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318 results on '"Zhiliang, Huang"'

1. Uncertainty analysis and optimization of laser thermal pain treatment

Author

Honghua Liu, Chang She, Zhiliang Huang, Lei Wei, Qian Li, Han Peng, and Mailan Liu

Subjects
Medicine, Science
Abstract

Abstract Uncertainty in operating parameters during laser thermal pain treatment can yield unreliable results. To ensure reliability and effectiveness, we performed uncertainty analysis and optimization on these parameters. Firstly, we conducted univariate analysis to identify significant operational parameters. Next, an agent model using RBNN regression determined the relationship between these parameters, the constraint function, and the target function. Using interval uncertainty analysis, we obtained confidence distributions and established a nonlinear interval optimization model. Introducing RPDI transformed the model into a deterministic optimization approach. Solving this with a genetic algorithm yielded an optimal solution. The results demonstrate that this solution significantly enhances treatment efficacy while ensuring temperature control stability and reliability. Accounting for parameter uncertainties is crucial for achieving dependable and effective laser thermal pain treatment. These findings have important implications for advancing the clinical application of this treatment and enhancing patient outcomes.

Published
2023
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3. Association between obesity and short- and medium-term mortality in critically ill patients with atrial fibrillation: a retrospective cohort study

Author

Duo Yang, Shujun Ye, Kaihong Zhang, Zhiliang Huang, and Longsheng Zhang

Subjects
Obesity, Atrial fibrillation, Critically ill patients, Mortality, Body mass index, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Abstract Background There has been controversy about how obesity affects the clinical prognosis for patients with atrial fibrillation (AF), and the relationship between obesity and outcomes in critically ill patients with AF remains unclear. The purpose of this study was to explore the association between obesity and short- and medium-term mortality in critically ill patients with AF. Methods The Medical Information Mart for Intensive Care-IV (MIMIC-IV) database was used to conduct a retrospective cohort analysis on 9282 critically ill patients with AF. Patients were categorized into four groups based on their body mass index (BMI) values: underweight, normal-weight, overweight, and obese. The outcomes of this study were 30-day, 90-day, and 1-year all-cause mortality. Cox proportional-hazards models and restricted cubic spline analyses were performed to investigate the association between BMI and mortality. Results For 30-day mortality, after adjustment for all confounding factors, the hazard ratio (HR) with 95% confidence interval (CI) for the underweight, overweight, and obese categories were 1.58 (1.21, 2.07), 0.82 (0.72, 0.93), and 0.79 (0.68, 0.91), respectively, compared to the normal-weight category. Using multivariable-adjusted restricted cubic spline analysis, an “L-shaped” correlation was observed between BMI and 30-day mortality. For each 1 kg/m2 increase in BMI when BMI was less than 30 kg/m2, the risk of 30-day mortality decreased by 6.4% (HR, 95% CI: 0.936 [0.918, 0.954]; P

Published
2023
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4. Electrochemical oxidative difunctionalization of diazo compounds with two different nucleophiles

Author

Dongfeng Yang, Zhipeng Guan, Yanan Peng, Shuxiang Zhu, Pengjie Wang, Zhiliang Huang, Hesham Alhumade, Dong Gu, Hong Yi, and Aiwen Lei

Subjects
Science
Abstract

The difunctionalization of diazo compounds, traditionally with one nucleophile and one electrophile, is a powerful strategy. Here, the authors develop a path of electrochemical oxidative difunctionalization of diazo compounds with two different nucleophiles.

Published
2023
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5. On the Non-Approximate Successive Cancellation Decoding of Binary Polar Codes With Medium Kernels

Author

Zhiliang Huang, Zongsheng Jiang, Shuihong Zhou, and Xiaoyan Zhang

Subjects
Large kernel, medium kernel, polar codes, SC decoding, W-formula, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Polar codes constructed by large kernels can attain better finite length performance than those originating from Arıkan’s $2\times 2$ kernel. However, the successive cancellation (SC) decoding for these polar codes is impractical even for relatively small kernel size of $m$ because complexity of the kernel computation grows exponentially with $m$ . This research shows when $m>2$ , there exists a large amount of like terms in the kernel computation which yields a ground for facilitating the decoding. By transferring the kernel computation from the probability domain to the likelihood ratio domain ( $l$ -domain), the so- called $l$ -formula method provides an efficient way to combine the like terms in the kernel computation for kernels up to size 11. However, the $l$ -formula method becomes intractable for kernel size beyond 11. To further reduce the computational complexity, this paper proposes a $W$ -formula method which transforms the kernel computation into the probability pair domain ( $W$ -domain). Advanced from the $l$ -domain, the numerator and denominator of the likelihood ratio are considered separately, which eases the restrictions of combining like terms. The $W$ -formula method can combine much more like terms resulting in a significant reduction on the number of sub-formulas for medium kernels ( $m\leq 16$ ). Furthermore, in the $W$ -domain, sub-formulas become regular and there exist many common sub-formulas whose computations can be shared. Being able to handle kernels of size up to 16, we show that the $W$ -formula based SC decoding achieves a significant complexity reduction over the existing non-approximate SC decoding (the $l$ -formula based SC decoding).

Published
2023
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6. Frequency regulation optimization for wind storage based on frequency regulation reliability and state of charge in isolated island off‐grid

Author

Changqing Chen, Yali Wang, Kui Zhou, and Zhiliang Huang

Subjects
energy storage, frequency regulation, model predictive control, recovery of SOC, wind farm, Technology, Science
Abstract

Abstract To further improve the frequency regulation stability of wind farm, and optimize the state of charge (SOC) basepoint, charge and discharge rate and recovery capacity of energy storage. In an isolated, off‐grid state, a two‐layer optimization method is proposed, taking into account the frequency regulation reliability and SOC adaptive adjustment of the wind storage. In the upper layer, the model predictive control theory is adopted to optimize the energy‐storage frequency regulation output power with the goal of minimizing the wind storage frequency regulation power deviation. While solving the problem of low‐frequency regulation reliability of wind farm, the SOC recovery basepoint and frequency regulation power of energy storage are optimized. At the SOC optimization layer, based on the upper SOC recovery basis point, we propose a dynamic recovery method for energy‐storage SOC that considers both the SOC recovery demand and grid‐bearing capacity, to determine the energy‐storage recovery power. By determining the frequency regulation or recovery power, we propose a calculation method to optimize the energy‐storage charge and discharge coefficients as per the SOC for avoiding excessive charging and discharging. The simulation results show that, under continuous disturbance, the root‐mean‐square deviations of the proposed method is 80.13% and 62.63% lower than those of the fixed K and SOC methods, respectively. Furthermore, the proposed method exhibits the best SOC maintenance effect.

Published
2023
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7. Short-term prediction of wind power generation based on VMD-GSWOA-LSTM model

Author

Tongguang Yang, Wanting Li, Zhiliang Huang, Li Peng, and Jingyu Yang

Subjects
Physics, QC1-999
Abstract

To improve the short-term wind power output prediction accuracy and overcome the model prediction instability problem, we propose a combined prediction model based on variational modal decomposition (VMD) combined with the improved whale algorithm (GSWOA) to optimize the long short-term memory network (LSTM) short-term wind power. First, VMD is utilized to decompose the wind power input sequence into modal components of different complexities, and the components are reconstructed into subcomponents with typical characteristics through approximate entropy, which reduces the computational scale of non-smooth sequence analysis. Second, the GSWOA is used to optimize the main influencing parameters of the LSTM model in order to obtain the weights and thresholds under the optimal LSTM model and to use the reconstructed individual subsequences. Finally, the actual data from two wind farms in Xinjiang and Northeast China are taken to verify the generalizability of the proposed model. The comparative analysis of the prediction results under different scenarios demonstrates that the improved model shows higher performance than the original model.

Published
2023
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8. 1,2-Amino oxygenation of alkenes with hydrogen evolution reaction

Author

Shengzhang Liu, Shengchun Wang, Pengjie Wang, Zhiliang Huang, Tao Wang, and Aiwen Lei

Subjects
Science
Abstract

1,2-Aminoxygenation of alkenes without extra oxidant is a practical yet challenging way to prepare β-amino alcohols. Here, the authors report an electro-oxidative route achieving such a goal with H2 evolution, exhibiting broad scope and application potential.

Published
2022
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9. Dual-mode control magnetically-coupled energy storage inductor boost inverter for renewable energy

Author

Yiwen Chen, Sixu Luo, Zhiliang Huang, and Jiahui Jiang

Subjects
inter-harmonic, parameter identification, power system, synchrosqueezed transform, time-frequency analysis, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

A novel magnetically-coupled energy storage inductor boost inverter circuit for renewable energy and the dual-mode control strategy with instantaneous value feedback of output voltage are proposed. In-depth research and analysis on the circuit, control strategy, voltage transmission characteristics, etc., providing the parameter design method of magnetically-coupled energy storage inductors and output filter. The circuit topology is cascaded by the input source ��in, the input filter ��in, a single-phase inverter bridge with a magnetically-coupled energy storage inductor, and a CL filter; The control strategy serves the output voltage as a reference to achieve the switch of step-down and step-up modes smoothly. The simulation results of a 1000 VA 100–200 VDC, 220 V 50 Hz AC inverter show that the proposed inverter can realize single-stage boost power conversion, which can adapt to resistive, capacitive and inductive loads, has high power density and low output waveform distortion. It has good application prospects in small and medium-capacity single-phase inverter occasions with low input voltage.

Published
2022
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10. Discussions on non-probabilistic convex modelling for uncertain problems

Author

Bingyu, Ni, Chao, Jiang, and Zhiliang, Huang

Subjects
Statistics - Other Statistics, Mathematics - Optimization and Control
Abstract

Non-probabilistic convex model utilizes a convex set to quantify the uncertainty domain of uncertain-but-bounded parameters, which is very effective for structural uncertainty analysis with limited or poor-quality experimental data. To overcome the complexity and diversity of the formulations of current convex models, in this paper, a unified framework for construction of the non-probabilistic convex models is proposed. By introducing the correlation analysis technique, the mathematical expression of a convex model can be conveniently formulated once the correlation matrix of the uncertain parameters is created. More importantly, from the theoretic analysis level, an evaluation criterion for convex modelling methods is proposed, which can be regarded as a test standard for validity verification of subsequent newly proposed convex modelling methods. And from the practical application level, two model assessment indexes are proposed, by which the adaptabilities of different convex models to a specific uncertain problem with given experimental samples can be estimated. Four numerical examples are investigated to demonstrate the effectiveness of the present study.

Published
2017

11. Simultaneous Measurement of Microdisplacement and Temperature Based on Balloon-Shaped Structure

Author

Yaxun Zhang, Yuxin Liu, Zhiliang Huang, Pingbang Huang, Xiaoyun Tang, Zhihai Liu, Yu Zhang, and Libo Yuan

Subjects
core-offset joints, balloon-shaped single mode fiber, multimode interference, microdisplacement, temperature sensor, Chemical technology, TP1-1185
Abstract

An optical fiber sensor for the simultaneous measurement of microdisplacement and temperature based on balloon-shaped single-mode fibers cascaded with a fiber Bragg grating with two core-offset joints is proposed. The interference between the core mode and cladding mode is caused by the stimulation of the cladding mode by the core-offset joints’ structure. The cladding of the core has a distinct refractive index, which causes optical path differences and interference. The balloon-shaped structure realizes mode selection by bending. As the displacement increases, the radius of the balloon-shaped interferometer changes, resulting in a change in the interference fringes of the interferometer, while the Bragg wavelength of the fiber grating remains unchanged. Temperature changes will cause the interference fringes of the interferometer and the Bragg wavelength of the fiber grating to shift. The proposed optical fiber sensor allows for the simultaneous measurement of microdisplacement and temperature. The results of the experiment indicate that the sensitivity of the interferometer to microdisplacement is 0.306 nm/µm in the sensing range of 0 to 200 μm and that the temperature sensitivity is 0.165 nm/°C, respectively. The proposed curvature sensor has the advantages of a compact structure, extensive spectrum of dynamic measurement, high sensitivity, and simple preparation, and has a wide range of potential applications in the fields of structural safety monitoring, aviation industry, and resource exploration.

Published
2023
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12. FMAM-Net: Fusion Multi-Scale Attention Mechanism Network for Building Segmentation in Remote Sensing Images

Author

Huanran Ye, Run Zhou, Jianhao Wang, and Zhiliang Huang

Subjects
Remote sensing image, building segmentation, attention mechanism, feature refinement, encoder-decoder, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

As the largest target in remote sensing images, buildings have important application value in urban planning and old city reconstruction. However, most networks have poor recognition ability on high resolution images, resulting in blurred boundaries in the segmented building maps. Then, the similarity between buildings and backgrounds will lead to inter-class indistinction. Finally, the diversity of buildings brings difficulties to segmentation, which requires the network to have better generalization ability. To address these problems, we propose Fusion Multi-scale Attention Mechanism Network (FMAM-Net). Firstly, we design Feature Refine Compensation Module(FRCM) to improve the boundary ambiguity problem, including Feature Refinement Module(FRM) and Feature Compensation Module(FCM). FRM utilizes the densely connected architecture to refine features and increase recognition capabilities. FCM introduces low-level features to make up for the lack of boundary information in high-level features. Secondly, to handle inter-class indistinction, we design Tandem Attention Module(TAM) and Parallel Attention Module(PAM). TAM is designed to sequentially filter some features from channels and spaces for adaptive feature refinement. PAM combines context information and uses high-level features to guide low-level features to select more distinguishable features. Finally, based on the binary cross entropy loss function, we add an evaluation index to reduce the error caused by determining the optimization direction only through cross entropy. On the Inria Aerial Image Labeling Dataset, FMAM-Net achieves mean IoU of 85.34%, which is 5.58% higher than AMUNet and 3.77% higher than our baseline(U-Net ResNet-34). On the WHU Dataset, IoU reached the maximum value of 91.06% on FMAM-Net, 1.67% higher than SARB-UNet and 0.2% higher than MAP-Net. The visualization results show that FMAM-Net improves the fuzzy boundary of building segmentation and reduces the inter-class indistinction.

Published
2022
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14. Uncertainty analysis and optimization for mild moxibustion.

Author

Honghua Liu, Zhiliang Huang, Lei Wei, He Huang, Qian Li, Han Peng, and Mailan Liu

Subjects
Medicine, Science
Abstract

During mild moxibustion treatment, uncertainties are involved in the operating parameters, such as the moxa-burning temperature, the moxa stick sizes, the stick-to-skin distance, and the skin moisture content. It results in fluctuations in skin surface temperature during mild moxibustion. Existing mild moxibustion treatments almost ignore the uncertainty of operating parameters. The uncertainties lead to excessive skin surface temperature causing intense pain, or over-low temperature reducing efficacy. Therefore, the interval model was employed to measure the uncertainty of the operation parameters in mild moxibustion, and the uncertainty optimization design was performed for the operation parameters. It aimed to provide the maximum thermal penetration of mild moxibustion to enhance efficacy while meeting the surface temperature requirements. The interval uncertainty optimization can fully consider the operating parameter uncertainties to ensure optimal thermal penetration and avoid patient discomfort caused by excessive skin surface temperature. To reduce the computational burden of the optimization solution, a high-precision surrogate model was established through a radial basis neural network (RBNN), and a nonlinear interval model for mild moxibustion treatment was formulated. By introducing the reliability-based possibility degree of interval (RPDI), the interval uncertainty optimization was transformed into a deterministic optimization problem, solved by the genetic algorithm. The results showed that this method could significantly improve the thermal penetration of mild moxibustion while meeting the skin surface temperature requirements, thereby enhancing efficacy.

Published
2023
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16. Nanoscale Characterization and Impurities of Fused Silica Optical Surfaces

Author

Zuocai Dai, Sha Zhou, Zhiliang Huang, and Hao Li

Subjects
Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Fused silica is produced by melting high-purity silica and then rapidly cooling it. It has good physical and chemical properties, which also make it the raw material for most components in the optical industry, and is widely used in optical fiber communications, semiconductors, and aerospace. The content of SiO2 in fused silica is as high as 99.995% or more, but some impurities will still be generated during production and processing. The impurity elements of its optical curved surface can induce damage to the fused silica and adversely affect its performance, thereby affecting the performance of the fabricated element. In this paper, the impurities in the nanostructure of the fused silica optical surface are mainly analyzed, and the impurities on the surface are qualitatively and quantitatively analyzed by the characterization methods of secondary ion mass spectrometry (SIMS) and X-ray diffraction analysis, respectively. The main component type and content of impurities were measured. The experimental results have an important impact on the production and preparation of optical components using fused silica as raw materials, which can remove surface impurities in a targeted manner and better utilize the advantages of fused silica materials.

Published
2022
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17. Multi-Omics Analysis Reveals Disturbance of Nanosecond Pulsed Electric Field in the Serum Metabolic Spectrum and Gut Microbiota

Author

Yeping Dong, Jiahua Lu, Ting Wang, Zhiliang Huang, Xinhua Chen, Zhigang Ren, Liangjie Hong, Haiyu Wang, Dezhi Yang, Haiyang Xie, and Wu Zhang

Subjects
nanosecond pulsed electric field, liver ablation, lipid metabolism, metabonomics, gut microbiota, Microbiology, QR1-502
Abstract

Nanosecond pulsed electric field (nsPEF) is a novel ablation technique that is based on high-intensity electric voltage to achieve tumour-killing effect in the target region, and increasingly considered for treating tumours of the liver, kidneys and other organs with rich blood supply. This study aims to observe effect of nsPFE treatment on serum metabolites and gut microbiota. The serum and faecal specimens of the pigs were collected pre- and post-treatment. The gut microbiota of pigs was sequenced by Illumina Miseq platform for analysing the diversity and alterations of gut microbiota. Liquid chromatography-mass spectrometry (LC-MS)-based metabonomic analysis and Pearson coefficient method were also used to construct the interaction system of different metabolites, metabolic pathways and flora. A total of 1,477 differential metabolites from the serum were identified by four cross-comparisons of different post-operative groups with the control group. In addition, an average of 636 OTUs per sample was detected. Correlation analysis also revealed the strong correlation between intestinal bacteria and differential metabolites. The nsPEF ablation of the liver results in a degree of liver damage that affects various metabolic pathways, mainly lipid metabolism, as well as gut microbiota. In conclusion, our study provided a good point for the safety and feasibility of applying nsPEF on liver through the integrated analysis of metabolomics and microbiomes, which is beneficial for the improvement of nsPEF in clinical use.

Published
2021
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18. A Fast Two-Phase Monte Carlo Method for Constructing Polar Codes With Arbitrary Binary Kernel

Author

Shiyi Zhang, Zhiliang Huang, Geng Chen, and Ming Chen

Subjects
High-dimensional kernel, Monte Carlo, polar codes, polar code construction, two-phase Monte Carlo, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

We propose a two-phase Monte Carlo (TPMC) method to accelerate the original Monte Carlo (MC) method for constructing polar codes with high-dimensional kernels. In the TPMC method, some of the most reliable and unreliable bits are obtained by Gaussian approximate-density evolution (GA-DE) method in the first phase; in the second phase, these most reliable and unreliable bits are viewed as frozen bits. Then, the MC method are used to evaluate the remaining bits and select some best bits from the remaining bits. Finally, these best bits and the most reliable bits are combined as the information bits of the constructed polar code. By our investigation, most bits can be fixed as frozen bits in the second phase without error performance loss of the constructed polar codes. Because computation of frozen bits can be saved and computation of the GA-DE method can be ignored in contrast to that of the MC method, the TPMC method substantially reduces the complexity of the MC method. Simulation results show that 1) For a G⊗315 polar code with block length 3375 and code rate 1/2, the TPMC method can fix 3200 bits as frozen bits in the second phase without error performance loss, which reduces the computation cost by approximately 92.6% over the MC method; 2) Polar codes with high-dimensional kernels constructed by the TPMC method outperforms polar codes with the G2 kernel constructed by the Tal-Vardy method in terms of error performance; 3) With the same computational cost, the TPMC method can construct better polar codes than the MC method.

Published
2019
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28. Establishment and Validation of Nomogram Model Integrated With Inflammation-Based Factors for the Prognosis of Advanced Non-Small Cell Lung Cancer

Author

Zhiliang Huang MD, Shan Xing MD, Yuanying Zhu MD, Yuanye Qu MD, Lina Jiang MD, Jiahe Sheng MD, Qian Wang PhD, Songtao Xu PhD, and Ning Xue MD

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

Objects: Inflammation is one of the hallmarks of cancer. Tumor-associated inflammatory response plays a crucial role in enhancing tumorigenesis. This study aimed to establish an effective predictive nomogram based on inflammation factors in patients with advanced non-small cell lung cancer (NSCLC). Methods: We retrospectively evaluated 887 patients with advanced NSCLC between November 2004 and December 2015 and randomly divided them into primary (n = 520) and validation cohorts (n = 367). Cox regression analysis was used to identify prognostic factors for building the nomogram. The predictive accuracy and discriminative ability of the nomogram were determined using a concordance index (C-index), calibration plot, and decision curve analysis and were compared to the TNM staging system. Results: The nomogram was established using independent risk factors ( P < 0.05): age, TNM stage, C reaction protein-to-albumin ratio (CAR), and neutrophils (NEU). The C-index of the model for predicting OS had a superior discrimination power compared to that of the TNM staging system both in the primary [0.711 (95% CI: 0.675-0.747) vs 0.531 (95% CI: 0.488-0.574), P < 0.01] and validation cohorts [0.703, 95% CI: 0.671 -0.735 vs 0.582, 95% CI: 0.545-0.619, P < 0.01]. Decision curves also demonstrated that the nomogram had higher overall net benefits than that of the TNM staging system. Subgroup analyses revealed that the nomogram was a favorable prognostic parameter in advanced NSCLC ( P < 0.05). The results were internally validated using the validation cohorts. Conclusions: The proposed nomogram with inflammatory factors resulted in an accurate prognostic prediction in patients with advanced NSCLC.

Published
2020
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29. Combination of Plasma MIF and VCA-IgA Improves the Diagnostic Specificity for Patients With Nasopharyngeal Carcinoma

Author

Ning Xue MM, Shan Xing MM, Weiguo Ma MM, Jiahe Sheng MM, Zhiliang Huang MM, and Qingxia Xu MM

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

Introduction: The purpose of this study is to evaluate the diagnostic value of macrophage migration inhibitory factor in patients with nasopharyngeal carcinoma. Materials and Methods: The expression levels of macrophage migration inhibitory factor in nasopharyngeal carcinoma cell lines, tumor tissues, and plasma were measured by real-time polymerase chain reaction, Western blotting, enzyme-linked immunosorbent assay, and immunohistochemistry. Plasma Epstein-Barr virus viral capsid antigen was determined by immunoenzymatic techniques. Results: Both the messenger RNA and protein expression levels of macrophage migration inhibitory factor were upregulated in nasopharyngeal carcinoma cell lines and nasopharyngeal carcinoma tissues. Macrophage migration inhibitory factor in plasma was significantly elevated in patients with nasopharyngeal carcinoma compared to Epstein-Barr virus viral capsid antigen–negative and Epstein-Barr virus viral capsid antigen–positive healthy donors. The combination of macrophage migration inhibitory factor and Epstein-Barr virus viral capsid antigen was better for diagnosing nasopharyngeal carcinoma (area under receiver operating characteristic curve = 0.925, 95% CI: 0.898-0.951) than macrophage migration inhibitory factor (area under receiver operating characteristic curve = 0.778, 95% CI: 0.732-0.824) and Epstein-Barr virus viral capsid antigen. Combining macrophage migration inhibitory factor and Epstein-Barr virus viral capsid antigen had higher specificity (82.40% vs 69.96%) and higher positive predictive value (79.17% vs 67.44%) without an obvious reduction in sensitivity (95.25%) compared to Epstein-Barr virus viral capsid antigen alone. Macrophage migration inhibitory factor was highly expressed in nasopharyngeal carcinoma cell lines, whereas it was not associated with Epstein-Barr virus infection. The level of macrophage migration inhibitory factor in plasma was not related to the titer of Epstein-Barr virus viral capsid antigen. Conclusion: The combination of macrophage migration inhibitory factor and Epstein-Barr virus viral capsid antigen increases the specificity and positive predictive value of detecting nasopharyngeal carcinoma and improves the diagnostic accuracy of nasopharyngeal carcinoma in high-risk individuals.

Published
2020
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30. MAC Based Energy Efficiency in Cooperative Cognitive Radio Network in the Presence of Malicious Users

Author

Jianxin Dai, Juan Liu, Cunhua Pan, Jiangzhou Wang, Chonghu Cheng, and Zhiliang Huang

Subjects
Cooperative spectrum sensing, spectrum sensing data falsification (SSDF) attack, message authentication code, energy efficiency, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

In cognitive radio networks, cooperative spectrum sensing (CSS) is generally adopted for improving spectrum sensing accuracy to increase spectrum utilization and avoid interference with the primary users. However, some malicious secondary users (SUs) may affect the CSS performance by inducing false observation bits for fusion. The message authentication code (MAC) is a promising technique to avoid the damage from the spectrum sensing data falsification (SSDF) attacks. In this paper, as both the more spectrum sensing nodes and the MAC reporting bits result in extra energy consumption, we propose an energy efficiency model to capture the effects of the length of MAC and the number of cooperative SUs under independent and collaborative SSDF attacks, respectively, and analyze the existence of the optimal length of MAC and the optimal number of cooperative SUs that can achieve the maximum value of energy efficiency, respectively. Simulation results are provided to show that the CSS scheme based on MAC can resist SSDF attacks and the accuracy of the theoretical analysis is also validated.

Published
2018
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31. Simplified Successive Cancellation Decoding of Polar Codes With Medium-Dimensional Binary Kernels

Author

Zhiliang Huang, Shiyi Zhang, Feiyan Zhang, Chunjiang Duanmu, Farong Zhong, and Ming Chen

Subjects
Polar codes, successive cancellation decoding, high-dimensional kernel, l-formula, exponent, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

A method is proposed, called l-formula, to design efficient successive cancellation (SC) decoding of polar codes with medium-dimensional binary kernels (dimensions up to 16). Our l-formula method obtains the simplified recursive formulas of the SC decoder in the likelihood ratio domain for any binary kernel. We confirm that the complexity of the SC decoder based on l-formulas achieves considerable advantages over the straightforward SC decoder for polar codes with medium-dimensional binary kernels.

Published
2018
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34. Numerical Simulation of Temperature Distribution during Mild Moxibustion

Author

Honghua Liu, Zhiliang Huang, Lei Wei, He Huang, Qian Li, Han Peng, and Mailan Liu

Subjects
Article Subject, Complementary and alternative medicine
Abstract

Mild moxibustion is a treatment approach belonging to moxa-hanging moxibustion. The burning end of the moxa stick is kept at a fixed distance from the moxibustion skin, aiming to make the patient feel warm without burning pain. The appropriate temperature distribution is critical for the mild moxibustion treatment. The purpose of this paper is to improve the efficacy of mild moxibustion on human tissues. By combining the radiative and conductive models with surface-to-surface heat transfer, biological heat transfer simulations are realized based on biological tissues in particular media. A finite element model of mild moxibustion was established to obtain the characteristics of skin tissue temperature distribution under various conditions. The model considers multiple factors, such as the moxa-burning temperature, the stick-to-skin distance, the moxa stick sizes, and the ambient temperature. The results show that the temperature distribution under various conditions is centered at the moxibustion point and the temperature decreases in the surrounding direction. The higher the moxa-burning temperature, the higher the skin surface temperature and the worse the stability in heating. The stick-to-skin distance is inversely proportional to the skin surface temperature. The moxa stick diameter is proportional to the skin surface temperature. The longer the moxibustion time, the higher the skin surface temperature. And the temperature change gradually flattened in the late stage of mild moxibustion. Finally, a set of moxibustion conditions with optimal temperature distribution was obtained by comparing the data of all groups.

Published
2022

36. Supplemental Methods and Materials from A Phase IIa Randomized, Double-Blind Trial of Erlotinib in Inhibiting Epidermal Growth Factor Receptor Signaling in Aberrant Crypt Foci of the Colorectum

Author

Steven M. Lipkin, Daniel W. Rosenberg, Eva Szabo, Luz Maria Rodriguez, Rachel Gonzalez, Jinah Chung, Vanessa Wong, Myra Arcilla, Zhiliang Huang, Asmita Bhattacharya, Chris Tucker, Allen Mo, Wen-Pin Chen, Richard Benya, Robert Carroll, Jason A. Zell, Timothy R. Morgan, Frank L. Meyskens, and Daniel L. Gillen

Abstract

Supplemental Methods and Materials. ACF Phospho-ERK and ERK Level Quantification.

Published
2023

37. Data from A Phase IIa Randomized, Double-Blind Trial of Erlotinib in Inhibiting Epidermal Growth Factor Receptor Signaling in Aberrant Crypt Foci of the Colorectum

Author

Steven M. Lipkin, Daniel W. Rosenberg, Eva Szabo, Luz Maria Rodriguez, Rachel Gonzalez, Jinah Chung, Vanessa Wong, Myra Arcilla, Zhiliang Huang, Asmita Bhattacharya, Chris Tucker, Allen Mo, Wen-Pin Chen, Richard Benya, Robert Carroll, Jason A. Zell, Timothy R. Morgan, Frank L. Meyskens, and Daniel L. Gillen

Abstract

Colorectal cancer progresses through multiple distinct stages that are potentially amenable to chemopreventative intervention. Epidermal growth factor receptor (EGFR) inhibitors are efficacious in advanced tumors including colorectal cancer. There is significant evidence that EGFR also plays important roles in colorectal cancer initiation, and that EGFR inhibitors block tumorigenesis. We performed a double-blind randomized clinical trial to test whether the EGFR inhibitor erlotinib given for up to 30 days had an acceptable safety and efficacy profile to reduce EGFR signaling biomarkers in colorectal aberrant crypt foci (ACF), a subset of which progress to colorectal cancer, and normal rectal tissue. A total of 45 patients were randomized to one of three erlotinib doses (25, 50, and 100 mg) with randomization stratified by nonsteroidal anti-inflammatory drug (NSAID) use. There were no unanticipated adverse events with erlotinib therapy. Erlotinib was detected in both normal rectal mucosa and ACFs. Colorectal ACF phosphorylated ERK (pERK), phosphorylated EGFR (pEGFR), and total EGFR signaling changes from baseline were modest and there was no dose response. Overall, this trial did not meet is primary efficacy endpoint. Colorectal EGFR signaling inhibition by erlotinib is therefore likely insufficient to merit further studies without additional prescreening stratification or potentially longer duration of use. Cancer Prev Res; 8(3); 222–30. ©2015 AACR.

Published
2023

40. Hypoxia-induced RBBP7 promotes esophagus cancer progression by inducing CDK4 expression

Author

Renfeng, Wang, Zhiliang, Huang, Zhenyang, Lin, Borong, Chen, Xuguang, Pang, Chaoxiang, Du, and Hong, Fan

Subjects
Esophageal Neoplasms, Cell Line, Tumor, Disease Progression, Biophysics, Cyclin-Dependent Kinase 4, Humans, Retinoblastoma-Binding Protein 7, General Medicine, Hypoxia-Inducible Factor 1, alpha Subunit, Biochemistry, Cell Hypoxia, Cell Proliferation, Epigenesis, Genetic
Abstract

Hypoxia-induced epigenetic regulation calls for more effective therapeutic targets for esophageal cancer. We used GEPIA and UALCAN databases to screen survival-related and cancer stage-associated genes. Eca109 and KYSE450 esophageal cancer cell lines were cultured under normoxia, hypoxia, or CoCl-induced hypoxia conditions, which were further transfected with plasmids expressing RB binding protein 7 (RBBP7), hypoxia-inducible factor 1 (HIF1)-α, or RBBP7 shRNA. Colony formation and MTT assays were used to detect cell proliferation. Tumor sphere formation and stemness marker detection were applied to assess cell stemness. RT-PCR and western blot analysis were used to detect the relative mRNA level and protein expression, respectively. Luciferase assay was utilized to detect the direct interaction between HIF1α and RBBP7. Up-regulated RBBP7 was identified as one of the most prominent survival-related genes, which is negatively correlated with the overall survival (OS), disease recurrence-free survival (DFS), and tumor stages. Hypoxia-induced HIF1α up-regulates RBBP7 expression, which promotes esophagus cancer cell viability, proliferation, and stemness with increased cyclin-dependent kinase 4 (CDK4) expression. Luciferase reporter assay verified that HIF1α transcriptionally regulates the expression of RBBP7. We conclude that hypoxia induces high expression of RBBP7 which is at least partially mediated by HIF1α, up-regulates the expression of downstream CDK4, and thereby promotes tumor progression in esophageal cancer cells.

Published
2022

41. Selective radical cascade (4+2) annulation with olefins towards the synthesis of chroman derivatives via organo-photoredox catalysis

Author

Zhipeng Guan, Xingxing Zhong, Yayu Ye, Xiangwei Li, Hengjiang Cong, Hong Yi, Heng Zhang, Zhiliang Huang, and Aiwen Lei

Subjects
General Chemistry
Abstract

We have developed a (4 + 2) radical annulation approach for the synthesis of diverse chromans. This method is complementary to the traditional Diels–Alder [4 + 2] annulation of ortho-quinone methides and electron-rich dienophiles.

Published
2022

42. Non-heme manganese(<scp>ii</scp>) complex-catalysed oxidative cleavage of 1,2-diols via alcohol-assisted O2 activation

Author

Zhiliang Huang, Renpeng Guan, Elliot L. Bennett, and Jianliang Xiao

Subjects
Environmental Chemistry, Pollution
Abstract

A well-defined, biologically relevant Mn(ii) complex is found to catalyse the aerobic oxidative cleavage of a wide range of diverse 1,2-diols to afford valuable carbonyl compounds and five-membered heterocycles under irradiation of visible light.

Published
2022

44. Electrochemical-induced benzyl C–H amination towards the synthesis of isoindolinones via aroyloxy radical-mediated C–H activation

Author

Mingming Yu, Yuhan Gao, Lin Zhang, Yingjie Zhang, Yiyan Zhang, Hong Yi, Zhiliang Huang, and Aiwen Lei

Subjects
Environmental Chemistry, Pollution
Abstract

A novel electrochemical strategy for the synthesis of valuable isoindolinones has been developed with the use of simple o-alkylbenzoic acid and alkyl nitrile as starting materials under metal-catalyst and external oxidant-free conditions.

Published
2022

45. Label-Free Imaging of Humic Substance Bioaccumulation by Pump-Probe Microscopy

Author

Ya-Tong Zhao, Chao Wu, Shuai Yan, Chuan Wang, Zhiliang Huang, Qiao-Guo Tan, Rong Ji, Liuyan Yang, Chenghua Sun, Gennadii A. Badun, Maria G. Chernysheva, Ping Wang, and Ai-Jun Miao

Subjects
Analytical Chemistry
Abstract

Humic substances (HS) are the most abundant forms of natural organic matter on the earth surface. Comprised of decomposed plant and animal materials rich in carbon, oxygen, hydrogen, nitrogen, and sulfur complexes, HS facilitate global carbon and nitrogen cycling and the transport of anthropogenic contaminants. While it is known that HS also interact with organisms at different trophic levels to produce beneficial and harmful effects whether HS exert these biological effects through accumulation remains unknown. Current radiolabeling techniques, which only detect the amount of accumulated radiolabels, cannot visualize the transport and accumulation behavior of HS. Here, using a label-free method based on pump-probe microscopy, we show HS entered the protozoan

Published
2022

46. Influence of milling parameters on machining performances and surface quality of ZK61M magnesium alloy

Author

Chenguang Wang, Chang Chen, Zhiliang Huang, Jun Zhao, and E Yang

Abstract

The milling parameters have an important influence on machining performance and surface quality of metal materials. In this paper, the differences in machining and corrosion resistance properties of ZK61M plates under different processing parameters were analyzed by side milling. The milling process was simulated to explore the change laws of milling temperature and milling force. The hardness of machined surface was observed by Vikers hardness tester. The surface quality and the corrosion performances under different spindle speeds were observed by 3D ultra-depth of field microscope. The results showed that the milling temperature was increased with the increase of spindle speed and feed speed. The influence of spindle speed and feed speed on milling force along the milling direction and the cutter direction was significant different. The milled surface had better quality when the spindle speed increased or the feed speed decreased. The hardness standard deviation of machined surface was decreased as the surface quality became better. Besides, it was summarized that how spindle speed played a role in corrosion resistance performance by affecting residual stress and metal oxides.

Published
2022

48. A decoupling algorithm with first-order asymptotic integration for reliability-based design optimization

Author

Zhiliang Huang, Tongguang Yang, and Fangyi Li

Subjects
Mechanical engineering and machinery, TJ1-1570
Abstract

Conventional decoupling approaches usually employ first-order reliability method to deal with probabilistic constraints in a reliability-based design optimization problem. In first-order reliability method, constraint functions are transformed into a standard normal space. Extra non-linearity introduced by the non-normal-to-normal transformation may increase the error in reliability analysis and then result in the reliability-based design optimization analysis with insufficient accuracy. In this article, a decoupling approach is proposed to provide an alternative tool for the reliability-based design optimization problems. To improve accuracy, the reliability analysis is performed by first-order asymptotic integration method without any extra non-linearity transformation. To achieve high efficiency, an approximate technique of reliability analysis is given to avoid calculating time-consuming performance function. Two numerical examples and an application of practical laptop structural design are presented to validate the effectiveness of the proposed approach.

Published
2018
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