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1. Analysis of Vibration Characteristics and Influencing Factors of Complex Tread Pattern Tires Based on Finite Element Method

Author

Mengdi Xu, Yunfei Ge, Xianbin Du, and Zhaohong Meng

Subjects
radial tire, complex patterns, finite element analysis, vibration characterization, modal, Mechanical engineering and machinery, TJ1-1570
Abstract

The vibration of the tires significantly impacts a vehicle’s ride comfort and noise level; however, the current analysis of tire vibration characteristics often involves excessive simplification in their models, leading to a reduction in model accuracy. To analyze the tire vibrational properties and the influence of its design and service conditions, a combined modeling technology was developed to construct a three-dimensional (3D) finite element model of a 205/55R16 specification radial tire with intricate tread patterns. The accuracy and reliability of the simulation model was verified through vibration modal tests. Based on the vibration mode theory, the Lanczos method provided by ABAQUS was adopted to analyze the modal characteristics of the tire under free inflation and grounded conditions, and the effects of different inflation pressures, loads, operating conditions, and belt cord angles on the tire vibration characteristics were analyzed. The results indicate that grounding constraints will suppress the low order radial modal frequency of the tire and enhance the lateral modal frequency. The higher the order of the tire vibration mode, the greater the impact of inflation pressure. As the operating conditions change, the modal frequencies of all directions have the same trend of change, and as the ground load increases, the tire is prone to misalignment at lower lateral frequencies. The radial and lateral grounding modes of the tire are slightly affected by the change of the cord angle in the belt layer, but the circumferential grounding frequency decreases as the belt layer angle increases. These research findings offer a crucial foundation for the structural design of complex tread pattern tires, and also serve as a reference for addressing vibration and comfort issues encountered in the tire matching process.

Published
2024
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2. Preparation, structure, and in-vitro hypoglycemic potential of debranched millet starch-fatty acid composite resistant starch

Author

Yunfei Ge, Yu Shi, Yunjiao Wu, Chunhong Wei, and LongKui Cao

Subjects
Millet starch, Debranching, Starch-fatty acid complexes, Anti-digestion, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

Currently, the preparation methods and basic physicochemical properties of starch-FA complexes have been widely studied; however, no in-depth research on the regulatory mechanism of the digestive properties of debranched starch-unsaturated FA complexes has been conducted. Therefore, six fatty acids with different carbon chains and different degrees of unsaturation were complexed with de-branched millet starch in this research, using the microwave method. Microwave millet starch-linoleic acid complex (MPS-LOA) had the highest resistant starch (RS) content, and the structure and physicochemical properties of MPS-LOA were determined using various molecular techniques. The results indicate that MPS-LOA had a resistant starch (RS) content of 40.35% and the most notable fluorescence. The characteristic UV peaks of MPS-LOA were blue-shifted, and new IR peaks appeared. The crystalline structure changed to V-type crystals, the crystallinity increased, and the molecular weight decreased. The enthalpy and coagulability of MPS-LOA increased, and the swelling force decreased. Additionally, MPS-LOA showed enhanced α-glucosidase and α-amylase inhibition, and in-vitro hydrolysis kinetics analysis of MPS-LOA showed a hydrolysis index of 53.8 and an extended glycemic index (eGI)I of 54.6, indicating a low eGI food suitable for consumption by people with type II diabetes. These results provide a theoretical basis for the preparation of amylopectin- and starch-based foods with an anti-enzyme structure and a low glycemic index (GI).

Published
2023
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3. Quinoa bran insoluble dietary fiber-zinc chelate mediates intestinal flora structure to regulate glucose and lipid metabolism in obese rats

Author

Yunfei Ge, Chunhong Wei, Uthamapriya Rajavel Arumugam, Yunjiao Wu, and LongKui Cao

Subjects
IDF-Zn, Obese rat, Lipid metabolism, Nutrition. Foods and food supply, TX341-641
Abstract

Insoluble dietary fiber (IDF) and ZnSO4·7H2O were chelated to obtain the IDF-Zn. The Zn ion content was as high as 31.25 mg/g, which is a good source of Zn-rich products. The effects of IDF-Zn on metabolism and blood lipid levels were investigated in obese rats. Results showed that compared to IDF and organic Zn (ZnSO4·7H2O), IDF-Zn can significantly reduce the body weight, the levels of total cholesterol, triglycerides, and low-density lipoprotein cholesterol in serum, improve liver abnormal lipid sedimentation, oxidation stress state, and enhance the immunity of obese rats. Through 16S rRNA results, IDF-Zn intervention decreased the ratio of Firmicutes/Bacteroidetes and increased the abundance of probiotics (such as Lactobacillus, Muribaculaceae, and Bacteroides), and decreased the abundance of cellulolytic bacteria (such as Romboutsia and Clostridia-UCG-014). These results suggest that IDF-Zn can adjust intestinal flora structure of high-fat diet rats, promote liver health, reduce lipid deposits, and ultimately positively impact glucolipid metabolism.

Published
2023
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4. Grayscale medical image segmentation method based on 2D&3D object detection with deep learning

Author

Yunfei Ge, Qing Zhang, Yuantao Sun, Yidong Shen, and Xijiong Wang

Subjects
Grayscale medical image, Image segmentation, Deep learning, Object detection, Point cloud, Medical technology, R855-855.5
Abstract

Abstract Background Grayscale medical image segmentation is the key step in clinical computer-aided diagnosis. Model-driven and data-driven image segmentation methods are widely used for their less computational complexity and more accurate feature extraction. However, model-driven methods like thresholding usually suffer from wrong segmentation and noises regions because different grayscale images have distinct intensity distribution property thus pre-processing is always demanded. While data-driven methods with deep learning like encoder-decoder networks always are always accompanied by complex architectures which require amounts of training data. Methods Combining thresholding method and deep learning, this paper presents a novel method by using 2D&3D object detection technologies. First, interest regions contain segmented object are determined with fine-tuning 2D object detection network. Then, pixels in cropped images are turned as point cloud according to their positions and grayscale values. Finally, 3D object detection network is applied to obtain bounding boxes with target points and boxes’ bottoms and tops represent thresholding values for segmentation. After projecting to 2D images, these target points could composite the segmented object. Results Three groups of grayscale medical images are used to evaluate the proposed image segmentation method. We obtain the IoU (DSC) scores of 0.92 (0.96), 0.88 (0.94) and 0.94 (0.94) for segmentation accuracy on different datasets respectively. Also, compared with five state of the arts and clinically performed well models, our method achieves higher scores and better performance. Conclusions The prominent segmentation results demonstrate that the built method based on 2D&3D object detection with deep learning is workable and promising for segmentation task of grayscale medical images.

Published
2022
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6. Study on the influence of cornering characteristics of complex tread tires on rolling resistance based on finite element method

Author

Yunfei Ge, Yifei Yan, Xiangzhen Yan, and Zhaohong Meng

Subjects
Mechanical engineering and machinery, TJ1-1570
Abstract

The existence of tire slip angle and camber angle causes that the test results of conventional rolling resistance tester are often very different from the measured results installed on the vehicle. In addition, the test cost of rolling resistance tester with sideslip and roll is high. To solve the above problems, the effects of cornering characteristics on rolling resistance of complex tread tires were analyzed by finite element method (FEM). The numerical simulation model of a tire with complex tread patterns was established, and the reliability of the established numerical simulation model was verified by the experiments. The response relationships between tire lateral force, sideslip angle, camber angle and rolling resistance under multiple pure sideslip conditions and combined conditions were compared and analyzed, as well as the contribution rate of each tire component to rolling resistance under the corresponding conditions. The obtained research results can provide support for vehicle chassis adjustment and energy saving and consumption reduction in tire structure design.

Published
2023
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7. Effect of Fermentation Time on Molecular Structure and Physicochemical Properties of Corn Ballast Starch

Author

Chunhong Wei, Yunfei Ge, Shuting Zhao, Dezhi Liu, Junlan Jiliu, Yunjiao Wu, Xin Hu, Mingzhi Wei, Yifei Wang, Weihao Wang, Lidong Wang, and LongKui Cao

Subjects
natural fermentation, corn starch, molecular structure, functional properties, physicochemical indicators, Nutrition. Foods and food supply, TX341-641
Abstract

The effect of fermentation treatment on the surface morphology, crystal structure, molecular weight, chain length distribution, and physicochemical properties of corn starch was investigated using natural fermentation of corn ballast. The amylose content in corn ballast starch reduced at first after natural fermentation, then grew, following the same trend as solubility. There were certain erosion marks on the surfaces of fermented corn ballast starch granules. The crystalline structure of corn ballast starch remained the same, i.e., a typical A-type crystalline structure, at different fermentation times; however, the intensities of diffraction peaks were different. The weight-average molecular weight of starch first increased and then decreased after fermentation. The content of low-molecular-weight starch (peak 3) decreased from 25.59 to 24.7% and then increased to 25.76%, while the content of high-molecular-weight starch (peak 1) increased from 51.45 to 53.26%, and then decreased to 52.52%. The fermentation time showed a negative correlation with the viscosity of starch, and the pasting temperature first increased, and then decreased. Natural fermentation can be used as a technical means to produce corn starch products as a result of the experiments' findings, and future experiments will detect and analyze the bacterial structure of corn fermentation broth in order to better understand the molecular mechanism of natural fermentation affecting the structure and physicochemical properties of corn starch.

Published
2022
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8. Extending the tire dynamic model range of operating conditions based on finite element method

Author

Yunfei Ge, Yifei Yan, Xiangzhen Yan, and Zhaohong Meng

Subjects
Mechanical engineering and machinery, TJ1-1570
Abstract

Tire dynamics model is the basis of vehicle dynamic performance research, however, due to the limitation of safety and environmental conditions, the six-component physical test can not fully characterize the dynamic mechanical response characteristics of tire under special conditions such as low service inflation pressure, high load, and large range of operation temperature. To accurately describe the dynamic response of the tire under special operating conditions with the magic formula (MF) tire model, this paper combines the nonlinear finite element analysis and the experimental test. The finite element model of the tire is verified by the dynamic characteristic experiments, and the tire dynamics simulation under special operating conditions are also conducted based on the verification results. The MF tire model is modified and the parameter identification is performed for the prediction results to extend the operating conditions of the tire dynamic model. The results of the comparison show that the method proposed in this paper can realize the condition expansion of MF tire model under special conditions.

Published
2022
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9. The Effects of GABA-Rich Adzuki Beans on Glycolipid Metabolism, as Well as Intestinal Flora, in Type 2 Diabetic Mice

Author

Aiwu Zhang, Xiujie Jiang, Yunfei Ge, Qingpeng Xu, Zhijiang Li, Huacheng Tang, Dongmei Cao, and Dongjie Zhang

Subjects
type 2 diabetes, glycolipid metabolism, gut microbiota, GABA, sprouted adzuki beans, Nutrition. Foods and food supply, TX341-641
Abstract

ObjectivesIn this study, the effects of γ-aminobutyric acid (GABA)-rich sprouted adzuki beans on the glycolipid metabolism and gastrointestinal health were investigated in mice with type 2 diabetes mellitus (T2DM).MethodsMice with T2DM were subjected to dietary intervention with different doses of GABA-rich sprouted adzuki beans for 6 consecutive weeks, during which growth indicators, glycolipid metabolism, and the composition and diversity of the gut microbiota changes were observed.ResultsA high dietary intake of GABA-rich sprouted adzuki beans had a preventive effect against weight gain, significantly reduced serum levels of FBG, TG, and TC. Additionally, high dietary intake of GABA-rich sprouted adzuki beans increased the abundances of Firmicutes, Bacteroidetes, Verrucomicrobia, and Akkermansia, leading to a shift in the structure of the gut microbiota toward the dominance of probiotics with regulatory effects on glycolipid metabolism.ConclusionsGABA-rich sprouted adzuki beans can effectively control the bodyweight of mice with T2DM, maintain a balanced blood glucose level, improve glycolipid metabolism and the changes in the microbiota may mediate the anti-diabetic effect of sprouted adzuki beans.

Published
2022
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10. Effects of High-Temperature, High-Pressure, and Ultrasonic Treatment on the Physicochemical Properties and Structure of Soluble Dietary Fibers of Millet Bran

Author

Chunhong Wei, Yunfei Ge, Dezhi Liu, Shuting Zhao, Mingzhi Wei, Junchen Jiliu, Xin Hu, Zhigang Quan, Yunjiao Wu, Youtao Su, Yifei Wang, and Longkui Cao

Subjects
millet bran, physical modification, soluble dietary fiber, physicochemical properties, structure, Nutrition. Foods and food supply, TX341-641
Abstract

ObjectivesThe effects of high-temperature, high-pressure, and ultrasonic treatment on the physicochemical properties and structure of soluble dietary fibers in millet bran were studied to provide a comprehensive reference for the utilization of millet bran.MethodsDifferent physical methods were used to treat millet bran dietary fibers, and their microstructures and Fourier-transform infrared spectra before and after modification were compared. The physicochemical properties (water-holding capacity, swelling capacity, oil-holding capacity, fat-binding capacity, cation exchange capacity), total antioxidant capacity, and thermal characteristics were also analyzed.ResultsThere were no significant changes in the chemical groups of millet bran's soluble dietary fibers after modification, but cracks appeared on the surface of the fibers and the structure became loose and porous. Fiber agglomeration was observed, as well as improved thermal stability. After modification, the water-holding capacity, swelling capacity, oil-holding capacity, fat-binding capacity, and cation exchange capacity of millet bran were improved. When compared to the original soluble dietary fibers, ultrasound-treated fibers showed the most substantial improvement in all four capabilities, with increases of 140, 50, 78.1, 65.7, and 37.8%, respectively, compared with the original soluble dietary fibers (P < 0.05). The total antioxidant capacity of the ultrasound-treated fibers was found to be higher than those of the fibers that underwent the other three treatments (P < 0.05).ConclusionsThe physicochemical qualities and structural characteristics of the soluble dietary fibers in millet bran are affected by all three physical modification methods; however, the physicochemical properties of the ultrasound-treated fibers are most significantly improved.

Published
2022
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11. Effect of Natural Fermentation of Sorghum on Resistant Starch Molecular Structure and Fermentation Property

Author

YunFei Ge, WeiHao Wang, Meng Shen, ZiYue Kang, Juan Wang, ZhiGang Quan, JinLing Xiao, ShuTing Zhao, DeZhi Liu, and LongKui Cao

Subjects
Chemistry, QD1-999
Abstract

Relevant research results have suggested that fermentation can increase the content of sorghum amylose chains and their retrogradation value. Therefore, this study explored the effect of fermentation pretreatment on the yield, digestibility, molecular structure, and in vitro fermentation property of sorghum-resistant starch by conducting fermentation pretreatment of sorghum and extracting the resistant starch from fermented sorghum with pressure-heat compound enzyme method. The results were as follows. After fermentation pretreatment, the yield of sorghum-resistant starch increased, the digestibility of sorghum-resistant starch reduced, the laminated structure size on the surface of the particles became more uniform, and the stacking mode became more neat and denser. The sorghum-resistant starch prepared before and after fermentation did not produce new chemical groups, and its functional group peak remained unchanged. After fermentation, the weight-average molecular weight of sorghum-resistant starch was elevated, and the percentage content of high- and low-molecular substances increased and decreased, respectively, compared with that of the unfermented sorghum-resistant starch. The percentage content of short-chain branches in the branched chain increased, whereas that of the long-chain branches decreased; the crystallinity of sorghum-resistant starch after fermentation decreased, and the intensity of X-diffraction peak changed slightly before and after fermentation. According to the results of the in vitro fermentation experiments, the fermentation broth of sorghum-resistant starch had the highest content of butyric acid and short-chain fatty acid. Research results reveal that, after fermentation pretreatment, sorghum-resistant starch presented increased yield, more complex molecular structure, heavier molecular weight and more uniform surface morphology, more efficient butyric acid generation, and greater fermentation rate than unfermented sorghum-resistant starch.

Published
2020
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12. An Ensemble Learning Method for Robot Electronic Nose with Active Perception

Author

Shengming Li, Lin Feng, Yunfei Ge, Li Zhu, and Liang Zhao

Subjects
electronic nose, ensemble learning, active perception, Chemical technology, TP1-1185
Abstract

The electronic nose is the olfactory organ of the robot, which is composed of a large number of sensors to perceive the smell of objects through free diffusion. Traditionally, it is difficult to realize the active perception function, and it is difficult to meet the requirements of small size, low cost, and quick response that robots require. In order to address these issues, a novel electronic nose with active perception was designed and an ensemble learning method was proposed to distinguish the smell of different objects. An array of three MQ303 semiconductor gas sensors and an electrochemical sensor DART-2-Fe5 were used to construct the novel electronic nose, and the proposed ensemble learning method with four algorithms realized the active odor perception function. The experiment results verified that the accuracy of the active odor perception can reach more than 90%, even though it used 30% training data. The novel electronic nose with active perception based on the ensemble learning method can improve the efficiency and accuracy of odor data collection and olfactory perception.

Published
2021
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13. Yield and Physicochemical Properties of Soluble Dietary Fiber Extracted from Untreated and Steam Explosion-Treated Black Soybean Hull

Author

Meng Shen, Yunfei Ge, Ziyue Kang, Zhigang Quan, Juan Wang, Jinling Xiao, Weihao Wang, and Longkui Cao

Subjects
Chemistry, QD1-999
Abstract

Black soybean hull was subjected to steam explosion (SE) treatment under different conditions to improve the yield and properties of soluble dietary fiber (SDF) extract. Optimal conditions for SE treatment were found to be moisture content of 15%, pressure level of 1.0 MPa, and treatment time of 80 s. Under these conditions, the yield of SDF increased from 10.20% to 17.49%. In addition, structural and functional properties of SDF from untreated and SE-treated black soybean hull were investigated. Soluble dietary fiber extracted from SE-treated hull exhibited lower molecular weight and improved functional properties, such as cholesterol-binding capacity, when compared to SDF extracted from untreated soybean hull. In addition, SDF extracted from SE-treated black soybean hull showed a rough surface structure, while a smooth surface structure was found for SDF extracted from the untreated hull. The obtained results indicate that SE treatment can be successfully used to enhance the yield and the property of yolk cholesterol absorption of SDF adsorption of yolk cholesterol functional properties of SDF from black soybean hull.

Published
2019
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14. Antidiabetic Effects of Soluble Dietary Fiber from Steam Explosion-Modified Black Soybean Hull in Low-Dose Streptozotocin-Induced Type 2 Diabetic Mouses

Author

Meng Shen, Weihao Wang, Yunfei Ge, Ziyue Kang, Juan Wang, Zhigang Quan, Jinling Xiao, and Longkui Cao

Subjects
Chemistry, QD1-999
Abstract

This paper studies the antidiabetic effects of soluble dietary fiber (SDF) from steam explosion-modified black soybean hull in low-dose streptozotocin- (STZ-) induced type 2 diabetic mouses. Male C57/BL6 mouses were divided into 4 groups: control (nondiabetic, no SDF intake), model (diabetes only), metformin (metformin: 100 mg/kg body weight), and SDF (SDF: 600 mg/kg body weight). Four weeks post-SDF treatment, treatment of SDF decreased the weight gain of diabetic mouses, normalised the blood glucose level, and reduced the serum cholesterol, serum insulin, leptin, glucagon-like peptide, total cholesterol, triglyceride, low-density lipoprotein cholesterol, arteriosclerosis index, aspartate aminotransferase activity, and malondialdehyde. It also increased high-density lipoprotein cholesterol, adiponectin, glycopeptide peroxidase, superoxide dismutase activity and repaired the pancreatic injury of the diabetic mouses. Our research results show that SDF has the potential for use in type 2 diabetes treatment.

Published
2019
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16. ShufaNet: Classification method for calligraphers who have reached the professional level

Author

Yunfei, Ge, Changyu, Diao, Min, Li, Ruohan, Yu, Linshan, Qiu, and Duanqing, Xu

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The authenticity of calligraphy is significant but difficult task in the realm of art, where the key problem is the few-shot classification of calligraphy. We propose a novel method, ShufaNet ("Shufa" is the pinyin of Chinese calligraphy), to classify Chinese calligraphers' styles based on metric learning in the case of few-shot, whose classification accuracy exceeds the level of students majoring in calligraphy. We present a new network architecture, including the unique expression of the style of handwriting fonts called ShufaLoss and the calligraphy category information as prior knowledge. Meanwhile, we modify the spatial attention module and create ShufaAttention for handwriting fonts based on the traditional Chinese nine Palace thought. For the training of the model, we build a calligraphers' data set. Our method achieved 65% accuracy rate in our data set for few-shot learning, surpassing resNet and other mainstream CNNs. Meanwhile, we conducted battle for calligraphy major students, and finally surpassed them. This is the first attempt of deep learning in the field of calligrapher classification, and we expect to provide ideas for subsequent research., Comment: 10pages, 11 figures

Published
2021

21. The effects of quinoa bran dietary fiber on glucose and lipid metabolism and hepatic transcriptome in obese rats.

Author

Yunfei Ge, Yu Shi, Chunhong Wei, Uthamapriya, Rajavel Arumugam, Yunjiao Wu, and LongKui Cao

Subjects
*DIETARY fiber, *LIPID metabolism, *ASPARTATE aminotransferase, *QUINOA, *BRAN, *GLUCOSE metabolism, *GLUTATHIONE peroxidase
Abstract

BACKGROUND: As a complex chronic metabolic disease, obesity not only affects the quality of human life but also increases the risk of various other diseases. Therefore, it is important to investigate the molecular mechanisms and therapeutic effects of dietary interventions that counteract obesity. RESULTS: In this study, we extracted soluble (SDF) and insoluble dietary fiber (IDF) from quinoa bran using an enzymatic method and further investigated their effects on lipid metabolism and blood lipid levels in obese rats. Quinoa bran dietary fiber showed significantly reduced body weight, blood glucose level, total cholesterol, triglyceride, high-density lipoprotein cholesterol, and low-density lipoprotein cholesterol levels compared to those in the model group of obese rats. Aspartate aminotransferase and alanine aminotransferase levels were significantly lower in the IDF group, demonstrating that IDF improved liver injury more significantly than SDF, which was consistent with the analysis of liver tissue sections. IDF supplementation significantly improved the oxidation resistance of obese rats by decreasing malondialdehyde and increasing superoxide dismutase and glutathione peroxidase levels compared to the high-fat diet group levels. Transcriptome analysis showed that IDF caused hepatic changes in genes (Ehhadh, PPARα, FADS, CPT1, CPT2, SCD-1, Acadm, and CYP7A1) related to fatty acid degradation, and this result coincided with that of the gene expression validation result. CONCLUSION: Overall, our research offers crucial data for the logical development of dietary fiber from quinoa bran with nutritional purposes. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Bead-Based Multiplexed Droplet Digital Polymerase Chain Reaction in a Single Tube Using Universal Sequences: An Ultrasensitive, Cross-Reaction-Free, and High-Throughput Strategy

Author

Zhejia Gu, Tong Sun, Qingsheng Guo, Yao Wang, Yunfei Ge, Hongchen Gu, Gaolian Xu, and Hong Xu

Subjects
Fluid Flow and Transfer Processes, COVID-19 Testing, SARS-CoV-2, Process Chemistry and Technology, Aluminum Oxide, Biotin, COVID-19, Humans, Bioengineering, Streptavidin, Multiplex Polymerase Chain Reaction, Instrumentation, Fluorescent Dyes
Abstract

The multiplexed digital polymerase chain reaction (PCR) is widely used in molecular diagnosis owing to its high sensitivity and throughput for multiple target detection compared with the single-plexed digital PCR; however, current multiplexed digital PCR technologies lack efficient coding strategies that do not compromise the sensitivity and signal-to-noise (

Published
2022

27. Cyclovirobuxine D inhibits dengue virus replication by impeding the complete autophagy in a cholesterol-dependent manner

Author

Kezhen Wang, Jinyu Zhang, Yunfei Ge, Jianfeng Dai, and Chunsheng Dong

Subjects
Multidisciplinary, biology, medicine.drug_class, viruses, Autophagy, virus diseases, RNA, Dengue virus, 010502 geochemistry & geophysics, biology.organism_classification, medicine.disease_cause, 01 natural sciences, Virology, Flavivirus, medicine.anatomical_structure, Lysosome, medicine, TFEB, Antiviral drug, PI3K/AKT/mTOR pathway, 0105 earth and related environmental sciences
Abstract

Dengue virus (DENV) is the most common mosquito-borne flavivirus, and it affects millions of people globally every year. Currently, there are no approved drugs for the treatment of dengue infection. By screening a natural product library, we identified a novel compound, cyclovirobuxine D (Cvb D), that displays anti-DENV activity. Cvb D inhibits DENV replication in vitro in a dose-dependent manner and protects suckling mice against lethal DENV infection. Mechanistically, Cvb D regulates the expression of genes related to the cellular cholesterol pathway. As a result, Cvb D increases cellular cholesterol synthesis and accumulation, activates mTOR, and inhibits viral-dependent autophagy. Cvb D does not suppress autophagy initiation but impedes the nuclear translocation of the lysosome transcription factor TFEB. In addition, Cvb D restricts the replication of other positive-strand RNA viruses such as Zika virus and Coxsackievirus B3. We speculate that Cvb D could be a broad-spectrum antiviral drug candidate for use against positive-strand RNA viruses that require autophagy for optimal replication.

Published
2021

28. Dynamic analysis of an over-constrained parallel mechanism with the principle of virtual work

Author

Qin Xianrong, Qing Zhang, Yunfei Ge, Chen Miao, and Yuantao Sun

Subjects
0209 industrial biotechnology, Computer science, Applied Mathematics, Control engineering, 02 engineering and technology, Kinematics, 01 natural sciences, Computer Science Applications, Computer Science::Robotics, Mechanism (engineering), 020901 industrial engineering & automation, Control and Systems Engineering, Modeling and Simulation, 0103 physical sciences, Virtual work, 010301 acoustics, Joint (geology), Software
Abstract

This research presents the mathematical modelling of kinematic and complete dynamic analysis of a novel over-constrained parallel mechanism, which consists of two universal-prismatic-revolute joint...

Published
2021

29. Privacy-preserving clustering for big data in cyber-physical-social systems: Survey and perspectives

Author

Yunfei Ge, Samwel K. Tarus, Yaliang Zhao, Laurence T. Yang, Jinke Wang, and Jiayu Sun

Subjects
Information Systems and Management, Computer science, business.industry, 05 social sciences, Big data, Cyber-physical system, 050301 education, Cloud computing, 02 engineering and technology, Data science, Computer Science Applications, Theoretical Computer Science, Artificial Intelligence, Control and Systems Engineering, Social system, Tensor (intrinsic definition), 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, business, Cluster analysis, 0503 education, Image retrieval, Software
Abstract

Clustering technique plays a critical role in data mining, and has received great success to solve application problems like community analysis, image retrieval, personalized recommendation, activity prediction, etc. This paper first reviews the traditional clustering and the emerging multiple clustering methods, respectively. Although the existing methods have superior performance on some small or certain datasets, they fall short when clustering is performed on CPSS big data because of the high cost of computation and storage. With the powerful cloud computing, this challenge can be effectively addressed, but it brings enormous threat to individual or company’s privacy. Currently, privacy preserving data mining has attracted widespread attention in academia. Compared to other reviews, this paper focuses on privacy preserving clustering technique, guiding a detailed overview and discussion. Specifically, we introduce a novel privacy-preserving tensor-based multiple clustering, propose a privacy-preserving tensor-based multiple clustering analytic and service framework, and give an illustrated case study on the public transportation dataset. Furthermore, we indicate the remaining challenges of privacy preserving clustering and discuss the future significant research in this area.

Published
2020

30. Inhibitory effect of cyclocytidine hydrochloride on vesicular stomatitis virus infection

Author

Chenxiao Huang, Kezhen Wang, Yanmei Li, Wen Pan, Yunfei Ge, Chuyi Hou, Jinyu Zhang, Jianfeng Dai, and Qi Zhang

Subjects
Cyclocytidine hydrochloride, ANCITABINE, biology, Cytarabine, Biophysics, Vesiculovirus, General Medicine, Dengue Virus, Vesicular stomatitis Indiana virus, Virus Replication, biology.organism_classification, Antiviral Agents, Biochemistry, Virology, Dengue, Mice, Inbred C57BL, HEK293 Cells, Vesicular stomatitis virus, Animals, Humans, Vesicular Stomatitis, Inhibitory effect
Published
2020

31. A 3D reconstruction method based on multi-views of contours segmented with CNN-transformer for long bones

Author

Yunfei Ge, Qing Zhang, Yidong Shen, Yuantao Sun, and Chongyang Huang

Subjects
Biomedical Engineering, Health Informatics, General Medicine, Computer Graphics and Computer-Aided Design, Magnetic Resonance Imaging, Bone and Bones, Computer Science Applications, Radiography, Imaging, Three-Dimensional, Image Processing, Computer-Assisted, Humans, Radiology, Nuclear Medicine and imaging, Surgery, Computer Vision and Pattern Recognition, Tomography, X-Ray Computed
Abstract

In computer-assisted diagnosis for orthopedic treatment, 3D reconstruction of bones is critical. Traditional 3D imaging technologies like CT and MRI have been proposed, but their high radiation dose and the requirements for lying postures could impact the accuracy of reconstructed bones and diagnosis results. Meanwhile, methods based on bone contours always depend on prior knowledge and lack precise bone segmentation methods. To address these issues, a bone reconstruction method based on multi-views of contours is proposed, as well as a hybrid CNN-Transformer approach for bone contours segmentation.A four-step strategy is introduced including segmenting bone contours from X-ray images, calculating 3D sparse, dense point clouds based on contours, and reconstructing surface. The Trans-DetSeg approach for interest regions detection and bone segmentation is proposed for accurate contours. Besides, the mathematical description of mapping relationships between contours in different views of X-ray images is provided. Then, bone sparse and dense point clouds are generated subsequently. Based on dense point clouds and the power crust method, realistic bone models are reconstructed.Evaluated on 301 bone X-ray images and by considering p-value 0.05, the proposed Trans-Detseg approach performed better with Dice Similarity Coefficient of 0.949 and Hausdorff Distance of 26.17 than three state-of-the-art models. Furthermore, the accuracy of the bone 3D reconstruction was investigated in three tibia cases and the proposed method was verified based on comparisons of results and CT data. It was proved that increased views of X-ray images could reduce the Average Surface Distance and perfect the structure information of reconstructed bones.A new method for bone 3D reconstruction based on segmented bone contours on multi-views of X-ray images has been developed. Besides, a hybrid CNN-Transformer approach is introduced to segment bone contours. Evaluations proved the efficiency and accuracy of the proposed bone 3D reconstruction method.

Published
2021

32. Grayscale Medical Image Segmentation Method Based on 2D&3D Object Detection with Deep Learning

Author

Yidong Shen, Xijiong Wang, Sun Yuantao, Zhang Qing, and Yunfei Ge

Subjects
business.industry, Computer science, Deep learning, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Computer vision, Image segmentation, Artificial intelligence, business, Grayscale, Object detection
Abstract

Background: Grayscale medical image segmentation is the key step in clinical computer-aided diagnosis. Model-driven and data-driven image segmentation methods are widely used for their less computational complexity and more accurate feature extraction. However, model-driven methods like thresholding usually suffer from wrong segmentation and noises regions because different grayscale images have distinct intensity distribution property thus pre-processing is always demanded. While data-driven methods with deep learning like encoder-decoder networks always are always accompanied by complex architectures which require amounts of training data. Methods: Combining thresholding method and deep learning, this paper presents a novel method by using 2D&3D object detection technologies. First, interest regions contain segmented object are determined with fine-tuning 2D object detection network. Then, pixels in cropped images are turned as point cloud according to their positions and grayscale values. Finally, 3D object detection network is applied to obtain bounding boxes with target points and boxes’ bottoms and tops represent thresholding values for segmentation. After projecting to 2D images, these target points could composite the segmented object. Results: Three groups of grayscale medical images are used to evaluate the proposed image segmentation method. We obtain the IoU (DSC) scores of 0.92 (0.96), 0.88 (0.94) and 0.94 (0.94) for segmentation accuracy on different datasets respectively. Also, compared with five state of the arts and clinically performed well models, our method achieves higher scores and better performance.Conclusions: The prominent segmentation results demonstrate that the built method based on 2D&3D object detection with deep learning is workable and promising for segmentation task of grayscale medical images.

Published
2021

33. Grayscale medical image segmentation method based on 2D3D object detection with deep learning

Author

Yunfei Ge, Qing Zhang, Yuantao Sun, Yidong Shen, and Xijiong Wang

Subjects
Deep Learning, Image Processing, Computer-Assisted, Humans, Radiology, Nuclear Medicine and imaging, Diagnosis, Computer-Assisted
Abstract

BackgroundGrayscale medical image segmentation is the key step in clinical computer-aided diagnosis. Model-driven and data-driven image segmentation methods are widely used for their less computational complexity and more accurate feature extraction. However, model-driven methods like thresholding usually suffer from wrong segmentation and noises regions because different grayscale images have distinct intensity distribution property thus pre-processing is always demanded. While data-driven methods with deep learning like encoder-decoder networks always are always accompanied by complex architectures which require amounts of training data.MethodsCombining thresholding method and deep learning, this paper presents a novel method by using 2D&3D object detection technologies. First, interest regions contain segmented object are determined with fine-tuning 2D object detection network. Then, pixels in cropped images are turned as point cloud according to their positions and grayscale values. Finally, 3D object detection network is applied to obtain bounding boxes with target points and boxes’ bottoms and tops represent thresholding values for segmentation. After projecting to 2D images, these target points could composite the segmented object.ResultsThree groups of grayscale medical images are used to evaluate the proposed image segmentation method. We obtain the IoU (DSC) scores of 0.92 (0.96), 0.88 (0.94) and 0.94 (0.94) for segmentation accuracy on different datasets respectively. Also, compared with five state of the arts and clinically performed well models, our method achieves higher scores and better performance.ConclusionsThe prominent segmentation results demonstrate that the built method based on 2D&3D object detection with deep learning is workable and promising for segmentation task of grayscale medical images.

Published
2021

34. An Ensemble Learning Method for Robot Electronic Nose with Active Perception

Author

Liang Zhao, Li Zhu, Shengming Li, Yunfei Ge, and Lin Feng

Subjects
electronic nose, active perception, Active perception, genetic structures, Computer science, TP1-1185, 02 engineering and technology, Nose, Biochemistry, Article, Analytical Chemistry, Machine Learning, 0202 electrical engineering, electronic engineering, information engineering, Computer vision, Electrical and Electronic Engineering, Free diffusion, Instrumentation, Data collection, Training set, Electronic nose, business.industry, Chemical technology, 020208 electrical & electronic engineering, 020206 networking & telecommunications, Robotics, Ensemble learning, Atomic and Molecular Physics, and Optics, Smell, Odor, Odorants, Robot, ensemble learning, Perception, Artificial intelligence, business, psychological phenomena and processes
Abstract

The electronic nose is the olfactory organ of the robot, which is composed of a large number of sensors to perceive the smell of objects through free diffusion. Traditionally, it is difficult to realize the active perception function, and it is difficult to meet the requirements of small size, low cost, and quick response that robots require. In order to address these issues, a novel electronic nose with active perception was designed and an ensemble learning method was proposed to distinguish the smell of different objects. An array of three MQ303 semiconductor gas sensors and an electrochemical sensor DART-2-Fe5 were used to construct the novel electronic nose, and the proposed ensemble learning method with four algorithms realized the active odor perception function. The experiment results verified that the accuracy of the active odor perception can reach more than 90%, even though it used 30% training data. The novel electronic nose with active perception based on the ensemble learning method can improve the efficiency and accuracy of odor data collection and olfactory perception.

Published
2021

36. Optimization of deformity correction modes and their control methods for hexapod robot based external fixator

Author

Yuantao Sun, Qing Zhang, Yunfei Ge, and Xianrong Qing

Subjects
Hexapod, Fixation (surgical), Computer science, Control theory, Line (geometry), Deformity, medicine, Computer-aided, Robot, Measurement uncertainty, Kinematics, medicine.symptom
Abstract

In terms of deformity correction with hexapod robot based external fixators, there were complex types of correction modes under existing criterions which could create redundant modes and selection confusion in clinic environment. This study proposed two original deformity correction modes under optimized criterions that can help doctors choose the proper mode and get their corresponding control methods much easier. We provided the kinematics analysis for hexapod robot based external fixator. And based on that, three traditional deformity correction modes and their respective control methods were introduced. In addition, we came up with the new correction modes classification criterion which just related execution sequence of fixators fixation and parameters measurement. Then we proposed two modes including measurement first mode and operation first mode with their corresponding control methods. At the same time, a robot orthopedic simulator for bone deformities simulations was built and a computer aided tool which provide control methods with electronic prescriptions using digital twin technology was designed. Combining these tools, deformity correction simulations were finally carried out in fifteen cases under two new modes to verify their correction effectiveness. After the simulating deformity correction with hexapod external fixators under measurement first and operation first modes, deformities in all cases were corrected and bones mechanical axis were recovered as expected. The new criterion for modes selection according to the execution sequence was more in line with actual clinical demand and operation. Deformities could be corrected effectively under measurement first mode and operation first mode. Meanwhile, measurement of deformity parameters could be reduced under the operation first mode which could weaken the influence of artificial measurement error on prescription accuracy and deformity correction effect.

Published
2021

37. A facile polymer mediated dye incorporation method for fluorescence encoded microbeads with large encoding capacities

Author

Hajar Masoomi, Qingsheng Guo, Jiayu Zhang, Cang Chen, Hong Xu, Yunfei Ge, Hongchen Gu, and Yao Wang

Subjects
chemistry.chemical_classification, Materials science, Polymers, Surface Properties, Doping, Static Electricity, Metals and Alloys, General Chemistry, Polymer, Fluorescence, Catalysis, Microspheres, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry, Chemical engineering, Microscopy, Fluorescence, Materials Chemistry, Ceramics and Composites, Particle Size, Mesoporous material, Porosity, Fluorescent Dyes
Abstract

Here we report a facile dye incorporation method for fluorescence encoded microbeads, which is achieved by tuning the mixed polymer type (blank and dye-labeled polymers) and their doping ratio through electrostatic loading into mesoporous beads. This method is universal to various carriers and could render large encoding capacities.

Published
2021

38. Combating Ransomware in Internet of Things: A Games-in-Games Approach for Cross-Layer Cyber Defense and Security Investment

Author

Yunfei Ge, Yuhan Zhao, and Quanyan Zhu

Subjects
Investment strategy, Computer science, media_common.quotation_subject, computer.software_genre, Computer security, Payment, Extortion, Financial transaction, Ransomware, Malware, computer, Game theory, Vulnerability (computing), media_common
Abstract

The recent surge in ransomware attacks has threatened many critical infrastructures such as oil pipeline systems, hospitals, and industrial Internet of Things (IoT). Ransomware is a cryptoviral extortion attack that involves two phases: the cyber infection of the malware and the financial transaction of the ransom payment. As the ransomware attackers are financially motivated, the protection of the infrastructure networked systems requires a cross-layer risk analysis that not only examines the vulnerability of the cyber system but also consolidates the economics of ransom payment. To this end, this paper establishes a two-player multi-phase and multi-stage game framework to model cyber and economic phases of a ransomware attack. We use a zero-sum Markov game to capture the multi-stage penetration of ransomware in the lateral movement. A sequential-move game is proposed to model the ransom payment interactions at the second phase. Two games are composed to form a multi-phase and multi-stage game-in-games (MPMS-GiG) that enables a holistic risk assessment of ransomware in networks and a cross-layer design of cyber defense and investment strategies to mitigate the attack. We provide a complete equilibrium characterization of ransomware game and design interdependent optimal strategies for cyber protection and ransom payment. We use prospect theory to analyze the impact of human factors on equilibrium strategies. Finally, we use a prototypical industrial IoT network as a case study to corroborate the results.

Published
2021

39. Research on the Steering Stability of Autonomous Straddle Carrier

Author

Xuehua Chen, Zhili Wu, Yunfei Ge, and Qing Zhang

Subjects
Straddle, Critical speed, Electronic stability control, Computer science, Stability criterion, Control theory, Process (computing), Radius, Rollover, Stability (probability)
Abstract

Aiming at studying the relationship between steering radius and the corresponding maximum speed of straddle carrier under the steering process, a research of the steering stability is conducted in this paper. First, a stability criterion is proposed to protect the straddle carrier from rolling over in the steering process. Next, the dynamic equations of the vehicle body system are established and the change of the body rolling angle is achieved. A method is proposed to determine the critical speed of rollover under a given steering radius. Finally a simulation using Adams is performed and the accuracy of the proposed method is verified. The study provides the theoretical basis for steering stability control of autonomous straddle carrier.

Published
2019

40. Dimension- and shape-dependent thermal transport in nano-patterned thin films investigated by scanning thermal microscopy

Author

Phillip S. Dobson, Yunfei Ge, Jonathan M. R. Weaver, and Yuan Zhang

Subjects
010302 applied physics, Materials science, Mechanical Engineering, Thermal resistance, Analytical chemistry, Nanowire, Bioengineering, 02 engineering and technology, General Chemistry, Scanning thermal microscopy, 021001 nanoscience & nanotechnology, 01 natural sciences, Thermal conductivity, Heat flux, Mechanics of Materials, 0103 physical sciences, Nano, Thermal, General Materials Science, Electrical and Electronic Engineering, Composite material, 0210 nano-technology, Nanoscopic scale
Abstract

Scanning thermal microscopy (SThM) is a technique which is often used for the measurement of the thermal conductivity of materials at the nanometre scale. The impact of nano-scale feature size and shape on apparent thermal conductivity, as measured using SThM, has been investigated. To achieve this, our recently developed topography-free samples with 200 and 400 nm wide gold wires (50 nm thick) of length of 400-2500 nm were fabricated and their thermal resistance measured and analysed. This data was used in the development and validation of a rigorous but simple heat transfer model that describes a nanoscopic contact to an object with finite shape and size. This model, in combination with a recently proposed thermal resistance network, was then used to calculate the SThM probe signal obtained by measuring these features. These calculated values closely matched the experimental results obtained from the topography-free sample. By using the model to analyse the dimensional dependence of thermal resistance, we demonstrate that feature size and shape has a significant impact on measured thermal properties that can result in a misinterpretation of material thermal conductivity. In the case of a gold nanowire embedded within a silicon nitride matrix it is found that the apparent thermal conductivity of the wire appears to be depressed by a factor of twenty from the true value. These results clearly demonstrate the importance of knowing both probe-sample thermal interactions and feature dimensions as well as shape when using SThM to quantify material thermal properties. Finally, the new model is used to identify the heat flux sensitivity, as well as the effective contact size of the conventional SThM system used in this study.

Published
2017

41. Quantification of probe-sample interactions of a scanning thermal microscope using a nanofabricated calibration sample having programmable size

Author

Yunfei Ge, Yuan Zhang, Jamie A. Booth, Jonathan M. R. Weaver, and Phillip S. Dobson

Subjects
Microscope, Materials science, Steady State theory, Bioengineering, 02 engineering and technology, Scanning thermal microscopy, 01 natural sciences, law.invention, Radius of curvature (optics), Optics, law, 0103 physical sciences, Thermal, Calibration, General Materials Science, Electrical and Electronic Engineering, 010302 applied physics, Thermal contact conductance, business.industry, Mechanical Engineering, General Chemistry, 021001 nanoscience & nanotechnology, Sample (graphics), Mechanics of Materials, 0210 nano-technology, business
Abstract

We report a method for quantifying scanning thermal microscopy (SThM)\ud probe-sample thermal interactions in-air using a novel temperature calibration device.\ud This new device has been designed, fabricated and characterized using SThM to provide\ud an accurate and spatially variable temperature distribution that can be used as a\ud temperature reference due to its unique design. The device was characterized by means\ud of a microfabricated SThM probe operating in passive mode. This data was interpreted\ud using a heat transfer model, built to describe the thermal interactions during a SThM\ud thermal scan. This permitted the thermal contact resistance between the SThM tip and\ud the device to be determined as 8.33 × 105 K/W. It also permitted the probe-sample\ud contact radius to be clarified as being the same size as the probe’s tip radius of curvature.\ud Finally, the data was used in the construction of a lumped-system steady state model\ud for the SThM probe and its potential applications were addressed.

Published
2016

42. Influence of Fluidized Bed Jet Milling on Structural and Functional Properties of Normal Maize Starch

Author

Qingyu Yang, Yunfei Ge, Lidong Wang, Ahmed S.M. Saleh, Zhigang Xiao, Peng Wang, Wang Na, and Shu Yang

Subjects
Jet (fluid), 0404 agricultural biotechnology, Materials science, Chemical engineering, Fluidized bed, Organic Chemistry, 04 agricultural and veterinary sciences, 02 engineering and technology, 021001 nanoscience & nanotechnology, 0210 nano-technology, 040401 food science, Maize starch, Food Science
Published
2018

43. Equidistribution of closed orbits of billiard flows on the plane

Author

Zhengjie Zhang, Yunfei Ge, and Hongqiang Xia

Subjects
Nonlinear Sciences::Chaotic Dynamics, Mathematics::Dynamical Systems, Flow (mathematics), Plane (geometry), General Mathematics, Mathematical analysis, Visibility (geometry), Regular polygon, General Physics and Astronomy, Boundary (topology), Geometry, Dynamical billiards, Mathematics
Abstract

The authors consider the billiard system with finitely many convex scatters with smooth boundary satisfying the visibility assumption on the plane and prove that the closed orbits for the billiard flow is uniformly distributed.

Published
2007

44. Topography-free sample for thermal spatial response measurement of scanning thermal microscopy

Author

Yuan Zhang, Jonathan M. R. Weaver, Haiping Zhou, Phillip S. Dobson, and Yunfei Ge

Subjects
Materials science, Fabrication, business.industry, Process Chemistry and Technology, Scanning capacitance microscopy, Scanning thermal microscopy, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Scanning probe microscopy, Thermal conductivity, Optics, Materials Chemistry, Scanning ion-conductance microscopy, Electrical and Electronic Engineering, business, Instrumentation, Lithography, Vibrational analysis with scanning probe microscopy
Abstract

A novel fabrication technique is described for the production of multimaterial, lithographically defined, topography-free samples for use in experiments to investigate the nature of contrast in scanning probe microscopy (SPM). The approach uses a flat sacrificial substrate as the base for fabrication, which is deleted in the final step. This leaves an exposed, flat surface with patterns of materials contrast defined during the lithography stages. In the example application presented, these are designed to challenge the detection ability of a scanning thermal microscopy (SThM) probe, although many other applications can be envisioned. There are many instances in SPM where images can exhibit topographically induced artifacts. In SThM, these can result in a change of the thermal signal which can easily be misinterpreted as changes in the sample thermal conductivity or temperature. The elimination of these artifacts through postprocessing requires a knowledge of how the probe responds thermal features of differing sizes. The complete sample fabrication process, followed by successful topographic/thermal scanning is demonstrated, showing sub-1.5 nm topography with a clear artifact-free thermal signal from sub-100 nm gold wires. The thermal spatial resolution is determined for the sample materials and probe used in this study to be in the range of 35–75 nm.

Published
2015

45. Positive MACC1 expression correlates with invasive behaviors and postoperative liver metastasis in colon cancer

Author

Yunfei, Ge, Xiangrui, Meng, Yong, Zhou, Jianliang, Zhang, and Yinlu, Ding

Subjects
Original Article
Abstract

Objective: Metastasis-associated in colon cancer-1 (MACC1), a new gene associated with primary and metastatic colon cancer, promotes tumor cell growth as well as the development of distant metastasis. The aim of this study is to investigate the expression of MACC1 protein in colon cancer and its association with clinicopathological parameters and postoperative liver metastasis. Materials and Methods: Expression of MACC1 protein was detected immunohistochemically in paraffin-embedded specimens of 96 cases of colon cancer. Relationship between MACC1 protein expression and clinicopathological parameters, postoperative liver metastasis were analyzed. Results: Immunohistochemistry examination showed that MACC1 protein expression was significantly more abundant in colon cancer tissues than in normal colon tissues (P = 0.038), Positive rate of MACC1 expression in colon cancer tissues was increased significantly in patients with lymph node metastases (P = 0.001) and higher T stages (P = 0.006). Postoperative live metastasis-free survival period was significantly longer in negative MACC1 expression group than that of positive MACC1 expression group (36.4 ± 2.85 vs. 28.6 ± 2.02 months, P = 0.014). Multivariate analysis showed that MACC1 expression level is an independent prognostic factor for postoperative live metastasis-free survival (95% confidence interval [CI] =1.32-3.38, P = 0.006). Conclusions: Our results suggest that MACC1 expression level might play an important role in colon cancer invasion and MACC1 expression level is an independent biomarker for postoperative liver metastasis in patients with colon cancer.

Published
2014

46. Extending GeNIe for building graphical decision-theoretic models

Author

Sheng-Min Cui, Lihua Zhou, Ming Yang, and Yunfei Ge

Subjects
Theoretical computer science, Computer science, business.industry, Probabilistic logic, Communication diagram, Influence diagram, Interval (mathematics), Artificial intelligence, Decision problem, business
Abstract

The influence diagram is a graph model for solving complex decision problems based on uncertain information. In order to deal with various decision problems, many new types of influence diagram have been developed. In this paper, we extend GeNIe, a development environment for building graphical decision-theoretic models, by using the library of functions (SMILE) for graphical probabilistic and decision-theoretic models, and thus GeNIe can model and evaluate the qualitative influence diagram with weights and the influence diagram with interval parameters.

Published
2013

47. Activation of TAF9 via Danshensu-Induced Upregulation of HDAC1 Expression Alleviates Non-alcoholic Fatty Liver Disease

Author

Ruiwen Wang, Zhecheng Wang, Ruimin Sun, Rong Fu, Yu Sun, Meiyang Zhu, Yunfei Geng, Dongyan Gao, Xiaofeng Tian, Yan Zhao, and Jihong Yao

Subjects
NAFLD, TAF9, HDAC1, Danshensu, FATTY ACID β-OXIDATION, LD accumulation, Therapeutics. Pharmacology, RM1-950
Abstract

Fatty acid β-oxidation is an essential pathogenic mechanism in nonalcoholic fatty liver disease (NAFLD), and TATA-box binding protein associated factor 9 (TAF9) has been reported to be involved in the regulation of fatty acid β-oxidation. However, the function of TAF9 in NAFLD, as well as the mechanism by which TAF9 is regulated, remains unclear. In this study, we aimed to investigate the signaling mechanism underlying the involvement of TAF9 in NAFLD and the protective effect of the natural phenolic compound Danshensu (DSS) against NAFLD via the HDAC1/TAF9 pathway. An in vivo model of high-fat diet (HFD)-induced NAFLD and a palmitic acid (PA)-treated AML-12 cell model were developed. Pharmacological treatment with DSS significantly increased fatty acid β-oxidation and reduced lipid droplet (LD) accumulation in NAFLD. TAF9 overexpression had the same effects on these processes both in vivo and in vitro. Interestingly, the protective effect of DSS was markedly blocked by TAF9 knockdown. Mechanistically, TAF9 was shown to be deacetylated by HDAC1, which regulates the capacity of TAF9 to mediate fatty acid β-oxidation and LD accumulation during NAFLD. In conclusion, TAF9 is a key regulator in the treatment of NAFLD that acts by increasing fatty acid β-oxidation and reducing LD accumulation, and DSS confers protection against NAFLD through the HDAC1/TAF9 pathway.

Published
2021
Full Text
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48. Topography-free sample for thermal spatial response measurement of scanning thermal microscopy.

Author

Yunfei Ge, Yuan Zhang, Weaver, Jonathan M. R., Haiping Zhou, and Dobson, Phillip S.

Subjects
NANOFABRICATION, ELECTRON beam lithography, THERMAL conductivity measurement, THERMAL conductivity, OPTICAL resolution
Abstract

A novel fabrication technique is described for the production of multimaterial, lithographically defined, topography-free samples for use in experiments to investigate the nature of contrast in scanning probe microscopy (SPM). The approach uses a flat sacrificial substrate as the base for fabrication, which is deleted in the final step. This leaves an exposed, flat surface with patterns of materials contrast defined during the lithography stages. In the example application presented, these are designed to challenge the detection ability of a scanning thermal microscopy (SThM) probe, although many other applications can be envisioned. There are many instances in SPM where images can exhibit topographically induced artifacts. In SThM, these can result in a change of the thermal signal which can easily be misinterpreted as changes in the sample thermal conductivity or temperature. The elimination of these artifacts through postprocessing requires a knowledge of how the probe responds thermal features of differing sizes. The complete sample fabrication process, followed by successful topographic/thermal scanning is demonstrated, showing sub-1.5 nm topography with a clear artifact-free thermal signal from sub-100 nm gold wires. The thermal spatial resolution is determined for the sample materials and probe used in this study to be in the range of 35-75 nm. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

49. Dimension- and shape-dependent thermal transport in nano-patterned thin films investigated by scanning thermal microscopy.

Author

Yunfei Ge, Yuan Zhang, Jonathan M R Weaver, and Phillip S Dobson

Subjects
*THERMAL conductivity, *THERMAL resistance, *TOPOGRAPHY
Abstract

Scanning thermal microscopy (SThM) is a technique which is often used for the measurement of the thermal conductivity of materials at the nanometre scale. The impact of nano-scale feature size and shape on apparent thermal conductivity, as measured using SThM, has been investigated. To achieve this, our recently developed topography-free samples with 200 and 400 nm wide gold wires (50 nm thick) of length of 400–2500 nm were fabricated and their thermal resistance measured and analysed. This data was used in the development and validation of a rigorous but simple heat transfer model that describes a nanoscopic contact to an object with finite shape and size. This model, in combination with a recently proposed thermal resistance network, was then used to calculate the SThM probe signal obtained by measuring these features. These calculated values closely matched the experimental results obtained from the topography-free sample. By using the model to analyse the dimensional dependence of thermal resistance, we demonstrate that feature size and shape has a significant impact on measured thermal properties that can result in a misinterpretation of material thermal conductivity. In the case of a gold nanowire embedded within a silicon nitride matrix it is found that the apparent thermal conductivity of the wire appears to be depressed by a factor of twenty from the true value. These results clearly demonstrate the importance of knowing both probe-sample thermal interactions and feature dimensions as well as shape when using SThM to quantify material thermal properties. Finally, the new model is used to identify the heat flux sensitivity, as well as the effective contact size of the conventional SThM system used in this study. [ABSTRACT FROM AUTHOR]

Published
2017
Full Text
View/download PDF

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