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1. Context Enhancement with Reconstruction as Sequence for Unified Unsupervised Anomaly Detection

Author

Yang, Hui-Yue, Chen, Hui, Liu, Lihao, Lin, Zijia, Chen, Kai, Wang, Liejun, Han, Jungong, and Ding, Guiguang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Unsupervised anomaly detection (AD) aims to train robust detection models using only normal samples, while can generalize well to unseen anomalies. Recent research focuses on a unified unsupervised AD setting in which only one model is trained for all classes, i.e., n-class-one-model paradigm. Feature-reconstruction-based methods achieve state-of-the-art performance in this scenario. However, existing methods often suffer from a lack of sufficient contextual awareness, thereby compromising the quality of the reconstruction. To address this issue, we introduce a novel Reconstruction as Sequence (RAS) method, which enhances the contextual correspondence during feature reconstruction from a sequence modeling perspective. In particular, based on the transformer technique, we integrate a specialized RASFormer block into RAS. This block enables the capture of spatial relationships among different image regions and enhances sequential dependencies throughout the reconstruction process. By incorporating the RASFormer block, our RAS method achieves superior contextual awareness capabilities, leading to remarkable performance. Experimental results show that our RAS significantly outperforms competing methods, well demonstrating the effectiveness and superiority of our method. Our code is available at https://github.com/Nothingtolose9979/RAS.

Published
2024

3. Effects of light quality on agronomic traits, antioxidant capacity and nutritional composition of Sarcomyxa Edulis

Author

Tian Tian, Hui-Yue Hu, Yong-Sheng Ma, Jia-Wen Qin, Chang-Tian Li, and Yu Li

Subjects
Medicine, Science
Abstract

Abstract Sarcomyxa edulis, a notable edible and medicinal mushroom indigenous to northeast China, is celebrated for its high nutritional value and delightful taste. In this study, white light as a control and examined the effects of red, green, and blue light on the agronomic traits, antioxidant capabilities, and nutritional composition of S. edulis. The results showed that different monochromatic light qualities affected the color of S. edulis pileus, with blue light demonstrating particular efficacy. Furthermore, blue light also regulated pileus length, whereas red light was instrumental in significantly increasing stalk length. Regarding antioxidant capacity, compared with red and green light, the activities of POD, SOD, and CAT were significantly improved by blue light irradiation, decreased MDA levels, and improved free radical scavenging potential. Additionally, blue light exposure led to an increase in the contents of 15 amino acids. Green light treatment reduced the crude fat content. For the first time, we found that light quality is a key factor in controlling the color of S. edulis. Blue light is an effective way to regulate the color and pileus size of S. edulis, and improve the antioxidant properties. The photobiological characteristics and the response of nutritional quality to light environment of S. edulis were clarified.

Published
2024
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6. Effect of coal mining on net primary productivity of vegetation in Shendong Mining Area

Author

Hongbo NIU, Shaoguo TIAN, Pengju ZU, Manhong CAO, Shaodong QU, Qiguang DONG, Bingqian LI, Zeyu JIANG, Yinli BI, and Hui YUE

Subjects
ecological environment in mining areas, net primary productivity, mining activities, environmental effects of solar panel, contribution rate index, geographically weighted regression model, Mining engineering. Metallurgy, TN1-997
Abstract

Coal mining in Shendong Mining area has an important impact on the local ecological environment, especially the growth of vegetation. In order to describe this effect quantitatively, this study uses a regional evapotranspiration model to calculate the Potential Net Primary Productivity (PNP,p) of the Shendong mining area. MODIS17A3 dataset (2001—2022) was used to characterize the Actual Net Primary Productivity (PNP,a), and combined with the monthly net primary productivity raster dataset of terrestrial ecosystems in China (PNP,al, 1988—2015), using GWR model construction correction method to correct PNP,al to obtain 1988—2000 PNP,a data, and using the difference between the two PNP,h to characterize the impact of coal mining. The effect of coal mining on vegetation PNP in Shendong mining area was evaluated. The results show that: ① the accuracy of PNP,al data corrected by GWR model is about 0.76, and the corrected PNP,al data has a strong spatial correlation with the MODIS17A3 dataset, which indicates the reliability of the accuracy of the corrected model; ② The overall PNP,a and PNP,h of Shendong mining area showed a trend of decreasing first and then recovering gradually, but the PNP of vegetation did not recover to the pre-mining level. The mean values of PNP,h before mining and PNP,h after mining are 21.50 g/m2 and −60.20 g/m2, respectively. PNP,h

Published
2024
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7. Ecological environment quality evaluation of Zhangjiamao mining area based on DBO–PPC model

Author

Ying LIU, Yahui FAN, Wenjing HENG, Pingping XU, Hui YUE, Yinli BI, Hongbo NIU, Shaoguo TIAN, Pengju ZU, Manhong CAO, and Qiguang DONG

Subjects
swarm intelligent optimization algorithm, projection pursuit, dbo–ppc, ecological environment evaluation, Geology, QE1-996.5, Mining engineering. Metallurgy, TN1-997
Abstract

Mining will destroy and occupy a large amount of land resources and cause lasting negative impact on ecological environment, so it is urgent to evaluate the change of ecological environment quality in mining area. In order to accurately monitor the ecological environment quality of the mining area, this study took 24 annual Landsat images of the Zhangjiamao Mining area from 2000 to 2023 as the basic data, and calculated four ecological indicators of NDVI (Normalized Difference Vegetation Index, NDVI), WET (Humidity Index, WET), LST (Land Surface Temperature, LST) and NDBSI (Normalized Differential Build-up and bare Soil Index, NDBSI). In addition, four population intelligent optimization algorithms including the Fruit Fly Optimization Algorithm-Projection Pursuit Clustering (FOA–PPC), the Particle Swarm Optimization-Projection Pursuit Clustering (PSO–PPC), the Grey Wolf Optimizer-Projection Pursuit Clustering (GWO–PPC) and the Dung Beetle Optimizer-Projection Pursuit Clustering (DBO–PPC) were used to derive the ecological environment quality evaluation method in the mining area, and the average correlation was used to verify the accuracy. The results showed that: ① The average correlation and intra class aggregation of the DBO–PPC model are higher than those of the PSO–PPC model, FOA–PPC model, and GWO–PPC model, and are closer to the EI index, indicating that the DBO–PPC model can better evaluate the ecological environment of the study area; ② Based on the DBO–PPC model, the average ecological and environmental quality of the Zhangjiamao mining area from 2000 to 2023 is about 0.4, and the ecological and environmental quality is mainly poor or relatively poor, accounting for about 55.94% of the total area. In terms of space, the ecological environment of the Changjiagou Reservoir is superior during the study period. The ecological environment in the northeastern and central areas of the mining area is better, with more vegetation coverage. ③ The proportion of subsidence area in the mining area is 81.28%, and the maximum subsidence is –0.15 m. Subsidence in the coal extraction area is significantly higher than that in the whole mining area, accounting for 89.56% of the coal extraction area, and the ecological environment quality decreases at a rate of –0.000 4, indicating that mining activities cause surface subsidence in the study area, which further affects the ecological environment. To sum up, the DBO–PPC model has a strong rationality in monitoring and evaluating the ecological environment quality in the mining areas, so as to provide technical means for the sustainable development of ecological environment in the mining areas.

Published
2024
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8. Identification and validation of potential prognostic biomarkers in glioblastoma via the mesenchymal stem cell infiltration level

Author

Shengyu Wang, Senlin Mao, Xiaofu Li, Dan Yang, Yinglian Zhou, Hui Yue, Bing Li, Wei Li, Chengyun Li, and Xuemei Zhang

Subjects
glioblastoma, mesenchymal stem cell, tumor microenvironment, immune checkpoint, prognostic model, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

AimsMesenchymal stem cells (MSCs) are key components in promoting glioblastoma (GBM) progression. This study aimed to explore new therapeutic targets and related pathogenic mechanisms based on different MSCs infiltration levels in GBM patients.MethodsWe estimated the relationship between cell infiltration and prognosis of GBM. Subsequently, key risk genes were identified and prognostic models were constructed by LASSO-Cox analysis. The risk genes were validated by five independent external cohorts, single-cell RNA analysis, and immunohistochemistry of human GBM tissues. TIDE analysis predicted responsiveness to immune checkpoint inhibitors in different risk groups.ResultsThe MSCs infiltration level was negatively associated with survival in GBM patients. LOXL1, LOXL4, and GUCA1A are key risk genes that promote GBM progression and may act through complex intercellular communication.ConclusionThis research has provided a comprehensive study for exploring the MSCs infiltration environment on GBM progression, which could shed light on novel biomarkers and mechanisms involved in GBM progression.

Published
2024
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9. Acupuncture, an effective treatment for post-stroke neurologic dysfunction

Author

You Zhang, Yi-Wen Tang, Yu-Ting Peng, Zi Yan, Jin Zhou, and Zeng-Hui Yue

Subjects
Stroke, Acupuncture, Neurologic recovery, Rehabilitation, Neurologic dysfunction, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Stroke episodes represent a significant subset of cerebrovascular diseases globally, often resulting in diverse neurological impairments such as hemiparesis, spasticity, dysphagia, sensory dysfunction, cognitive impairment, depression, aphasia, and other sequelae. These dysfunctions markedly diminish patients' quality of life and impose substantial burdens on their families and society. Consequently, the restoration of neurological function post-stroke remains a primary objective of clinical treatment. Acupuncture, a traditional Chinese medicine technique, is endorsed by the World Health Organization (WHO) for stroke treatment due to its distinct advantages in managing cerebrovascular diseases, including ischemic stroke. Numerous clinical studies have substantiated the efficacy of acupuncture in ameliorating neurological dysfunctions following stroke. This review systematically examines the improvements in post-stroke neurological dysfunction attributable to acupuncture treatment and elucidates potential mechanisms of action proposed in recent years. Additionally, this article aims to present novel therapeutic concepts and strategies for the clinical management of post-stroke neurological dysfunction.

Published
2024
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12. Group Personalized Federated Learning

Author

Liu, Zhe, Hui, Yue, and Peng, Fuchun

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning
Abstract

Federated learning (FL) can help promote data privacy by training a shared model in a de-centralized manner on the physical devices of clients. In the presence of highly heterogeneous distributions of local data, personalized FL strategy seeks to mitigate the potential client drift. In this paper, we present the group personalization approach for applications of FL in which there exist inherent partitions among clients that are significantly distinct. In our method, the global FL model is fine-tuned through another FL training process over each homogeneous group of clients, after which each group-specific FL model is further adapted and personalized for any client. The proposed method can be well interpreted from a Bayesian hierarchical modeling perspective. With experiments on two real-world datasets, we demonstrate this approach can achieve superior personalization performance than other FL counterparts.

Published
2022

13. Study on response patterns and influencing factors of buried pipelines with corrosion defects under fault action

Author

De-long Huang, Hang Cen, Hui-yue Wang, Qiang Liu, Zhong-ling Zong, Ai-ping Tang, and Zhuo Tang

Subjects
Corrosion defect, Oblique-slip fault, Finite element, Pipeline response, Buckling damage, Failure displacement, Engineering (General). Civil engineering (General), TA1-2040
Abstract

It is evident how corrosion flaws affect the tension and strain of pipelines that pass oblique-slip faults. The pipeline is very risky and is more likely to experience tensile and buckling damage when corrosion develops in the major deformation region of the pipeline. This will also significantly diminish the pipeline's failure slippage. This research uses a three-dimensional finite element modeling of trans-fault pipes to study the mechanical reaction and influencing factors of corroded pipelines under the action of oblique-slip faults. It is determined that the distribution of stress and strain as well as the pipeline's extension trend are changed when corrosion faults are present. The concentration of tensile and compressive strain along the corroded circular cross-section at the time of damage, followed by a gradual expansion through the entire corroded circumferential cross-section, and the pipeline's extrusion, folding, and bulging, are the manifestations of the influence of corrosion defects on the pipeline at damage. Tensile and compressive strains in the pipeline increase, failure slippage is reduced, and the pipeline experiences tensile damage and corrosion. The length of the pipeline corroded in the circumferential direction, the length of the corroded length in the direction of corrosion along the pipeline axis, and the corrosion depth increase all contribute to these outcomes. The location of corrosion defects has the greatest influence on the dynamics of the pipeline and is most dangerous in the large deformation section from -10 m to 10 m; the corrosion effect is very small when the corrosion is located on the right side of the fracture surface at 25 m. The risk of buckling damage is higher in this scenario, where the corrosion depth has the greatest effect. The conclusions of this paper can be used as a reference for the seismic and corrosion-resistant design of cross-fault pipelines.

Published
2024
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15. Research progress of microscopic percolation mechanism of shale oil

Author

Mingchuan WANG, Ran WANG, Hui YUE, Wei ZHANG, Fuyong WANG, and Zhiqiang CHEN

Subjects
pore network model (pnm), lattice boltzmann method (lbm), digital core, nonlinear percolation, percolation mechanism, shale oil, Geophysics. Cosmic physics, QC801-809, Geology, QE1-996.5
Abstract

Shale oil has become the focus of the exploration and development of unconventional oil and gas resources in the world, but its development faces many challenges. Aiming at the complex pore space, the unclear percolation mechanism, and the urgent need to explore research methods of shale oil, this paper systematically expounded the research status of microscopic percolation mechanism of shale oil in experimental methods and computational simulation, and discussed the existing problems and the development trend of future research from the perspective of pore-scale and core-scale. The results show that the combination of various experimental methods can well characterize the pore structure of shale, but the characterization of micro-scale and core-scale flow is still insufficient. The direct method represented by Lattice Boltzmann Method and the indirect method represented by pore network simulation are the main methods to study pore-scale flow mechanism, but the consideration of micro-scale effect needs to be improved. The study of core-scale flow mechanism is mainly to establish a percolation model considering boundary layer effect based on capillary bundle model and fractal theory. It is pointed out that the main future research direction is to fully consider the factors such as boundary adsorption/slip, density/viscosity heterogeneity, stress sensitivity, start-up pressure gradient of shale oil in micro-nano pores, realize multi-scale percolation mechanism coupling, and establish a mathematical model that can accurately characterize the multi-phase and multi-scale flow of shale oil.

Published
2024
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16. Developing a new red band–SEVI–blue band (RSB) enhancement method for recognition the extra-high-voltage transmission line corridor in green mountains

Author

Hong Jiang, Yong Zhang, Jinglan Lin, Xiaogan Zheng, Hui Yue, and Yunzhi Chen

Subjects
enhancement method, shadow-eliminated vegetation index (sevi), transmission line lane (tll), green mountains, soil erosion, Mathematical geography. Cartography, GA1-1776
Abstract

Monitoring the extra-high-voltage transmission line corridor (EHVTLC) in mountains is critical for safe smart-grid operation. However, the transmission lines are so narrow that they are difficult to recognize using multispectral satellite images with a spatial resolution of 10 m. In this study, we developed a new method using the red band–shadow-eliminated vegetation index (SEVI)–blue band (RSB) composite image to enhance the EHVTLC in green mountains (named RSB-enhancement method). Using this method, the EHVTLC becomes evident in the false-color synthesis of the RSB composite of the Sentinel-2 image. Then, we recognized and extracted approximately 342.45 km of the EHVTLC in a mountainous region of Fuzhou City, China, including a 46.73 km three-parallel-lane segment of 1000 kV and a 295.72 km two-parallel-lane segment of 500 kV. Spatial analysis shows that the SEVI mean difference between the EHVTLC and the buffer zone reaches approximately 10%, and three landslides and 2.66 km2 soil erosion reside in the buffer zone which area is approximately 73.67 km2. Finally, the RSB-enhancement method can be used in other satellite images with spatial resolutions of greater than 10 m for enhancement and recognition the transmission line corridors in green mountains.

Published
2023
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17. Discovering the Ecosystem Service Value Growth Characteristics of a Subtropical Soil Erosion Area Using a Remote-Sensing-Driven Mountainous Equivalent Factor Method

Author

Hong Jiang, Jing Lin, Bibao Liu, Hui Yue, Jinglan Lin, Wei Shui, Ming Gao, and Yunzhi Chen

Subjects
ecosystem service value, spatial adjustment coefficient, spatial–temporal pattern, subtropical mountain, soil erosion, Science
Abstract

Evaluation ecosystem service value (ESV) is critical, as “lucid waters and lush mountains are invaluable assets”. To assess the incremental effects of ecological assets on soil and water conservation in subtropical mountains, we developed a remote-sensing-driven mountainous equivalent factor (RS-MEF) method to estimate the ESV of Changting County, China. This method is a hybrid of a conventional equivalent factor framework and remote sensing techniques for mountains, achieving several advancements, including spatial adjustment using vegetation activity merged with productivity, improved spatial resolution, and the removal of topographic effects. Using the RS-MEF method, we estimated that the ESV of Changting County was approximately CNY 15.80 billion in 2010 and CNY 34.83 billion in 2022. Specifically, the ESV per unit area of the major soil erosion area (MSEA) in the county was less than that of the non-major soil erosion area (n-MSEA); however, the ESV growth rate of the MSEA from 2010 to 2022 was faster than that of the n-MSEA. Therefore, the ESV gap between the two areas was reduced from 28.99% in 2010 to 15.83% in 2022. Topographic gradient analysis illustrates that areas with elevations of 385 to 658 m and steep slopes achieved a high ESV, while high-elevation areas with gentle slopes will be a focus of control in the next phase. Our study demonstrates that significant achievements have been made in ecological restoration from an ESV perspective, with a notable reduction in low-ESV areas in the MSEA; the insights gained into ESV growth and its underlying factors are valuable and instructive for future soil and water conservation efforts.

Published
2024
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25. On the geometry of generalization and memorization in deep neural networks

Author

Stephenson, Cory, Padhy, Suchismita, Ganesh, Abhinav, Hui, Yue, Tang, Hanlin, and Chung, SueYeon

Subjects
Computer Science - Machine Learning, Condensed Matter - Disordered Systems and Neural Networks, Statistics - Machine Learning
Abstract

Understanding how large neural networks avoid memorizing training data is key to explaining their high generalization performance. To examine the structure of when and where memorization occurs in a deep network, we use a recently developed replica-based mean field theoretic geometric analysis method. We find that all layers preferentially learn from examples which share features, and link this behavior to generalization performance. Memorization predominately occurs in the deeper layers, due to decreasing object manifolds' radius and dimension, whereas early layers are minimally affected. This predicts that generalization can be restored by reverting the final few layer weights to earlier epochs before significant memorization occurred, which is confirmed by the experiments. Additionally, by studying generalization under different model sizes, we reveal the connection between the double descent phenomenon and the underlying model geometry. Finally, analytical analysis shows that networks avoid memorization early in training because close to initialization, the gradient contribution from permuted examples are small. These findings provide quantitative evidence for the structure of memorization across layers of a deep neural network, the drivers for such structure, and its connection to manifold geometric properties., Comment: ICLR 2021

Published
2021

26. Soil respiration and its influencing factors in different land use types in desertification mining areas

Author

Ying LIU, Jiaquan LIN, Hui YUE, Yinli BI, and Suping PENG

Subjects
desertification open-pit coal mine, soil respiration, diurnal variation, influence factors, carbon cycle of mining, Geology, QE1-996.5, Mining engineering. Metallurgy, TN1-997
Abstract

In-depth understanding of the diurnal variation of soil respiration and its influencing factors at different depths under different land use patterns in desertified open-pit mines is crucial to assessing the carbon cycle of ecosystems in ecologically fragile open-pit mines. Taking the Hongshaquan open-pit mine as the research object, the EGM-5 portable infrared gas observation system was used to monitor and obtain the diurnal respiration rate of soil at different depths under different land use types and obtain related influencing factors. Also, the variation law and characteristics, as well as their main influencing factors of soil respiration under different land use types were got. The results showed that: ① There are significant differences in diurnal soil respiration among the five representative types of land features. The daily average soil respiration rates at 10 and 30 cm depths are ordered as artificial forest > Hongshaquan > reclamation area of dump > tamarisk forest > southern line, at 10 cm depth are 5.72, 0.98, 0.34, 0.08 and −0.08 μmol/(m2·s), respectively, and at 30 cm depth are 5.14, 2.18, 0.77, 0.40 and −0.05 μmol/(m2·s), respectively. The southern line is carbon sink, and the other four types of land features are carbon sources. ② The diurnal variation of soil respiration rate is obvious. The diurnal variation of soil respiration in different soil layers and Hongshaquan at 10 cm depth in the reclamation area of the dump site shows a “double peak” trend. The diurnal variation of soil respiration at 10 and 30 cm depths in tamarisk forest shows a “multi-peak” trend. ③ On the diurnal scale, the soil respiration rate at 10 cm depth in the dump reclamation area, the artificial forest and Hongshaquan is significantly positively correlated with soil temperature (P < 0.05) and soil water content (P < 0.01). The diurnal respiration of soil in the forest and the southern line is weak, and the daytime soil temperature in the tamarisk forest and the southern line limits soil respiration, while the nighttime and early morning soil temperature promotes soil respiration. Soil temperature and soil water content can better explain the variation of soil respiration rate of 50.5%−97.3% for the five feature types in the mine area, while only 11.3% for 10 cm in the southern line. ④ There are differences in the relationship between soil respiration and soil carbon content in tamarisk forest and southern line, and the relationship between the soil respiration and soil carbon content of the other three types of land features. The tamarisk forest and southern line soil respiration have a significant negative correlation with inorganic carbon (SIC) (r=0.69, P < 0.01), the soil respiration rate is negative due to inorganic processes, and SIC is the key factor of soil carbon sink. However, the soil respiration in dump reclamation area, artificial forest and Hongshaquan all have a strong negative correlation with dissolved active organic carbon (DOC). The soil respiration in southern line and tamarisk forest also has a strong positive correlation with soil organic carbon (SOC). SOC and DOC are important factors of soil carbon sources. To sum up, the soil respiration rates of different types of land features and different depths in the Hongshaquan mining area are significantly different, and the responses of soil respiration to soil temperature and other environmental factors are different at different depths. It is preliminarily clarified that SIC is an important factor for soil carbon sinks, while SOC and DOC are important factors for soil carbon sources. The results can provide basic data for carbon emissions and carbon cycle in the mining area.

Published
2023
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27. Proteomic and metabolomic analysis of ageing beef exudate to determine that iron metabolism enhances muscle protein and lipid oxidation

Author

Jun Liu, Cuili Pan, Hui Yue, He Li, Dunhua Liu, Ziying Hu, Yuanliang Hu, Xiang Yu, Weiwei Dong, and Yanli Feng

Subjects
Exudate, Beef, Ageing, Oxidation, Iron metabolism, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

The study aimed to assess differences in proteomic and metabolite profiles in ageing (1, 2, 4, and 6 days at 4 °C) beef exudates and determine their relationship with beef muscle iron metabolism and oxidation. Proteomic and metabolomic analyses identified 877 metabolites and 1957 proteins. The joint analysis identified 24 differential metabolites (DMs) and 56 differentially expressed proteins (DEPs) involved in 15 shared pathways. Ferroptosis was identified as the only iron metabolic pathway, and 4 DMs (l-glutamic acid, arachidonic acid, glutathione and gamma-glutamylcysteine) and 5 DEPs (ferritin, phospholipid hydroperoxide glutathione peroxidase, heme oxygenase 1, major prion protein, and acyl-CoA synthetase long chain family member 4) were involved in iron metabolism by regulating heme and ferritin degradation, Fe2+ and Fe3+ conversion, arachidonic acid oxidation and inactivation of glutathione peroxidase (GPX) 4, leading to increased levels of free iron, ROS, protein and lipid oxidation (P

Published
2023
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30. Effects of Ultrasonic Treatment on Physical Stability of Lily Juice: Rheological Behavior, Particle Size, and Microstructure

Author

Si-Hai Han, Jun-Kun Zhu, Lei Shao, Chong-Hui Yue, Pei-Yan Li, Zhou-Ya Bai, and Deng-Lin Luo

Subjects
particle size, rheological properties, stability, ultrasonic, lily juice, Chemical technology, TP1-1185
Abstract

The aim of this study was to investigate the rheological properties, particle size distribution, color change, and stability of lily juice under different ultrasonic treatment conditions (152 W, 304 W, 456 W, 608 W, and 760 W). The results showed that the lily juice exhibited non-Newtonian shear thinning behavior, and the viscosity decreased with the increase in ultrasonic power. Under ultrasonic treatment conditions, there was no significant change in the pH value and zeta potential value of the samples. The content of cloudy value and total soluble solids (TSS) increased gradually. However, both the sedimentation components and centrifugal sedimentation rate showed a downward trend and an asymptotic behavior. In addition, high-power ultrasound changed the color index (L* value decreased, a* value increased), tissue structure, and particle distribution of the sample, and small particles increased significantly. To sum up, ultrasonic treatment has great potential in improving the physical properties and suspension stability of lily juice.

Published
2024
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31. Quality Risk Perception of Rectification and Reinforcement in a High-Rise Building under Uncertainty

Author

Liangtao Bu and Hui Yue

Subjects
building rectification, risk analysis, extension theory, cloud model, D-S evidence theory, dynamic Bayesian network, Building construction, TH1-9745
Abstract

There are many complex and uncertain factors in the process of building rectification and reinforcement that can easily lead to construction quality failures. This study develops a novel hybrid risk analysis approach to perceive the construction quality risk under uncertainty by integrating the extension theory (ET), the cloud model (CM), the Dempster–Shafer (D-S) evidence theory and the dynamic Bayesian network (DBN). The extended cloud model (ECM) combining the ET and the CM is not only effective in avoiding information loss, but is also capable of dealing with the ambiguity and randomness in risk assessment. The ECM is employed to construct the basic probability assignments (BPA) of risk factors across different risk states. The improved D-S evidence theory considering the expert importance coefficient is used for the fusion of expert judgments. A DBN model integrating monitoring indicators is established to predict the dynamics of overall quality risk during rectification and reinforcement. Then, the measured data of settlement difference and settlement rate are fed back to the DBN model to update the risk assessment results in real time. Finally, a case study of the rectification and reinforcement in a high-rise building is taken to verify the feasibility and validity of the developed risk analysis approach. The risk assessment results better reflect the unexpected risk events in actual construction. The proposed approach provides a research paradigm for quality risk assessment of similar rectification and reinforcement projects.

Published
2024
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32. Analysis of spatiotemporal heterogeneity and influencing factors of soil erosion in a typical erosion zone of the southern red soil region, China

Author

Jun Gao, Changqing Shi, Jianying Yang, Hui Yue, Yun Liu, and Baizhou Chen

Subjects
Soil erosion, Spatiotemporal heterogeneity, Climate change, Geodetector, LMDI, Ecology, QH540-549.5
Abstract

The southern red soil region (SRSR) of China, a region that is environmentally sensitive, suffers severe soil erosion (SE) as a result of climate change and human activity. The factors driving SE changes in the SRSR of China under changing settings have, however, only been the subject of a small number of research. Changting County is a typical SE area in the SRSR of China. The spatiotemporal variation characteristics of SE in Changting County from 2000 to 2020 were investigated using the revised universal soil loss equation (RUSLE), while the dominant factors influencing the spatiotemporal dynamic change of SE were analyzed using the optimal parametric geographical detector (OPGD) and logarithmic mean Divisia Index (LMDI). The results showed that the average annual soil erosion modulus in Changting County shows a decreasing trend, with the SE modulus decreased from 10.00 t·hm−2·a−1 in 2000 to 3.38 t·hm−2·a−1 in 2020. Slight SE intensity was the dominant SE class, accounting for more than 75% of the total area, and the proportion is trending upwards. Natural and anthropogenic factors showed significant effects on the spatial variation of SE, of which land use and vegetation cover were the main factors influencing the spatial distribution of SE. Furthermore, the interaction between these two dominant factors explained greatly the spatial variation of SE. The mitigation of SE was mainly attributed to the increase in vegetation cover following the implementation of various ecological projects, contributing to the reduction of SE by 68.7%. In addition, the changes in land use types and rainfall amounts also played positive roles in reducing SE, showing contributions of 20.2% and 11.1%, respectively.

Published
2023
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33. Assessment of Rigid-Elastic-Resilient Society Responses to Natural Disasters in Red Soil Area of South China

Author

Kang Hu, Hui Yue, Yuning Liang, Lijun Wu, Xuan Zhu, Zihao Zhong, and Guochang Ding

Subjects
rigid resistance, elastic control, resilient recovery, rigid-elastic-resilient society responses to natural disasters, changting county fujian province, Environmental sciences, GE1-350, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

[Objective] The method for building a society having robust and effective responses to natural disasters was determined in order to provide a scientific reference for preventing and reducing risks from major natural disasters in the red soil area of South China. [Methods] Changting County, Fujian Province was used as a typical disaster area in the red soil area of South China. An index system was constructed from three dimensions that included rigid resistance, elastic control, and resilient recovery. The entropy weight TOPSIS model and the coupling coordination model were used to quantitatively evaluate the comprehensive level and the coupling and coordination between the first level of rigid-elastic-resilient society responses to natural disasters in Changting County from 2006 to 2019. An obstacle factor analysis was conducted. [Results] ① The level of rigid-elastic-resilient society responses to natural disasters in Changting County evolved from a slow decline to a significant increase, with an increase of 0.4616 from 2006 to 2019, showing a significant growth trend overall. ② The rigid resistance level, elastic control level, and resilience recovery level of the rigid-elastic-resilient society responses to natural disasters in Changting County generally showed a significant growth trend. Only the resilience recovery index significantly decreased from 0.402 0 to 0.280 9 from 2006 to 2010. ③ Among various evaluation indicators, the decline of disaster monitoring capability, public security management level, proportion of tertiary industry, carbon storage capability, and water conservation function were the key factors restricting the development of the rigid-elastic-resilience society responses to natural disasters in Changting County. [Conclusion] The red soil area of South China was evaluated from three dimensions including rigid resistance, elastic control, and resilient recovery. These three dimensions effectively and accurately reflected the comprehensive level of rigid, elastic, and resilient society responses to natural disasters in the region. At the same time, the weak links in development should be strengthened to avoid the decline of rigid-elastic-resilient society responses to natural disasters.

Published
2023
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34. Hepatocyte growth factor-modified hair follicle stem cells ameliorate cerebral ischemia/reperfusion injury in rats

Author

Hao Tang, Xuemei Zhang, Xiaojun Hao, Haitong Dou, Chendan Zou, Yinglian Zhou, Bing Li, Hui Yue, Duo Wang, Yifei Wang, Chunxiao Yang, and Jin Fu

Subjects
Hair follicle stem cells, Ischemic stroke, Microglia, Blood–brain barrier, Hepatocyte growth factor, Medicine (General), R5-920, Biochemistry, QD415-436
Abstract

Abstract Background Hair follicle stem cells (HFSCs) are considered as a promising cell type in the stem cell transplantation treatment of neurological diseases because of their rich sources, easy access, and the same ectoderm source as the nervous system. Hepatocyte growth factor (HGF) is a pleiotropic cytokine that shows neuroprotective function in ischemic stroke. Here we assessed the therapeutic effects of HFSCs on ischemic stroke injury and the synthetic effect of HGF along with HFSCs. Methods Rat HFSCs were intravenously transplanted into a middle cerebral artery ischemia/reperfusion (I/R) rat model. Neurological scoring and TTC staining were performed to assess the benefits of HFSC transplantation. Inflammatory cytokines, blood–brain barrier integrity and angiogenesis within penumbra were estimated by Western blot and immunohistochemistry. The differentiation of HFSCs was detected by immunofluorescence method 2 weeks after transplantation. Results HFSC transplantation could significantly inhibit the activation of microglia, improve the integrity of blood–brain barrier and reduce brain edema. Moreover, the number of surviving neurons and microvessels density in the penumbra were upregulated by HFSC transplantation, leading to better neurological score. The combination of HFSCs and HGF could significantly improve the therapeutic benefit. Conclusion Our results indicate for the first time that HGF modified HFSCs can reduce I/R injury and promote the neurological recovery by inhibiting inflammatory response, protecting blood–brain barrier and promoting angiogenesis.

Published
2023
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35. Assessment of neoadjuvant chemotherapy with docetaxel, cisplatin, and fluorouracil in patients with oral cavity cancer

Author

Jin Ye Fu, Xiu Hui Yue, Min Jun Dong, Jiang Li, and Chen Ping Zhang

Subjects
neoadjuvant chemotherapy, oral cavity cancer, progression, response rate, survival, TPF regimen, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Chemotherapy with docetaxel, cisplatin, and fluorouracil (TPF) has been studied in patients with head and neck cancer. Its impact on patients with oral cavity cancer was not specified. Methods We consecutively reviewed medical files of patients with untreated oral cavity cancer who received neoadjuvant TPF chemotherapy in our department from January 2017 to April 2020. Outcomes included the objective response to TPF chemotherapy, factors associated with the response, and progression and survival in different response groups. Results A total of 167 patients were included, with half of stage IV disease. Complete or partial response was observed in 51 patients. A total of 91 patients had stable disease, and 25 patients had progressive disease. The response was not associated with age, sex, anatomic subsite, and the tumor's T stage. It was related with N stage (p

Published
2023
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36. Tumor microenvironment-responsive gold nanodendrites for nanoprobe-based single-cell Raman imaging and tumor-targeted chemo-photothermal therapy

Author

Yajun Shuai, Qing Bao, Hui Yue, Jie Wang, Tao Yang, Quan Wan, Yuxin Zhong, Zongpu Xu, Chuanbin Mao, and Mingying Yang

Subjects
Gold nanoparticles, Silk fibroin, SERS imaging, Targeted therapy, Mild photothermal heating, Multimodal bioimaging, Technology
Abstract

Nanodendrite particles (NDs) with densely branched structures and biomimetic architectures have exhibited great promise in tumor therapy owing to their prolonged in vivo circulation time and exceptional photothermal efficiency. Nevertheless, traditional NDs are deficient in terms of specific surface modification and targeting tumors, which restrict their potential for broader clinical applications. Here, we developed coronavirus-like gold NDs through a seed-mediated approach and using silk fibroin (SF) as a capping agent. Our results demonstrate that these NDs have a favorable drug-loading capacity (∼65.25%) and light-triggered release characteristics of doxorubicin hydrochloride (DOX). Additionally, NDs functionalized with specific probes exhibited exceptional surface-enhanced Raman scattering (SERS) characteristics, enabling high-sensitivity Raman imaging of unstained single cells. Moreover, these NDs allowed for real-time monitoring of endocytic NDs for over 24 ​h. Furthermore, ND@DOX conjugated with tumor-targeting peptides exhibited mild hyperthermia, minimal cytotoxicity, and effective targeting towards cancer cells in vitro, as well as responsiveness to the tumor microenvironment (TME) in vivo. These unique properties led to the highest level of synergistic tumor-killing efficiency when stimulated by a near-infrared (NIR) laser at 808 ​nm. Therefore, our virus-like ND functionalized with SF presents a novel type of nanocarrier that exhibits significant potential for synergistic applications in precision medicine.

Published
2023
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37. Reliability analysis of reinforced concrete beams based on the stochastic model of resistance calculation

Author

Yan Baoqi, Hui Yue, and Mohamed Hamdy

Subjects
resistance calculation, stochastic model, amount of reinforced concrete, reliability, security, 16w60, 16w80, Mathematics, QA1-939
Abstract

As a basic place for human daily life, the safety performance of architectural structure in practical application directly determines the future trend of social economy and urban construction development. By understanding the relationship between the internal and external environment of the structure and using advanced theoretical knowledge to evaluate the effectiveness of the structure, we can find effective countermeasures to solve the problem. Therefore, on the basis of defining the stochastic process model of resistance, this paper uses the reliability period analysis method to compare the structural effectiveness indicators of the proposed structure and the existing structure, and thus makes clear the differences between the traditional reliability calculation method and the time period analysis method, and analyzes the particularity of different structures.

Published
2023
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38. Maternal high-fat diet increases the susceptibility of offspring to colorectal cancer via the activation of intestinal inflammation

Author

Shimin Zheng, Jianbin Yin, Hui Yue, and Lifu Li

Subjects
maternal, offspring, high-fat diet, colorectal cancer, intestinal inflammation, Nutrition. Foods and food supply, TX341-641
Abstract

A high-fat diet plays a key role in the pathogenesis of colorectal cancer, and this effect on the gut can also occur in the offspring of mothers with a high-fat diet. In this review, we discuss the role of a high-fat diet in the pathogenesis of colorectal cancer and summarize the effects of a maternal high-fat diet on the activation of inflammation and development of colorectal cancer in offspring. Studies have found that a maternal high-fat diet primarily induces an inflammatory response in the colorectal tissue of both the mother herself and the offspring during pregnancy. This leads to the accumulation of inflammatory cells in the colorectal tissue and the release of inflammatory cytokines, which further activate the NF-κb and related inflammatory signaling pathways. Research suggests that high levels of lipids and inflammatory factors from mothers with a high-fat diet are passed to the offspring through the transplacental route, which induces colorectal inflammation, impairs the intestinal microecological structure and the intestinal barrier, and interferes with intestinal development in the offspring. This in turn activates the NF-κb and related signaling pathways, which further aggravates intestinal inflammation. This process of continuous inflammatory stimulation and repair may promote the uncontrolled proliferation of colorectal mucosal cells in the offspring, thus increasing their susceptibility to colorectal cancer.

Published
2023
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39. A triple‐LC‐based DC/DC converter with wide input voltage gain in both under‐resonance and over‐resonance frequency regions.

Author

Ren, Chunguang, Qin, Yue, Kong, Jiansheng, Li, Xinqi, Hui, Yue, Han, Xiaoqing, and He, Xiangning

Subjects
ELECTRIC vehicle charging stations, VOLTAGE, RESONANCE, TELECOMMUNICATION
Abstract

In recent years, wide voltage range DC/DC converters have been widely used in telecom power, solar generation and electric vehicle charger applications. Based on this, a new multi‐resonant converter with wide input voltage is proposed here. Compared with the traditional LLC converter, the proposed converter can maintain the output voltage within a narrow frequency regulation range in both under‐resonance and over‐resonance areas. Thus, a wide voltage range can be realized without additional switch components or complex control strategies. The topology and the corresponding working principle of the proposed converter are introduced. In addition, the equivalent model by considering the fundamental wave is established and the influence of the resonance parameters on the voltage gain characteristic is analysed in detail. With these considerations, the resonance parameters are designed. Finally, a 500 W experiment platform is established to verify the effectiveness and feasibility of the proposed converter. [ABSTRACT FROM AUTHOR]

Published
2024
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45. Analysis of Factors Affecting Early Functional Recovery of Bernese Periacetabular Osteotomy

Author

Yan‐ge Gu, Zhi‐wei Shi, Yao‐hui Yue, Zhao‐long Yan, Lu‐xu Yin, Ye‐yong Zhang, Hua‐qiang Sun, Shu‐feng Li, and Xin‐feng Yan

Subjects
Acetabular dysplasia, Bernese periacetabular osteotomy, Developmental dysplasia of the hip, Outcome assessment, Orthopedic surgery, RD701-811
Abstract

Objectives To explore factors affecting the efficacy of Bernese periacetabular osteotomy for the treatment of hip dysplasia. Methods A retrospective study was conducted on 44 patients with hip dysplasia who underwent Bernese periacetabular osteotomy with a modified Smith‐Peterson approach between January 2017 and November 2019. Among them, 40 were women and four were men. The average age was 31.2 ± 9.4. Preoperative and postoperative imaging parameters were measured. The acetabular top tilt angle, lateral central edge angle, acetabular abduction angle, femoral head extrusion index, sphericity index of femoral head, Shenton line, Tonnis grade of osteoarthritis, joint congruency, p/a ratio, acetabular anteversion angle, Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC) scale scores, and modified Harris hip score (MHHS) were observed. MHHS were divided into three clinically relevant categories: poor (

Published
2021
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48. Phase I study of adjuvant immunotherapy with autologous tumor-infiltrating lymphocytes in locally advanced cervical cancer

Author

He Huang, Cai-ping Nie, Xiu-feng Liu, Bin Song, Jian-hui Yue, Jing-xiao Xu, Jia He, Kui Li, Yan-ling Feng, Ting Wan, Min Zheng, Yan-Na Zhang, Wei-Jun Ye, Jun-Dong Li, Yan-Fang Li, Jun-yun Li, Xin-Ping Cao, Zhi-min Liu, Xiao-shi Zhang, Qing Liu, Xi Zhang, Ji-Hong Liu, and Jiang Li

Subjects
Clinical trials, Oncology, Medicine
Abstract

BACKGROUND Adoptive cell therapy (ACT) with tumor-infiltrating lymphocytes (TILs) has achieved remarkable clinical efficacy in metastatic cancers such as melanoma and cervical cancer (CC). Here, we explored the safety, feasibility, and preliminary tumor response and performed translational investigations of adjuvant immunotherapy using infusion of autogenous TILs (auto-TILs) following concurrent chemoradiotherapy (CCRT) in patients with CC who had locally advanced disease.METHODS Twenty-seven patients with CC with stage III–IV disease were recruited in this single-center, phase I study. TILs were isolated from lesions in the uterine cervix and generated under good manufacturing practice (GMP) conditions and then infused after CCRT plus i.m. IL-2 injections.RESULTS TILs from 20 of the 27 patients were successfully expanded, with a feasibility of 74.1%. Twelve patients received TILs following CCRT. Adverse events (AEs) were primarily attributable to CCRT. Only 1 (8.3%) patient experienced severe toxicity with a grade 3 hypersensitivity reaction after TIL infusion. No autoimmune AEs, such as pneumonitis, hepatitis, or myocarditis, occurred, and there were no treatment-related mortalities. Nine of 12 patients (75.0%) attained a complete response, with a disease control duration of 9–22 months. Translational investigation showed that the transcriptomic characteristics of the infused TIL products and some immune biomarkers in the tumor microenvironment and serum of patients with CC at baseline were correlated with the clinical response.CONCLUSION TIL-based ACT following CCRT was safe in an academic center setting, with potentially effective responses in patients with locally advanced CC. “Hot” inflammatory immune environments were beneficial to the clinical efficacy of TIL-based ACT as adjuvant therapy.TRIAL REGISTRATION ClinicalTrials.gov NCT04443296.FUNDING National Key R&D Program; Sci-Tech Key Program of the Guangzhou City Science Foundation; the Guangdong Province Sci-Tech International Key Program; the National Natural Science Foundation of China.

Published
2022
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49. Effect of Yiqi Yangyin Huoxue Decoction combined with Conbercept on DME and its influence on TCM syndromes and serum VEGF expression

Author

Hui-Yue Sun, Ai-Xia Zhao, Hui-Rong Liu, and Hao-Yang Li

Subjects
yiqi yangyin huoxue decoction, conbercept, diabetes, macular edema, tcm syndrome, vascular endothelial growth factor, Ophthalmology, RE1-994
Abstract

AIM: To analyze the effect of Yiqi Yangyin Huoxue Decoction combined with Conbercept on diabetic macular edema(DME), and the influence on TCM syndromes and serum vascular endothelial growth factor(VEGF)expression. METHODS: Between January 2017 and June 2019, 60 patients admitted to the ophthalmology department at Henan Province Hospital of Traditional Chinese Medicine were perspective enrolled in the study. They were divided into observation group and control group by random number table method, 30 cases with 30 eyes in each group. The control group were treated with intravitreal injection of Conbercept, while the observation group were treated with Yiqi Yangyin Huoxue Decoction combined with intravitreal injection of Conbercept. Changes in TCM symptom scores, the best corrected visual acuity(BCVA), central macular thickness(CMT), retinal neovascularization(RNV)fluorescein leakage area under fundus fluorescein angiography(FFA)and VEGF expression were compared between the two groups, and complications were recorded.RESULTS: Three months after treatment, the observation group had lower scores for blurred version, dry eyes, fatigue, soreness and weakness of waist and knees, and thirst than the control group(P0.05).CONCLUSION: Yiqi Yangyin Huoxue Decoction combined with intravitreal injection of Conbercept is more effective than Conbercept alone in the treatment of DME. The former can significantly improve the patient's vision and CMT, reduce leakage area, down regulate the expression of VEGF, and promote the absorption of retinal edema, with good safety.

Published
2021
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50. Autumn Crop Yield Prediction using Data-Driven Approaches:- Support Vector Machines, Random Forest, and Deep Neural Network Methods

Author

Chaoya Dang, Ying Liu, Hui Yue, JiaXin Qian, and Rong Zhu

Subjects
Environmental sciences, GE1-350, Technology
Abstract

Accurate prediction of crop yield before harvest is critical to food security and importation. The calculated ten explanatory factors and autumn crop yield data were used as data sources in this research. Firstly, a Redundancy Analysis (RDA) was employed to carry out explanatory factors and feature selection. The simple effects of RDA were used to evaluate the interpretation rates of the explanatory factors. The conditional effects of RDA were adopted to select the features of the explanatory factors. Then, the autumn crop yield was divided into the training set and testing set with an 80/20 ratio, using Support Vector Regression (SVR), Random Forest Regression (RFR), and deep neural network (DNN) for the model, respectively. Finally, the coefficient of determination (R2), the root mean square error (RMSE), the mean absolute error (MAE), and the mean absolute percentage error (MAPE) were used to evaluate the performance of the model comprehensively. The results showed that the interpretation rates of the explanatory factors ranged from 54.3% to 85.0% (p = 0.002), which could reflect the autumn crop yields well. When a small number of sample training data (e.g., 80 samples) was used, the DNN model performed better than both SVR and RF models.

Published
2021
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