Takuzo Aida, Kenjiro Fukuda, and Takao Someya

Subjects

Science

Abstract

Abstract Intrinsically stretchable organic photovoltaics have emerged as a prominent candidate for the next-generation wearable power generators regarding their structural design flexibility, omnidirectional stretchability, and in-plane deformability. However, formulating strategies to fabricate intrinsically stretchable organic photovoltaics that exhibit mechanical robustness under both repetitive strain cycles and high tensile strains remains challenging. Herein, we demonstrate high-performance intrinsically stretchable organic photovoltaics with an initial power conversion efficiency of 14.2%, exceptional stretchability (80% of the initial power conversion efficiency maintained at 52% tensile strain), and cyclic mechanical durability (95% of the initial power conversion efficiency retained after 100 strain cycles at 10%). The stretchability is primarily realised by delocalising and redistributing the strain in the active layer to a highly stretchable PEDOT:PSS electrode developed with a straightforward incorporation of ION E, which simultaneously enhances the stretchability of PEDOT:PSS itself and meanwhile reinforces the interfacial adhesion with the polyurethane substrate. Both enhancements are pivotal factors ensuring the excellent mechanical durability of the PEDOT:PSS electrode, which further effectively delays the crack initiation and propagation in the top active layer, and enables the limited performance degradation under high tensile strains and repetitive strain cycles.

Published

2024

23. YOD1 protects against MRSA sepsis-induced DIC through Lys33-linked deubiquitination of NLRP3

Author

Chang Liu, Caihong Fan, Jia Liu, Shiqi Zhang, Huixin Tang, Yashan Liu, Shengzheng Zhang, Qiang Wu, Jiandong Zhang, Zhi Qi, and Yanna Shen

Subjects

Cytology, QH573-671

Abstract

Abstract Disseminated intravascular coagulation (DIC) is considered to be the most common and lethal complication of sepsis. NLR-family pyrin domain-containing-3 (NLRP3) inflammasome plays an important role in host defense against microbial pathogens, and its deregulation may cause coagulation cascade and should be strictly managed. Here, we identified the deubiquitinase YOD1, which played a vital role in regulating coagulation in a NLRP3 inflammasome-dependent manner in sepsis induced by methicillin-resistant Staphylococcus aureus (MRSA). YOD1 interacted with NLRP3 to remove K33-linked ubiquitination of NLRP3 based on its deubiquitinating enzyme activity and specifically inhibited expression of NLRP3 as well as activation of NLRP3 inflammasome. Deficiency of YOD1 expression enhanced NLRP3 inflammasome activation and coagulation both in vitro and in vivo. In addition, pharmacological inhibition of the NLRP3 effectively improved coagulation and alleviated organ injury in Yod1 −/− mice infected with MRSA. Thus, our study reported that YOD1 is a key regulator of coagulation during MRSA infection, and provided YOD1 as a potential therapeutic target for the treatment of NLRP3 inflammasome-related diseases, especially MRSA sepsis-induced DIC.

Published

2024

24. An observable in Classical Pure AdS3 Gravity: the twist along a geodesic

Author

Xiao-Shuai Wang and Jie-qiang Wu

Subjects

AdS-CFT Correspondence, Space-Time Symmetries, Classical Theories of Gravity, Models of Quantum Gravity, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract In this paper, we consider a little-studied observable in classical pure AdS3 gravity: the twist along a geodesic. The motivation is that the twist only supports on the geodesic so may be a candidate element in the center of the algebra in either entanglement wedge associated to the geodesic. We study the properties of the twist and get the following results. First, we get the system’s evolution generated by the twist, which exhibits a relative shift along the geodesic. Second, we show that the twist commutes with the length of the same geodesic, which supports the proposal that the twist is a candidate element in the center.

Published

2024

25. Strain and permeability of gas hydrate bearing coal under loading and unloading condition

Author

Baoyong ZHANG, Guojian ZHAO, Xia GAO, and Qiang WU

Subjects

coal and gas outburst, gas hydrate bearing coal, loading-unloading condition, strain, permeability, Geology, QE1-996.5, Mining engineering. Metallurgy, TN1-997

Abstract

In order to explore the effect of hydrate formation and loading-unloading condition on the strain and permeability of gas hydrate bearing coal, the authors first measured the permeability of coal before and after gas hydrate formation, by using the triaxial testing machine for coupling action of stress, seepage, and chemical effect, as well as measured the strain and permeability of coal (three particle sizes: 0.425−0.850 mm (20−40 mesh), 0.250−0.425 mm (40−60 mesh), 0.180−0.250 mm (60−80 mesh) and three saturations: 40%, 60%, 80%) under the axial loading and confining unloading conditions. Then, the stress-strain curve was used to determine the deformation characteristic of coal during under loading and unloading conditions, the effect of hydrate formation, hydrate saturation and deviator stress on the coal permeability, the extend of coal permeability and volume expansion effect were quantitatively characterized by permeability loss rate formula and deformation angle formula. Furthermore, the influence mechanism of hydrate distribution mode was preliminarily discussed on the coal permeability with the theoretical permeability models. The results show that ① the influence of saturation on the variation law of coal permeability is more complicated. In general, with the increase of hydrate saturation, the greater the percentage of permeability reduction, the more significant the degree of blockage. The coal permeability obviously reduces after the formation of gas hydrate, with the range of reductions being 58.3%−83.3% (20−40 mesh), 61.5%−95.0% (40−60 mesh) and 81.8%−90.9% (60−80 mesh). The coal permeability decreases with the increase of hydrate saturation with a reduction between 55.6% and 86.1%. ② The axial strains of the coal exhibit three-stage process, including stability increasing, slowly increasing, and rapidly increasing with the increase of time. There is a certain correlation between the permeability and the strain of coal, and the permeability varies with the increase of deviator stress, in terms of quadratically increasing, decreasing and first increasing and then decreasing, the quadratic function can better predict the permeability variation law of gas hydrate bearing coal under mining stress disturbance. ③ Introducing the permeability loss rate, the permeability loss rate increases with the increase of the deviator stress applied on the coal under the condition of the same hydrate saturation. ④ Introducing the expansion deformation angle, the coal expansion deformation angle decreases from 19.0°−63.9° to 0.2°−38.2° with the increase of hydrate saturation under the condition of the same deviator stress, which indicates that the lower the hydrate saturation, the more significant effect of the coal expansion.

Published

2024

26. Disaster-causing mechanism and prevention and control path of different types of coal seam roof water disasters in China

Author

Yifan ZENG, Huicong ZHU, Qiang WU, Hao WANG, Xiaoming GUO, Fangpeng CUI, Zhenzhong PANG, Shouqiang LIU, and Weihong YANG

Subjects

roof water damage, mine water prevention and control, bed separation water inrush, disaster-causing mechanism, prevention and control technology, Geology, QE1-996.5, Mining engineering. Metallurgy, TN1-997

Abstract

China is the country with the most complicated coal-forming and occurrence conditions in the world. The roof water disaster, caused by the diversity and complexity of the hydrogeological conditions of the coal seam roof, the mutuality and time-varying coupling of the mining overburden fracture field and the seepage field, and the uniqueness and harmfulness of the coal mine roof water inrush, is one of the main mine disasters in China, especially in the western coal mining area. In order to better understand the roof water disaster, promote the existing technology and explore new technologies to prevent and control such mine disasters, based on the comprehensive analysis of the law of roof water disaster accidents in China’s coal mines in recent years and the occurrence conditions, water inrush mode, dynamic characteristics and mechanical behavior of roof water-filled aquifers, the types and characteristics of roof water disasters are systematically divided. The disaster mechanism of the main categories and the existing prevention and control technologies of roof water disasters are reviewed, and the future development direction of roof water disaster prevention and control is prospected. The study found that: ① The main structure of roof water disaster includes five types: gushing (leaching) water in thick bedrock aquifer, water-sand coupling inrush in weak cementation layer of thin bedrock, water storage and energy storage water inrush in abscission layer space, skylight recharge water inrush, and surrounding rock burning and permeability enhancement. They are concentrated in the north of the Qinling Mountains-Huaihe River. Shaanxi, Inner Mongolia and Ningxia are the main gathering places of roof water disasters. ② Mining-induced “Z” -type separation space is developed in the primary fractures of overlying strata under the super-thick bedrock aquifer, resulting in a large area of water gushing (leaching) in the stope. The fracture conditions of composite key strata are established, and the power source of water-sand coupling inrush disaster in weak cemented layer of thin bedrock is clarified. The critical criterion for assessing the instability of water inrush from bed separation is constructed, and the water inrush from bed separation is divided into three modes: static load disturbance, “dynamic+static” load composite disturbance and repeated disturbance of composite coal seam mining. The lack of laterite aquiclude and the mining-induced deterioration damage in the weak area of laterite are the main causes of skylight leakage recharge. The surrounding rock is burnt to increase permeability and porosity, and a new water-bearing structure is formed after receiving water supplement from adjacent water sources. Under the induction of mining, burnt rock water pours into stope and causes water disaster accidents. ③ The current prevention and control technology system of coal mine roof water disaster “exploration-discharge-treatment” is evaluated, and the future development direction is put forward, such as the conjugate linkage of upper and lower wells, the drilling-mining (excavation) high-level collaborative geological exploration system, the geological guarantee work guided by the “three zones” division of water prevention and control, the green mining and water prevention concept of “coal-water-ecology” multi-objective co-management, and the digital intelligence and transparent mine hydrogeological disaster information maintenance system.

Published

2024

27. Single-cell insights: pioneering an integrated atlas of chromatin accessibility and transcriptomic landscapes in diabetic cardiomyopathy

Author

Qiang Su, Wanzhong Huang, Yuan Huang, Rixin Dai, Chen Chang, Qiu-Yan Li, Hao Liu, Zhenhao Li, Yuxiang Zhao, Qiang Wu, and Di-Guang Pan

Subjects

DCM, scRNA-seq, scATAC-seq, Cardiomyocytes, Fibroblasts, Endothelial, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Background Diabetic cardiomyopathy (DCM) poses a growing health threat, elevating heart failure risk in diabetic individuals. Understanding DCM is crucial, with fibroblasts and endothelial cells playing pivotal roles in driving myocardial fibrosis and contributing to cardiac dysfunction. Advances in Multimodal single-cell profiling, such as scRNA-seq and scATAC-seq, provide deeper insights into DCM’s unique cell states and molecular landscape for targeted therapeutic interventions. Methods Single-cell RNA and ATAC data from 10x Multiome libraries were processed using Cell Ranger ARC v2.0.1. Gene expression and ATAC data underwent Seurat and Signac filtration. Differential gene expression and accessible chromatin regions were identified. Transcription factor activity was estimated with chromVAR, and Cis-coaccessibility networks were calculated using Cicero. Coaccessibility connections were compared to the GeneHancer database. Gene Ontology analysis, biological process scoring, cell-cell communication analysis, and gene-motif correlation was performed to reveal intricate molecular changes. Immunofluorescent staining utilized various antibodies on paraffin-embedded tissues to verify the findings. Results This study integrated scRNA-seq and scATAC-seq data obtained from hearts of WT and DCM mice, elucidating molecular changes at the single-cell level throughout the diabetic cardiomyopathy progression. Robust and accurate clustering analysis of the integrated data revealed altered cell proportions, showcasing decreased endothelial cells and macrophages, coupled with increased fibroblasts and myocardial cells in the DCM group, indicating enhanced fibrosis and endothelial damage. Chromatin accessibility analysis unveiled unique patterns in cell types, with heightened transcriptional activity in myocardial cells. Subpopulation analysis highlighted distinct changes in cardiomyocytes and fibroblasts, emphasizing pathways related to fatty acid metabolism and cardiac contraction. Fibroblast-centered communication analysis identified interactions with endothelial cells, implicating VEGF receptors. Endothelial cell subpopulations exhibited altered gene expressions, emphasizing contraction and growth-related pathways. Candidate regulators, including Tcf21, Arnt, Stat5a, and Stat5b, were identified, suggesting their pivotal roles in DCM development. Immunofluorescence staining validated marker genes of cell subpopulations, confirming PDK4, PPARγ and Tpm1 as markers for metabolic pattern-altered cardiomyocytes, activated fibroblasts and endothelial cells with compromised proliferation. Conclusion Our integrated scRNA-seq and scATAC-seq analysis unveils intricate cell states and molecular alterations in diabetic cardiomyopathy. Identified cell type-specific changes, transcription factors, and marker genes offer valuable insights. The study sheds light on potential therapeutic targets for DCM.

Published

2024

28. POLE2 promotes osteosarcoma progression by enhancing the stability of CD44

Author

Baichuan Wang, Hongzhi Hu, Xiaohui Wang, Zengwu Shao, Deyao Shi, Fashuai Wu, Jianxiang Liu, Zhicai Zhang, Juan Li, Zhidao Xia, Weijian Liu, and Qiang Wu

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Abstract Osteosarcoma (OS) is the most prevalent primary malignancy of bone in children and adolescents. It is extremely urgent to develop a new therapy for OS. In this study, the GSE14359 chip from the GEO database was used to screen differentially expressed genes in OS. DNA polymerase epsilon 2 (POLE2) was confirmed to overexpress in OS tissues and cell lines by immunohistochemical staining, qPCR and Western blot. Knockdown of POLE2 inhibited the proliferation and migration of OS cells in vitro, as well as the growth of tumors in vivo, while the apoptosis rate was increased. Bioinformatics analysis revealed that CD44 and Rac signaling pathway were the downstream molecule and pathway of POLE2, which were inhibited by knockdown of POLE2. POLE2 reduced the ubiquitination degradation of CD44 by acting on MDM2. Moreover, knockdown of CD44 inhibited the tumor-promoting effects of POLE2 overexpression on OS cells. In conclusion, POLE2 augmented the expression of CD44 via inhibiting MDM2-mediated ubiquitination, and then activated Rac signaling pathway to influence the progression of OS, indicating that POLE2/CD44 might be potential targets for OS treatment.

Published

2024

29. Spatial–temporal evolution analysis of multi-scenario land use and carbon storage based on PLUS-InVEST model: A case study in Dalian, China

Author

Qiang Wu, Li Wang, Tianyi Wang, Ziyun Ruan, and Peng Du

Subjects

Land use type, Carbon storage, InVEST model, PLUS model, Dalian City, Ecology, QH540-549.5

Abstract

Carbon storage in terrestrial ecosystems varies with land use changes, and exploring the impact of land use changes on carbon storage in regional terrestrial ecosystems is important for maintaining regional carbon balance. Data on Dalian City’s land use types from 2000 to 2020 are used in this research, to evaluate the spatio-temporal evolution of carbon storage in Dalian. Furthermore, with the scenarios of urban development, natural development, cultivated land protection, and ecological protection in 2030, this study combines the PLUS and InVEST models to emulate the dynamic adjustment at land-use types and the spatio-temporal evolution regarding carbon storage in Dalian City. The investigation shows that: 1) The carbon storage of terrestrial ecosystem in Dalian has been altered as a consequence of changes in land use, and now it shows a general decline during 2000–2020, with reductions amounting to 5.39 × 106 t. 2) From 2000 through 2020, Dalian’s land resources that are utilized for farming, forestry, and grassland decreased to different degrees. The total construction land area increased by 796.47 km2, or 6.38 %, whereas there has been no substantial improvement in water or unused land. 3) The carbon storage reduction in 2030 in comparison to 2020 for the natural development, cultivated land protection, and urban development scenarios, among which the urban development scenario was the largest, was 1.36 × 106t. It suggests that the rapid rate of urbanization and expansion of construction land is an important cause of the decline in carbon storage. 4) The cultivated land protection scenario (CPS) yields the smallest reduction of 6.50 × 105t. The structure of Dalian’s land use type is optimum under the ecological protection scenario (EPS), as seen by the 3.90 × 105t increase in carbon storage under this scenario. It speeds up the rate of recovery of carbon storage and improves the function of carbon sinks in urban terrestrial ecosystems. Hoping to provide the reference to decision makers for ecosystem carbon storage optimization from the view of land use, which is vital for making future land use policies and realizing the “dual carbon” strategic goal.

Published

2024

30. NRBP1 promotes malignant phenotypes of glioblastoma by regulating PI3K/Akt activation

Author

Anli Zhang, Shichao Peng, Sibai Sun, Shan Ye, Ye Zhao, and Qiang Wu

Subjects

epithelial‐mesenchymal transition, glioblastoma, nuclear receptor‐binding protein 1, PI3K/Akt signaling pathway, pseudokinase, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Objectives Glioblastoma (GBM) is the most aggressive of intracranial gliomas. Despite the maximal treatment intervention, the median survival rate is still about 14–16 months. Nuclear receptor‐binding protein 1 (NRBP1) has a potential growth‐promoting role on biology function of cells. In this study, we investigated whether NRBP1 promotes GBM malignant phenotypes and the potential mechanisms. Methods The correlation between NRBP1 and glioma grade, prognosis in TCGA/CGGA databases and our clinical data were analyzed. Next, we conducted knockout and overexpression of NRBP1 on GBM cells to verify that NRBP1 promoted cell proliferation, invasion, and migration in vitro and in vivo. Finally, we detected the impact of NRBP1 on PI3K/Akt signaling pathway and EMT. Results There was a correlation between elevated NRBP1 expression and advanced stage glioma, as well as decreased overall and disease‐free survival. The suppression of proliferation, invasion, and migration of tumor cells was observed upon NRBP1 knockout, and in vitro studies also demonstrated the induction of apoptotic cell death. Whereas, its overexpression is associated with high multiplication rate, migration, invasion, and apoptotic escape. GO enrichment and KEGG analysis revealed that NRBP1 regulated differentially expressed gene clusters are involved in PI3K/Akt signaling pathway, as well as EMT mediated by this pathway. Moreover, the effects of NRBP1 knockdown and overexpression on GBM were mitigated by MK‐2206 and SC79, both of which respectively function as an inhibitor and an activator of the PI3K/Akt signaling pathway. Similarly, the suppression of NRBP1 led to a decrease in tumor growth, whereas its overexpression promoted tumor growth in a mouse model. Conclusions This study shows that NRBP1 promotes malignant phenotypes in GBM by activating PI3K/Akt pathway. Hence, it can function as both a predictive indicator and a new target for therapies in GBM treatment.

Published

2024

31. Exploring the molecular and immune landscape of cellular senescence in lung adenocarcinoma

Author

Kun Ru, Liang Cui, Cong Wu, Xin X. Tan, Wen T. An, Qiang Wu, Yu T. Ma, Yu Hao, Xiao Xiao, Jing Bai, Xiang Liu, Xue F. Xia, and Miao Q. Zhao

Subjects

cellular senescence, lung adenocarcinoma, tumor microenvironment, heterogeneity, machine learning, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionThe connection between aging and cancer is complex. Previous research has highlighted the association between the aging process of lung adenocarcinoma (LUAD) cells and the immune response, yet there remains a gap in confirming this through single-cell data validation. Here, we aim to develop a novel aging-related prognostic model for LUAD, and verify the alterations in the genome and immune microenvironment linked to cellular senescence.MethodsWe integrated a comprehensive collection of senescence genes from the GenAge and CellAge databases and employed the least absolute shrinkage and selection operator (LASSO) Cox analysis to construct and validate a novel prognostic model for LUAD. This model was then utilized to examine the relationship between aging, tumor somatic mutations, and immune cell infiltration. Additionally, we explored the heterogeneity of senescence and intercellular communication within the LUAD tumor microenvironment (TME) through single-cell transcriptomic data analysis.ResultsBy exploring the expression profiles of 586 cellular senescence-related genes in 428 LUAD patients, we constructed an aging-related genes (ARGs) risk model included 10 ARGs and validated it as an independent prognostic predictor for LUAD patients. Notably, patients with low aging scores (LAS group) exhibited better survival, lower tumor mutation burden (TMB), lower somatic mutation frequency, lower tumor proliferation rate, and an immune activated phenotype compared to patients with high aging scores (HAS group). While the HAS group was enriched in tumor cells and showed a lower infiltration of CD8-CCR7, CD8- CXCL13, CD8-GNLY, FCGR3A NK cells, XCL1 NK cells, plasma cell (PC) and other immune subsets. Furthermore, the SPP1 and TENASCIN pathways, associated with tumor immune escape and tumor progression, were also enriched in the HAS group. Additionally, our study also indicated that senescence levels were heterogeneous in the LUAD tumor microenvironment (TME), especially with tumor cells in the LAS group showing higher age scores compared to those in the HAS group.ConclusionsCollectively, our findings underscore that ARRS through ARGs serves as a robust biomarker for the prognosis in LUAD.

Published

2024

32. Do financial inclusion and bank competition matter for banks’ stability in Asia?

Author

Wanying Song, Mian Gohar Rahman Zafar, Muhammad Amir Alvi, Qiang Wu, and Maqsood Ahmad

Subjects

bank stability, financial inclusion, bank competition, and GMM, Economic growth, development, planning, HD72-88, Business, HF5001-6182

Abstract

This study investigates the effect of financial inclusion (FI), considering micro and macro indicators as well as micro- and macro-FI separately, on the stability of Asian banks and examines the moderating effect of bank competition (BC) on this relationship. Using data from 2011 to 2021, this study examines the relationship between FI, BC, and bank stability (BS). The hypotheses were tested using a “two-step system-GMM framework”. The findings were also authenticated using the panel OLS approach. The results indicate that FI (considering micro- and macro-indicators) and micro- and macroFI have significant positive effects on the stability of Asian banks. However, the impact of micro-FI is greater than that of macro-FI on the BS in Asia. Furthermore, the results manifest that BC has a significant positive impact on BS and positively moderates the relationship between micro-FI and BS, whereas it negatively moderates the relationship between macro-FI and BS. The findings of this study have practical implications for regulators, bankers, and policymakers involved in formulating strategies to enhance Asian banks’ stability.

Published

2024

33. Autophagy-enabled protein degradation: Key to platelet activation and ANGII production in patients with type 2 diabetes mellitus

Author

Qiang Wu, Siwen Yu, Shufei Zang, Kangkang Peng, and Zhicheng Wang

Subjects

Angiotensinogen, Autophagy, Lysosome, Platelet, Thrombosis, Type 2 diabetes mellitus (T2DM), Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Background: Type 2 diabetes mellitus (T2DM) presents a thrombotic environment, contributing to diabetic macroangiopathy and microangiopathy. In this study, the regulation of microthrombosis in T2DM was assessed. Methods: Platelets from T2DM patients and healthy controls were analyzed using 4D label-free proteomics and bioinformatics. The role of autophagy in T2DM platelet activation and conversion of platelet-derived angiotensinogen (AGT) was investigated. Results: The results showed that complement and coagulation cascades, platelet activation, metabolic pathways, endocytosis, autophagy, and other protein digestion-related pathways were enriched. The levels of the key protein AGT were increased in T2DM platelets. Chloroquine (CQ) inhibited ADP- or arachidonic acid (AA)-stimulated platelet aggregation and granule release in a dose-dependent manner, while the effects were less pronounced or even reversed for the proteasome inhibitor PYR-41 and the endocytosis inhibitor Pitstop 2. This indicated the dependence of platelet activation and the accompanying protein digestion on the autophagy-lysosome pathway. Mitophagy occurred in fresh T2DM platelets and ADP- or storage-stimulated platelets; mitophagy was inhibited by CQ. However, the mitophagy inhibitor Mdivi-1 failed to show effects similar to those of CQ. AGT, which could be transformed into ANGII in vitro by ADP-stimulated platelets, was upregulated in T2DM platelets and in MEG-01 cell-derived platelets cultured in a high-glucose medium. Finally, microthrombosis was alleviated as indicated by a reduction in the levels of red blood cells in the liver, spleen, heart, and kidney tissues of db/db mice treated with CQ or valsartan. Conclusion: In platelets, macroautophagy promotes protein digestion, subsequently facilitating platelet activation, ANGII-mediated vasoconstriction, and microthrombosis. Our results suggested that lysosome is a promising therapeutic target for antithrombotic treatment in T2DM.

Published

2024

34. The median effective concentration of epidural ropivacaine with different doses of dexmedetomidine for motor blockade: an up-down sequential allocation study

Author

Ji-Xiang Wan, Chao Lin, Zhi-Qiang Wu, Duan Feng, Yuan Wang, and Fang-Jun Wang

Subjects

dexmedetomidine, epidural, median effective concentration, motor blockade, ropivacaine, Medicine (General), R5-920

Abstract

Study objectiveRecent studies have shown that dexmedetomidine can be safely used in peripheral nerve blocks and spinal anesthesia. Epidural administration of dexmedetomidine produces analgesia and sedation, prolongs motor and sensory block time, extends postoperative analgesia, and reduces the need for rescue analgesia. This investigation seeks to identify the median effective concentration (EC50) of ropivacaine for epidural motor blockade, and assess how incorporating varying doses of dexmedetomidine impacts this EC50 value.DesignProspective, double-blind, up-down sequential allocation study.SettingOperating room, post-anesthesia care unit, and general ward.InterventionsOne hundred and fifty patients were allocated into five groups in a randomized, double-blinded manner as follows: NR (normal saline combined with ropivacaine) group, RD0.25 (0.25 μg/kg dexmedetomidine combined with ropivacaine) group, RD0.5 (0.5 μg/kg dexmedetomidine combined with ropivacaine) group, RD0.75 (0.75 μg/kg dexmedetomidine combined with ropivacaine) group, RD1.0 (1.0 μg/kg dexmedetomidine combined with ropivacaine) group. The concentration of epidural ropivacaine for the first patient in each group was 0.5%. Following administration, the patients were immediately placed in a supine position for observation, and the lower limb motor block was assessed every 5 min using the modified Bromage score within 30 min after drug administration. According to the sequential method, the concentration of ropivacaine in the next patient was adjusted according to the reaction of the previous patient: effective motor block was defined as the modified Bromage score > 0 within 30 min after epidural administration. If the modified Bromage score of the previous patient was >0 within 30 min after drug administration, the concentration of ropivacaine in the next patient was decreased by 1 gradient. Conversely, if the score did not exceed 0, the concentration of ropivacaine in the next patient was increased by 1 gradient. The up-down sequential allocation method and probit regression were used to calculate the EC50 of epidural ropivacaine.MeasurementsAdverse events, hemodynamic changes, demographic data and clinical characteristics.Main resultsThe EC50 of epidural ropivacaine required to achieve motor block was 0.677% (95% CI, 0.622–0.743%) in the NR group, 0.624% (95% CI, 0.550–0.728%) in the RD0.25 group, 0.549% (95% CI, 0.456–0.660%) in the RD0.5 group, 0.463% (95% CI, 0.408–0.527%) in the RD0.75 group, and 0.435% (95% CI, 0.390–0.447%) in the RD1.0 group. The EC50 of the NR group and the RD0.25 group were significantly higher than that of the RD0.75 and the RD1.0 groups, and the EC50 of the RD0.5 group was significantly higher than that of the RD1.0 group.ConclusionThe EC50 of epidural ropivacaine required to achieve motor block was 0.677% in the NR group, 0.624% in the RD0.25 group, 0.549% in the RD0.5 group, 0.463% in the RD0.75 group, and 0.435% in the RD1.0 group. Dexmedetomidine as an adjuvant for ropivacaine dose-dependently reduce the EC50 of epidural ropivacaine for motor block and shorten the onset time of epidural ropivacaine block. The optimal dose of dexmedetomidine combined with ropivacaine for epidural anesthesia was 0.5 μg/kg.

Published

2024

35. Schistosoma japonicum cystatin alleviates paraquat poisoning caused acute lung injury in mice through activating regulatory macrophages

Author

Yuzhi Wu, Hongyu Gao, Haidong Yu, Xiaoli Wang, Huihui Li, Qiwang Jin, Xinguang Zhu, Qianqian Li, Nuocheng Kong, Yifan Tang, Shuo Han, Xinlong Xu, Bin Zhan, Fang Li, Xiaodi Yang, and Qiang Wu

Subjects

Paraquat, Acute lung injury, Cysteine protease inhibitor, Schistosoma japonicum, Macrophage, Immunomodulation, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Background: Paraquat (PQ) is a widely used herbicide that poisons human by accident or intentional ingestion. PQ poisoning causes systemic inflammatory response syndrome (SIRS) resulting in acute lung injury (ALI) with an extremely high mortality rate. Blood trematode Schistosoma japonicum-produced cystatin (Sj-Cys) is a strong immunomodulatory protein that has been experimentally used to treat inflammation related diseases. In this study, Sj-Cys recombinant protein (rSj-Cys) was used to treat PQ-induced lung injury and the immunological mechanism underlying the therapeutic effect was investigated. Methods: PQ-induced acute lung injury mouse model was established by intraperitoneally injection of 20 mg/kg of paraquat. The poisoned mice were treated with rSj-Cys and the survival rate was observed up to 7 days compared with the group without treatment. The pathological changes of PQ-induced lung injury were observed by examining the histochemical sections of affected lung tissue and the wet to dry ratio of lung as a parameter for inflammation and edema. The levels of the inflammation related cytokines IL-6 and TNF-α and regulatory cytokines IL-10 and TGF-β were measured in sera and in affected lung tissue using ELISA and their mRNA levels in lung tissue using RT-PCR. The macrophages expressing iNOS were determined as M1 and those expressing Arg-1 as M2 macrophages. The effect of rSj-Cys on the transformation of inflammatory M1 to regulatory M2 macrophages was measured in affected lung tissue in vivo (EKISA and RT-PCR) and in MH-S cell line in vitro (flow cytometry). The expression levels of TLR2 and MyD88 in affected lung tissue were also measured to determine their role in the therapy of rSj-Cys on PQ-induced lung injury. Result: We identified that treatment with rSj-Cys significantly improved the survival rate of mice with PQ-induced lung injury from 30 % (untreated) to 80 %, reduced the pathological damage of poisoning lung tissue, associated with significantly reduced levels of proinflammatory cytokines (IL-6 from 1490 to 590 pg/ml, TNF-α from 260 to 150 pg/ml) and increased regulatory cytokines (IL-10 from360 to 550 pg/ml, and TGF-β from 220 to 410 pg/ml) in both sera (proteins) and affected lung tissue (proteins and mRNAs). The polarization of macrophages from M1to M2 type was found to be involved in the therapeutic effect of rSj-Cys on the PQ-induced acute lung injury, possibly through inhibiting TLR2/MyD88 signaling pathway. Conclusions: Our study demonstrated the therapeutic effect of rSj-Cys on PQ poisoning caused acute lung injury by inducing M2 macrophage polarization through inhibiting TLR2/MyD88 signaling pathway. The finding in this study provides an alternative approach for the treatment of PQ poisoning and other inflammatory diseases.

Published

2024

36. Experimental and numerical investigation on the thermal performance of recycled aggregate concrete

Author

Libing Jin, Yuhang Wang, Qiang Wu, Peng Liu, Zhenqing Wang, and Haiyan Liu

Subjects

Recycled aggregate concrete, Thermal conductivity, Six-phase mesoscale model, Numerical simulation, Interface transition zone, Engineering (General). Civil engineering (General), TA1-2040

Abstract

As a green building material, recycled aggregate concrete (RAC) can reduce construction solid waste and carbon emissions. In this paper, a combination of macroscale physical experiments of thermal performance and mesoscale numerical simulations of heat transfer were used to investigate the thermal conductivity (TC) of RAC. Firstly, the TC of RAC was measured using the steady-state method. Secondly, the mesoscale numerical analysis method of steady-state heat transfer of RAC was established by self-programming. Finally, by comparing with experimental results, the validity of the mesoscale numerical analysis method in this paper is verified. The results indicates that the TC of RAC is positively correlated with the recycled coarse aggregate dosage and the TC of each component, while it is negatively correlated with the water-binder ratio, the recycled fine aggregate replacement ratio, the old mortar adhesion ratio, the interface transition zone thickness, and the porosity. The six-phase mesoscale model of random convex polygonal aggregate for RAC constructed in this paper can effectively predict the TC of RAC, which provides a new idea for analyzing the TC of RAC.

Published

2024

37. High-sensitivity narrow‑band T-shaped cantilever Fabry-perot acoustic sensor for photoacoustic spectroscopy

Author

Jilong Wang, Qiaoyun Wang, Chongyue Yan, Shunyuan Xu, Xin Zou, Qiang Wu, Wai Pang Ng, Richard Binns, and Yong-Qing Fu

Subjects

Fiber-optic acoustic sensor, Fabry-Perot sensor, T-shaped cantilever, Photoacoustic spectroscopy, Acetylene detection, Physics, QC1-999, Acoustics. Sound, QC221-246, Optics. Light, QC350-467

Abstract

Photoacoustic spectroscopy (PAS) has been rapidly developed and applied to different detection scenarios. The acoustic pressure detection is an important part in the PAS system. In this paper, an ultrahigh sensitivity Fabry-Perot acoustic sensor with a T-shaped cantilever was proposed. To achieve the best acoustic pressure effect, the dimension of the cantilever structure was designed and optimized by finite element analysis using COMSOL Multiphysics. Simulation results showed that the sensitivity of such T-shaped cantilever was 1.5 times higher than that based on a rectangular cantilever, and the resonance frequency of T-shaped cantilever were able to modulate from 800 Hz to 1500 Hz by adjusting the multi-parameter characteristics. Experimental sensing results showed that the resonance frequency of T-shaped Fabry-Perot acoustic sensor was 1080 Hz, yielding a high sensitivity of 1.428 μm/Pa, with a signal-to-noise ratio (SNR) of 84.8 dB and a detectable pressure limit of 1.9 μPa/Hz1/2@1 kHz. We successfully used such acoustic sensor to measure acetylene (C2H2) concentration in the PAS. The sensitivity of PAS for C2H2 gas was 3.22 pm/ppm with a concentration range of 50 ppm ∼100 ppm, and the minimum detection limit was 24.91ppb.

Published

2024

38. Human–wildlife conflict patterns and hotspot prediction in the southern foothills of the Daba Mountains, China

Author

Qiang Wu, Yunchuan Dai, and Qiaoyun Sun

Subjects

human–wildlife conflicts, HWC hotspots, crops protection, mitigation strategies, maxent, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

The Daba Mountain area is recognized as one of the global biodiversity hotspots. In recent years, human–wildlife conflicts (HWCs) in this region have intensified significantly. Understanding and mitigating the damage caused by wildlife is crucial for maintaining ecological balance and enhancing public welfare. We analyzed the current status of HWCs in the southern foothills of the Daba Mountains through semi-structured interviews and field surveys. Additionally, using the collected data on HWC occurrences, we predicted HWC hotspots using the maximum entropy (MaxEnt) model. The results: (1) A total of 449 cases of actual HWC incidents were investigated, primarily involving wild boars (Sus scrofa; 81.96%) and Asiatic black bears (Ursus thibetanus; 18.04%). The main types of HWC included crop destruction and attacks on beehives. (2) Incidents of damage caused by wild boars and Asiatic black bears were concentrated in the summer months, particularly from June to August. (3) In the study area, 21 out of 25 townships reported HWC cases. Notably, the townships of Fuxing, Gaoyan and Gaoguan were identified as the most affected, with Gaoyan and Fuxing experiencing the highest amounts of loss. (4) The variable of DTP (Distance to Protected Area) was found to have the greatest influence on the hotspot distributions of HWCs. The hotspot zone exhibited a strip-like distribution along the northwest–southeast axis in the central part of the study area. The total area of the HWC hotspots was 1352.56 km2. The largest hotspot areas were located in Xiuqi Town, Gaoyan Town, and Houping Township, accounting for 13.26%, 12.01%, and 7.83% of the total hotspot area, respectively. HWC hotspots require robust management measures to mitigate wildlife damage to local communities and enhance indigenous people’s engagement in wildlife conservation. Implementation of physical measures and compensation schemes may be necessary in these hotspots to alleviate the financial burden on indigenous populations. Our findings may provide valuable insights for the future formulation of biodiversity conservation policies and HWC mitigation strategies in the Daba Mountains.

Published

2024

39. Asthma and risk of adverse pregnancy outcomes: A Mendelian randomization study

Author

Xinyu Han, Tian qiang Wu, Yuanyuan Bian, Lu Chen, and Xiaoling Feng

Subjects

Mendelian randomization, Asthma, Spontaneous abortion, Gestational diabetes mellitus, Preeclampsia, Causality, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Background: Multiple empirical investigations have indicated a connection between asthma and adverse pregnancy outcomes (APOs). Nevertheless, the effects of asthma on APOs remain uncertain. Methods: We performed bi-directional Univariable Mendelian randomization (UVMR) analyses using combined information obtained from genome-wide association studies (GWAS) data that is publicly accessible. The principal approach used to analyze the causal association between asthma or age when diagnosed and APOs was the inverse variance weighted (IVW) method. The two types of data regarding exposure originate from the IEU Open GWAS project, which includes 56,167 and 47,222 European asthma patients, respectively. The data of four APOs were acquired via the GWAS dataset of the FinnGen collaboration. In addition, we implemented multivariable Mendelian randomization (MVMR), controlling for confounding factors such as smoking status, frequent drinking, body mass index (BMI), and live birth quantity. Furthermore, we executed several meticulous sensitivity studies to ascertain the reliability of our MR results. Results: Following the implementation of the Bonferroni adjustment, the UVMR assessment revealed that in the IVW model, asthma was significantly linked to an elevated risk of spontaneous abortion (SA) (odds ratio [OR]: 1.115; 95 % confidence interval [CI]: 1.031–1.206; P = 0.006) and gestational diabetes mellitus (GDM) (OR: 1.125; 95 % CI: 1.037–1.220; P = 0.005). However, there was no causal correlation between asthma and preterm birth (PTB) (OR: 0.979; 95 % CI: 0.897–1.068; P = 0.629) or preeclampsia (PE) (OR: 1.059; 95 % CI: 0.951–1.179; P = 0.297). After adjusting for confounding factors, including smoking status, frequent drinking, BMI, and live birth quantity, the MVMR analysis shows a statistically significant causal relationship between asthma and SA or GDM. Furthermore, our investigation's findings did not reveal a substantial correlation between the age of asthma onset based on genetics and the likelihood of SA or GDM. The inverse MR outcomes indicate a lack of causal connection linking APOs to the incidence of asthma. The validity of these findings were verified by sensitivity analyses. Conclusions: The evidence provided by this study proves that genetically determined asthma is linked to a higher likelihood of SA and GDM. Further research is required to examine potential pathways. However, no conclusive evidence has been found to support the increased risk of SA and GDM in early asthma diagnosis or the interaction between asthma and PTB or PE, indicating that confounding factors may affect the results of previous observational studies.

Published

2024

40. Transparent material polishing surface classification based on the microfacet shape factor, reflectivity, and transmissivity features using an imaging model of a time-of-flight camera.

Author

Shinan Lang, Fangyi Chen, Yiheng Cai, and Qiang Wu

Published

2024

41. Fine-scale deep learning model for time series forecasting.

Author

Yuwei Chen, Wenjing Jia, and Qiang Wu 0001

Published

2024

42. Pasteur&apos;s quadrant in AI: do patent-cited papers have higher scientific impact?

Author

Xingyu Gao, Qiang Wu 0002, Yuanyuan Liu, and Ruilu Yang

Published

2024

43. Examining the influence of women scientists on scientific impact and novelty: insights from top business journals.

Author

Yining Wang, Qiang Wu 0002, and Liangyu Li

Published

2024

44. Imbalanced Large Graph Learning Framework for FPGA Logic Elements Packing Prediction.

Author

Zhixiong Di, Runzhe Tao, Lin Chen, Qiang Wu, and Yibo Lin

Published

2024

45. Improving Consistency of Proxy-Level Contrastive Learning for Unsupervised Person Re-Identification.

Author

Yimin Liu, Meibin Qi, Yongle Zhang, Qiang Wu 0001, Jingjing Wu 0001, and Shuo Zhuang

Published

2024

46. Mutual Dual-Task Generator With Adaptive Attention Fusion for Image Inpainting.

Author

Yongle Zhang, Yimin Liu, Ruotong Hu, Qiang Wu 0001, and Jian Zhang 0002

Published

2024

47. GASF-ConvNeXt-TF Algorithm for Perimeter Security Disturbance Identification Based on Distributed Optical Fiber Sensing System.

Author

Ya-Jun Wang, Wen Zhuo, Bin Liu 0048, Juan Liu 0010, Yingying Hu, Yue Fu, Wenbo Xiao, Xingdao He, Jinhui Yuan, and Qiang Wu 0005

Published

2024

48. A Siamese-Transport Domain Adaptation Framework for 3D MRI Classification of Gliomas and Alzheimer&apos;s Diseases.

Author

Luyue Yu, Ju Liu, Qiang Wu 0009, Jing Wang, and Aixi Qu

Published

2024

49. TNCB: Tri-Net With Cross-Balanced Pseudo Supervision for Class Imbalanced Medical Image Classification.

Author

Aixi Qu, Qiang Wu 0009, Jing Wang, Luyue Yu, Jing Li 0046, and Ju Liu

Published

2024

50. Plastic-Optical-Fiber-Enabled Smart Glove for Machine-Learning-Based Gesture Recognition.

Author

Jie Li, Bin Liu 0048, Yingying Hu, Juan Liu 0010, Xingdao He, Jinhui Yuan, and Qiang Wu 0005

Published

2024