Your search keyword '"Zefeng Wang"' showing total 755 results

1. 4.8-μm CO-filled hollow-core silica fiber light source

Author

Xuanxi Li, Linyong Yang, Zhiyue Zhou, Zhixian Li, Hao Li, Wenxi Pei, Wei Huang, Jing Shi, Luohao Lei, Meng Wang, and Zefeng Wang

Subjects

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

Abstract

Abstract Mid-infrared (MIR) fiber lasers are important for a wide range of applications in sensing, spectroscopy, imaging, defense, and security. Some progress has been made in the research of MIR fiber lasers based on soft glass fibers, however, the emission range of rare-earth ions and the robustness of the host materials are still a major challenge for MIR fiber lasers. The large number of gases provide a variety of optical transitions in the MIR band. When combined with recent advances in low-loss hollow-core fiber (HCF), there is a great opportunity for gas-filled fiber lasers to further extend the radiation to the MIR region. Here, a 4.8-μm CO-filled silica-based HCF laser is reported for the first time. This is enabled by an in-house manufactured broadband low-loss HCF with a measured loss of 1.81 dB/m at 4.8 μm. A maximum MIR output power of 46 mW and a tuning range of 180 nm (from 4644 to 4824 nm) are obtained by using an advanced 2.33-μm narrow-linewidth fiber laser. This demonstration represents the longest-wavelength silica-based fiber laser to date, while the absorption loss of bulk silica at 4824 nm is up to 13, 000 dB/m. Further wavelength expansion could be achieved by changing the pump absorption line and optimizing the laser structure.

Published

2024

2. Metabolic labeling based methylome profiling enables functional dissection of histidine methylation in C3H1 zinc fingers

Author

Keyun Wang, Li Zhang, Sirui Zhang, Ye Liu, Jiawei Mao, Zhen Liu, Lin Xu, Kejia Li, Jianshu Wang, Yanni Ma, Jiayi Wang, Haitao Li, Zefeng Wang, Guohui Li, Hong Cheng, and Mingliang Ye

Subjects

Science

Abstract

Abstract Protein methylation is a functionally important post-translational modification that occurs on diverse amino acid residues. The current proteomics approaches are inefficient to discover the methylation on residues other than Arg and Lys, which hinders the deep understanding of the functional role of rare protein methylation. Herein, we present a methyl-specific metabolic labeling approach for global methylome mapping, which enable the acquisition of methylome dataset covering diverse methylation types. Interestingly, of the identified methylation events, His methylation is found to be preferably occurred in C3H1 zinc fingers (ZFs). These His methylation events are determined to be Nπ specific and catalyzed by CARNMT1. The His methylation is found to stabilize the structure of ZFs. U2AF1 is used as a proof-of-concept to highlight the functional importance of His methylation in ZFs in RNA binding and RNA metabolism. The results of this study enable novel understanding of how protein methylation regulates cellular processes.

Published

2024

3. Kinematic differences between female national and provincial athletes in the tennis serve

Author

Yan Chen, Tianyang Wang, Yuyan Zhao, Genghao Zhan, Yinchao Tang, and Zefeng Wang

Subjects

Tennis serve, High-speed video analysis, Kinematics, Differences, Medicine, Biology (General), QH301-705.5

Abstract

Background Tennis, the second-largest ball game in the world, has a particularly wide audience. To date, little research has been conducted on the biomechanics of female serves. Purpose The purpose of this study was to capture the key moments by using 1,000 frames/s high-speed video analysis, to analyze the kinematics of the serving techniques of national athletes and provincial athletes, to determine the differences between the two levels of athletes, and to provide theoretical references for the improvement of scientific training level. Methods Ten female athletes were selected as participants for this study, five of whom are national athletes, and the other are provincial athletes. Three-dimensional filming techniques were employed to capture videos of the first and second serve techniques. Simi Motion was applied to obtain the 3D kinematic data. Statistical analyses were performed using IBM SPSS Statistics 27.0, and Mann–Whitney U tests were conducted to determine differences between groups. Results Significant differences in kinematics were found between national and provincial athletes. At the moment of the left knee’s minimum flexion (T2), in the first serve, national athletes had a smaller shoulder-hip vertical plane angle (−18.281 ± 6.142° vs. −25.631 ± 3.497°; p = 0.047) and a larger hip vertical plane rotation angle (−9.378 ± 4.263° vs. −0.470 ± 4.724°; p = 0.047). In the second serve, national athletes had a smaller hip horizontal plane rotation angle (−1.720 ± 4.683° vs. 24.146 ± 24.014°; p = 0.047) but a larger hip vertical plane rotation angle (−11.553 ± 1.949° vs. −0.422 ± 4.958°; p = 0.009). At the moment of impact (T4), in the second serve, national athletes’ batting position (0.296 ± 0.088 m vs. 0.446 ± 0.094 m; p = 0.047) was further back. Additionally, in the second serve, national athletes consistently had their body center of gravity further back at T2 (−0.106 ± 0.052 m vs. −0.018 ± 0.048 m; p = 0.028), T3 (0.002 ± 0.038 m vs. 0.132 ± 0.039 m; p = 0.009), and T4 (0.073 ± 0.050 m vs. 0.217 ± 0.034 m; p = 0.009). Conclusions The results of this study indicated several significant kinematic differences between national and provincial athletes, these variations were noted in the shoulder, hip, and body center of gravity. In summary, for the overall first and second serves, it is recommended that national athletes increase the horizontal plane angle of the shoulders and hips at T2, whereas provincial athletes decrease the horizontal plane angle of the shoulder–hip. In addition, provincial athletes need to increase the vertical plane angle of the hip joint, so that the top of the hip can be increased more, and provincial athletes need to be careful not to have the center of gravity too far in front of the body at T2, T3, and T4, so that it can hit the ball at a higher position to increase the swing speed.

Published

2024

4. Detecting five-pattern personality traits using eye movement features for observing emotional faces

Author

Ying Yu, Qingya Lu, Xinyue Wu, Zefeng Wang, Chenggang Zhang, Xuanmei Wu, and Cong Yan

Subjects

eye tracking, five-pattern personality traits, machine learning, emotional faces, personality prediction, Psychology, BF1-990

Abstract

The five-pattern personality traits rooted in the theory of traditional Chinese medicine (TCM) have promising prospects for clinical application. However, they are currently assessed using a self-report scale, which may have certain limitations. Eye tracking technology, with its non-intrusive, objective, and culturally neutral characteristics, has become a powerful tool for revealing individual cognitive and emotional processes. Therefore, applying this technology for personality assessment is a promising approach. In this study, participants observed five emotional faces (anger, happy, calm, sad, and fear) selected from the Chinese Facial Affective Picture System. Utilizing artificial intelligence algorithms, we evaluated the feasibility of automatically identifying different traits of the five-pattern personality traits from participants’ eye movement patterns. Based on the analysis of five supervised learning algorithms, we draw the following conclusions: The Lasso feature selection method and Logistic Regression achieve the highest prediction accuracy for most of the traits (TYa, SYa, SYi, TYi). This study develops a framework for predicting five-pattern personality traits using eye movement behavior, offering a novel approach for personality assessment in TCM.

Published

2024

5. Bone marrow lesion and 5-year incident joint surgery in patients with knee osteoarthritis: a retrospective cohort study

Author

Liang Lin, Jinshan Zhang, Hongyi Zhu, Zefeng Wang, Xiaofeng Liu, Yongquan Xu, Yangzhen Fang, Zhenyu Lin, and Yongqiang Zheng

Subjects

Knee osteoarthritis, Bone marrow lesion, Joint surgery, Association, Predictive value, Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background It is beneficial for society to discover the risk factors associated with surgery and to carry out some early interventions for patients with these risk factors. Few studies specifically explored the relationship between bone marrow lesions (BMLs) and long-term incident joint surgery. Objective To investigate the association between BML severity observed in knee osteoarthritis (OA) patients’ first MRI examination and incident knee surgery within 5 years. Additionally, to assess the predictive value of BMLs for the incident knee surgery. Design Retrospective cohort study. Methods We identified patients diagnosed with knee OA and treated at our institution between January 2015 and January 2018, and retrieved their baseline clinical data and first MRI examination films from the information system. Next, we proceeded to determine the Max BML grades, BML burden grades and Presence BML grades for the medial, lateral, patellofemoral, and total compartments, respectively. Multi-variable logistic regression models examined the association of the BML grades with 5-year incident knee surgery. Positive and negative predictive values (PPVs and NPVs) were determined for BML grades referring to 5-year incident knee surgery. Results Totally, 1011 participants (knees) were found eligible to form the study population. Within the 5 years, surgery was performed on 74 knees. Max BML grade 2 and grade 3 of medial, patellofemoral and total compartments were strongly and significantly associated with incident surgery. None of the BML grades from lateral compartment was associated with incident surgery. The PPV was low and NPV was high for BMLs. Conclusions BMLs found in the first MRI examination were associated with 5-year incident joint surgery, except for those allocated in lateral compartments. The high NPVs imply that patients without BMLs have a low risk of requiring surgery within 5 years.

Published

2024

6. Adsorption and diffusion behavior of ammonium on bentonite modified loess liners

Author

Bao WANG, Jiajia ZHU, Di ZHANG, Juanjuan WANG, and Zefeng WANG

Subjects

loess, bentonite, ammonium, adsorption, diffusion, Geology, QE1-996.5

Abstract

Bentonite-modified loess has been used as bottom liner material for municipal waste landfills. However, because the diffusion and adsorption behavior of pollutants was not determined, the performance of the bentonite-modified losses could not evaluated. Two bentonite-modified loess liners were tested in the present study, containing 15% bentonite and 30% (by weight) bentonite, respectively. A series of batch adsorption and diffusion tests were conducted to examine the adsorption and diffusion behavior of ammonium in bentonite-modified loess liner. The test results show that the addition of 15% bentonite could not increase the adsorption capacity of ammonium on the modified liner, whereas it could decrease the diffusion coefficients of ammonium in the modified loess liner by about 400%. When 30% bentonite was added, the adsorption capacity of ammonium on the modified liner increased by a factor of 1.25, whereas, the diffusion coefficient dropped by about 420%. Pollute v7.0 model results show that it would produce 3.50～4.75 times errors if the diffusion behavior of pollutants were not taken into account when estimating the performance of the bentonite-modified liner. Whereas, there would be 334～382 times errors in the estimating of the modified liner performance if the adsorption behavior of pollutant was not considered. The results of the present study provide parameters for the evaluation of bentonite-modified loess liner performance.

Published

2024

7. EXO1/P53/SREBP1 axis-regulated lipid metabolism promotes prostate cancer progression

Author

Zefeng Wang, Zheng Chao, Qi Wang, Fan Zou, Tianbao Song, Lizhe Xu, Jinzhuo Ning, and Fan Cheng

Subjects

Prostate cancer, Lipid metabolism, EXO1, P53, Biomarker, Medicine

Abstract

Abstract Prostate cancer (PCa) is one of the most common malignant tumors affecting the male genitourinary system. However, there is currently a lack of effective treatments for patients with advanced prostate cancer, which significantly impacts men’s overall health. Exonuclease 1 (EXO1), a protein with mismatch repair and recombination functions, has been found to play a vital role in various diseases. In our study, we discovered that EXO1 acts as a novel biomarker of PCa, which promotes prostate cancer progression by regulating lipid metabolism reprogramming in prostate cancer cells. Mechanistically, EXO1 promotes the expression of SREBP1 by inhibiting the P53 signaling pathway. In summary, our findings suggest that EXO1 regulated intracellular lipid reprogramming through the P53/SREBP1 axis, thus promoting PCa progression. The result could potentially lead to new insights and therapeutic targets for diagnosing and treating PCa.

Published

2024

8. Direct-to-biology, automated, nano-scale synthesis, and phenotypic screening-enabled E3 ligase modulator discovery

Author

Zefeng Wang, Shabnam Shaabani, Xiang Gao, Yuen Lam Dora Ng, Valeriia Sapozhnikova, Philipp Mertins, Jan Krönke, and Alexander Dömling

Subjects

Science

Abstract

Abstract Thalidomide and its analogs are molecular glues (MGs) that lead to targeted ubiquitination and degradation of key cancer proteins via the cereblon (CRBN) E3 ligase. Here, we develop a direct-to-biology (D2B) approach for accelerated discovery of MGs. In this platform, automated, high throughput, and nano scale synthesis of hundreds of pomalidomide-based MGs was combined with rapid phenotypic screening, enabling an unprecedented fast identification of potent CRBN-acting MGs. The small molecules were further validated by degradation profiling and anti-cancer activity. This revealed E14 as a potent MG degrader targeting IKZF1/3, GSPT1 and 2 with profound effects on a panel of cancer cells. In a more generalized view, integration of automated, nanoscale synthesis with phenotypic assays has the potential to accelerate MGs discovery.

Published

2023

9. Progress of Conductivity and Conduction Velocity Measured in Human and Animal Hearts

Author

Zhenyin Fu, Ruiqing Dong, Huanyong Zheng, Zefeng Wang, Boyang Cao, Jinghui Bai, Mingxia Ma, Zhanchun Song, Fuzhi Pan, Ling Xia, Yongquan Wu, Shijie Zhou, and Dongdong Deng

Subjects

isthmus, outer loop, conduction velocity, conductivity, anisotropic ratio, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Cardiac conduction velocity (CV) is a critical electrophysiological characteristic of the myocardium, representing the speed at which electrical pulses propagate through cardiac tissue. It can be delineated into longitudinal, transverse, and normal components in the myocardium. The CV and its anisotropy ratio are crucial to both normal electrical conduction and myocardial contraction, as well as pathological conditions where it increases the risk of conduction block and reentry. This comprehensive review synthesizes longitudinal and transverse CV values from clinical and experimental studies of human infarct hearts, including findings from the isthmus and outer loop, alongside data derived from animal models. Additionally, we explore the anisotropic ratio of conductivities assessed through both animal and computational models. The review culminates with a synthesis of scientific evidence that guides the selection of CV and its corresponding conductivity in cardiac modeling, particularly emphasizing its application in patient-specific cardiac arrhythmia modeling.

Published

2024

10. Atrial lead perforation early after device implantation—a case report and literature review

Author

Zefeng Wang, Zhongyu Yuan, Haiwei Li, Ke Zhang, Hongkai Zhang, Xiaoyan Li, Changhua Wang, Yilun Tian, Yiqing Shen, Xiaoping Zhang, and Yongquan Wu

Subjects

pacemaker complications, atrial perforation, active fixation, cardiac perforation, active fixation lead, Surgery, RD1-811

Abstract

We report three patients with screw-in lead perforation in the right atrial free wall not long after device implantation. All the patients complained of intermittent stabbing chest pain associated with deep breathing during the implantation. The “dry” epicardial puncture was utilized to avoid hemopericardium during lead extraction in the first case. The atrial electrode was repositioned in all cases and replaced by a new passive fixation lead in two patients with resolution of the pneumothorax or pericardial effusion. A literature review of 50 reported cases of atrial lead perforation was added to the findings in our case report.

Published

2024

11. mRNA therapeutics: New vaccination and beyond

Author

Huan-Huan Wei, Liangliang Zheng, and Zefeng Wang

Subjects

mRNA therapeutics, mRNA medicine, mRNA vaccine, Protein-replacement therapy, Circular RNA, RNA delivery, Science (General), Q1-390

Abstract

The idea of mRNA therapy had been conceived for decades before it came into reality during the Covid-19 pandemic. The mRNA vaccine emerges as a powerful and general tool against new viral infections, largely due to its versatility and rapid development. In addition to prophylactic vaccines, mRNA technology also offers great promise for new applications as a versatile drug modality. However, realizing the conceptual potential faces considerable challenges, such as minimal immune stimulation, high and long-term expression, and efficient delivery to target cells and tissues. Here we review the applications of mRNA-based therapeutics, with emphasis on the innovative design and future challenges/solutions. In addition, we also discuss the next generation of mRNA therapy, including circular mRNA and self-amplifying RNAs. We aim to provide a conceptual overview and outlook on mRNA therapeutics beyond prophylactic vaccines.

Published

2023

12. The Stability Optimization of Indoor Visible 3D Positioning Algorithms Based on Single-Light Imaging Using Attention Mechanism Convolutional Neural Networks

Author

Wenjie Ji, Lianxin Hu, Xun Zhang, Jiongnan Lou, Hongda Chen, and Zefeng Wang

Subjects

CNN, VLC, VLP, OCC, indoor positioning, attention mechanism, Applied optics. Photonics, TA1501-1820

Abstract

In recent years, visible light positioning (VLP) techniques have been gaining popularity in research. Among them, the scheme of using a camera as a receiver provides a low-cost, high-precision positioning capability and easy integration with existing multimedia devices and robots. However, the pose changes of the receiver can lead to image distortion and light displacement, significantly increasing positioning errors. Addressing these errors is crucial for enhancing the accuracy of VLP. Most current solutions rely on gyroscopes or Inertial Measurement Units (IMUs) for error optimization, but these approaches often add complexity and cost to the system. To overcome these limitations, we propose a 3D positioning algorithm based on an attention mechanism convolutional neural network (CNN) aimed at reducing the errors caused by angles. We designed experiments and comparisons within a rotation angle range of ±15 degrees. The results demonstrate that the average error for 2D positioning is within 5.74 cm and the height error is within 3.92 cm, and the average error for 3D positioning is within 6.8 cm. Among the four groups of experiments for 3D positioning, compared to the traditional algorithm, the improvements were 7.931 cm, 15.569 cm, 6.004 cm, and 16.506 cm. The experiments indicate that it can be applied to high-precision visible light positioning for single-light imaging.

Published

2024

13. A 3.2 kW Single Stage Narrow Linewidth Fiber Amplifier Emitting at 1050 nm

Author

Xiaoxi Liu, Xin Tian, Binyu Rao, Baolai Yang, Xiaoming Xi, and Zefeng Wang

Subjects

fiber laser, MOPA, narrow-linewidth, high-power, Mechanical engineering and machinery, TJ1-1570

Abstract

In this paper, we have demonstrated a narrow linewidth high power fiber laser emitting at a short wavelength of ~1050 nm. The fiber laser is based on a structure of master oscillator power amplification (MOPA) with an optimized fiber Bragg-grating-based laser cavity as the seed. Both stimulated Brillouin scattering (SBS) and stimulated Raman scattering (SRS) effects have been effectively suppressed by using a long passive fiber between the seed and the amplifier. Based on the fiber amplifier, we have ultimately boosted the narrow linewidth laser from ~40 W to 3.2 kW with a slope efficiency of 85.1% and a 3-dB linewidth of ~0.1 nm. The SRS suppression ratio of the laser is ~29.7 dB at maximum power. Due to our fiber mode control strategies, the beam quality always stays near-diffraction-limited while amplifying, and the measured M2 factor is ~1.4 at the maximum power. Further increase in output power is limited by the SBS effect.

Published

2024

14. Machine learning models for stroke detection by observing the eye-movement features under five-color visual stimuli in traditional Chinese medicine

Author

Qingya Lu, Jingyuan Deng, Ying Yu, Yang Li, Kunni Wei, Xia Han, Zefeng Wang, Xun Zhang, Xu Wang, and Cong Yan

Subjects

Five-color stimulation, Traditional Chinese medicine, Stroke, Eye-tracking technology, Eye-movement models, Accuracy, Miscellaneous systems and treatments, RZ409.7-999

Abstract

Objective: To develop a novel diagnostic modality to identify and diagnose stroke in daily life scenarios for improving the therapeutic effects and prognoses of patients. Methods: In this study, 16 stroke patients and 24 age-matched healthy participants as controls were recruited for comparative analysis. Leveraging a portable eye-tracking device and integrating traditional Chinese medicine theory with modern color psychology principles, we recorded the eye movement signals and calculated eye movement features. Meanwhile, the stroke recognition models based on eye movement features were further trained by using random forest (RF), k-nearest neighbors (KNN), decision tree (DT), gradient boosting classifier (GBC), XGBoost, and CatBoost. Results: The stroke group and the healthy group showed significant differences in some eye movement features (P

Published

2023

15. Thermodynamics and phase transition of Bardeen black hole via Rényi statistics in grand canonical ensemble and canonical ensemble

Author

Zefeng Wang, Haizhen Ren, Juhua Chen, and Yongjiu Wang

Subjects

Astrophysics, QB460-466, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract The thermodynamics of the Bardeen black hole in asymptotically flat space is investigated with the corrected first law of thermodynamics via Rényi statistics. The nonextensive parameter $$\lambda $$ λ gives the possibility to the thermal stability of Bardeen black hole, and there is a Hawking–Page phase transition in the grand canonical ensemble (fixed the potential), which is similar to the cases of Bardeen black hole and corrected Bardeen black hole in asymptotically anti-de Sitter (AdS) space via standard Gibbs–Boltzmann (GB) statistics. By introducing the general Smarr formula via Rényi statistics, the thermodynamic pressure P is defined with the parameter $$\lambda $$ λ and its conjugate quantity V is the thermodynamic volume (not a geometric spherical volume with horizon radius $$r_{h}$$ r h ). The thermodynamics of the asymptotically flat Bardeen black hole via Rényi statistics in the canonical ensemble (fixed the charge q) behaves like the van der Waals system, which is also same as the asymptotically Bardeen-AdS black hole via GB statistics. The analogy between the thermodynamics of the asymptotically flat Bardeen black hole from Rényi statistics and the Bardeen-AdS black hole from GB statistics makes us to consider what is the relation between the nonextensive parameter $$\lambda $$ λ and the cosmological constant $$\Lambda $$ Λ .

Published

2023

16. His-Purkinje system pacing versus biventricular pacing in clinical efficacy: a systematic review and meta-analysis

Author

Ya Wang, Fangchao Liu, Mengyao Liu, Zefeng Wang, Xiangfeng Lu, Jianfeng Huang, and Dongfeng Gu

Subjects

His-purkinje system pacing, Biventricular pacing, Cardiac resynchronization therapy, Meta-analysis, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Background His-Purkinje system pacing (HPSP), including his-bundle pacing (HBP) and left bundle branch area pacing (LBBaP), imitates the natural conduction of the heart as an alternative to biventricular pacing (BVP) in cardiac resynchronization therapy (CRT). However, the feasibility and efficacy of HPSP were currently only evidenced by studies with a limited sample size, so this study aimed to provide a comprehensive assessment through a systematic review and meta-analysis. Methods In order to compare the clinical outcomes associated with HPSP and BVP in patients for CRT, PubMed, EMBASE, Cochrane Library and Web of Science database were searched from inception to April 10, 2023. Clinical outcomes of interest including QRS duration (QRSd), left ventricular (LV) function and New York Heart Association (NYHA) functional classification, pacing threshold, echocardiographic and clinical response, hospitalization rate of HF and all-cause mortality were also extracted and summarized for meta-analysis. Results A total of 13 studies (ten observational studies and three randomized studies) involving 1,121 patients were finally included. The patients were followed up for 6–27 months. Compared with BVP, CRT patients treated by HPSP presented shorter QRSd [mean difference (MD): -26.23 ms, 95% confidence interval (CI): -34.54 to -17.92, P

Published

2023

17. Modal Parameter Identification and Damage Localization of Composite Helicopter Rotor Blades Based on AR/PR Identification

Author

Zefeng Wang, Yuhan Sun, Jie Li, and Zhiguang Song

Subjects

Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

The structural characteristics and application background of helicopters determine that the primary dynamic components work in environments with high cyclic amplitude and low-stress vibration fatigue load. As the most critical structural system of helicopters, structural health monitoring of the rotor blades is necessary to avoid fatigue damage under working conditions. Modal parameters, as functions of the physical properties of structural systems, change when there is damage or internal defects (the mass, stiffness, and damping of the structure will change). This article completes the identification of modal parameters of composite rotor blades under working conditions based on operational modal analysis (OMA). Specifically, using the AR/PR (autoregressive/polyreference) time-domain identification method, experiments are designed to identify the modal parameters (natural frequency, modal damping ratio, and mode shape) of composite rotor blades based on acceleration and strain signals. The results of the identification of modal parameters are verified through finite element simulation and modal measurement experiments. In addition, the application of OMA for the location of composite rotor blade damage is also studied.

Published

2024

18. Brightness enhancement on a narrow-linewidth fiber Bragg grating-based master oscillator power amplification fiber laser

Author

Xin Tian, Binyu Rao, Meng Wang, Xiaoming Xi, Zhixian Li, Zilun Chen, Hu Xiao, Pengfei Ma, and Zefeng Wang

Subjects

brightness, fiber laser, narrow linewidth, ytterbium-doped fiber, Applied optics. Photonics, TA1501-1820

Abstract

In this paper, we have experimentally demonstrated a high-power and high-brightness narrow-linewidth fiber amplifier seeded by an optimized fiber oscillator. In order to improve the temporal stability, the fiber oscillator consists of a composite fiber Bragg grating-based cavity with an external feedback structure. By optimizing the forward and backward pumping ratio, the nonlinear effects and stimulated Raman scattering-induced mode distortion of the fiber amplifier are suppressed comprehensively, accompanied with the simultaneous improvement of beam quality and output power. The laser brightness is enhanced further by raising the threshold of transverse mode instability by approximately 1.0 kW by coiling the gain fiber with a novel curvature shape. Finally, a 6 kW narrow-linewidth laser is achieved with beam quality (M 2) of approximately 1.4. The laser brightness doubled compared to the results before optimization. To the best of our knowledge, it is the highest brightness narrow-linewidth fiber laser based on a one-stage master oscillator power amplification structure.

Published

2024

19. Controlling protein stability with SULI, a highly sensitive tag for stabilization upon light induction

Author

Miaowei Mao, Yajie Qian, Wenyao Zhang, Siyu Zhou, Zefeng Wang, Xianjun Chen, and Yi Yang

Subjects

Science

Abstract

Abstract Optogenetics tools for precise temporal and spatial control of protein abundance are valuable in studying diverse complex biological processes. In the present study, we engineer a monomeric tag of stabilization upon light induction (SULI) for yeast and zebrafish based on a single light-oxygen-voltage domain from Neurospora crassa. Proteins of interest fused with SULI are stable upon light illumination but are readily degraded after transfer to dark conditions. SULI shows a high dynamic range and a high tolerance to fusion at different positions of the target protein. Further studies reveal that SULI-mediated degradation occurs through a lysine ubiquitination-independent proteasome pathway. We demonstrate the usefulness of SULI in controlling the cell cycle in yeast and regulating protein stability in zebrafish, respectively. Overall, our data indicate that SULI is a simple and robust tool to quantitatively and spatiotemporally modulate protein levels for biotechnological or biomedical applications.

Published

2023

20. Cascaded All-Fiber Gas Raman Laser Oscillator in Deuterium-Filled Hollow-Core Photonic Crystal Fibers

Author

Hao Li, Wenxi Pei, Xuanxi Li, Luohao Lei, Jing Shi, Zhiyue Zhou, and Zefeng Wang

Subjects

laser–matter interaction, hollow-core fiber, fiber laser, Chemistry, QD1-999

Abstract

Hollow-core photonic crystal fibers (HC-PCFs) provide an ideal transmission medium and experimental platform for laser–matter interaction. Here, we report a cascaded all-fiber gas Raman laser based on deuterium (D2)-filled HC-PCFs. D2 is sealed into a gas cavity formed by a 49 m-long HC-PCF and solid-core fibers, and two homemade fiber Bragg gratings (FBGs) with the Raman and pump wavelength, respectively, are further introduced. When pumped by a pulsed fiber amplifier at 1540 nm, the pure rotational stimulated Raman scattering of D2 occurs inside the cavity. The first-order Raman laser at 1645 nm can be obtained, realizing a maximum power of ~0.8 W. An all-fiber cascaded gas Raman laser oscillator is achieved by adding another 1645 nm high-reflectivity FBG at the output end of the cavity, reducing the peak power of the cascaded Raman threshold by 11.4%. The maximum cascaded Raman power of ~0.5 W is obtained when the pump source is at its maximum, and the corresponding conversion efficiency inside the cavity is 21.4%, which is 1.8 times that of the previous configuration. Moreover, the characteristics of the second-order Raman lasers at 1695 nm and 1730 nm are also studied thoroughly. This work provides a significant method for realizing all-fiber cascaded gas Raman lasers, which is beneficial for expanding the output wavelength of fiber gas lasers with a good stability and compactivity.

Published

2024

21. Review of High-Power Continuous Wave Yb-Doped Fiber Lasers near 980 nm

Author

Shangde Zhou, Jianqiu Cao, Maoni Chen, Zefeng Wang, Lei Si, and Jinbao Chen

Subjects

fiber laser, fiber amplifier, Yb-doped fiber, fiber laser near 980 nm, amplified spontaneous emission, Applied optics. Photonics, TA1501-1820

Abstract

In this paper, the development of a high-power continuous wave (CW) fiber laser near 980 nm is reviewed. This review is focused primary on the power evolution resulting from the designation of Yb-doped fibers, which is important in the suppression of the amplified spontaneous emission (ASE) around 1030 nm. Current studies on the in-band ASE as the power limitation of the Yb-doped fiber lasers near 980 nm are also summarized in this review.

Published

2024

22. Anti-depressant medication use is a risk factor for incident knee surgery and opioid use in patients with knee osteoarthritis

Author

Yongqiang Zheng, Jinshan Zhang, Zefeng Wang, Xiaofeng Liu, Yongquan Xu, Yangzhen Fang, Zhenyu Lin, and Liang Lin

Subjects

KOA, anti-depressant, risk factor, knee surgery, opioid, depression, Psychiatry, RC435-571

Abstract

ObjectiveTo investigate whether depression and exposure to anti-depressant medication are independent risk factors for incident knee surgery and opioid use in knee osteoarthritis (KOA) patients.MethodsWe identified all patients who visited our outpatient department and were clinically diagnosed with KOA between January 2010 and January 2018. We retrieved their demographic, clinical, and radiographic data from the database of our hospital. Next, we analyzed the effect of depression and anti-depressant medication on the incident knee surgery and opioid use in KOA patients.ResultsA total of 4,341 KOA patients were found eligible to form the study population. Incident knee surgery and opioid use for the purpose of treating osteoarthritis were observed in 242 and 568 patients, respectively. Incident knee surgery was significantly associated with age (OR [95%CI], 1.024 [1.009–1.039], P = 0.002), BMI (OR [95%CI], 1.090 [1.054–1.128], P < 0.001), baseline K-L grade 3 (OR [95%CI], 1.977 [1.343–2.909], P = 0.001), baseline K-L grade 4 (OR [95%CI], 1.979 [1.241–3.157], P = 0.004), depression (OR [95%CI], 1.670 [1.088–2.563], P = 0.019), and exposure to anti-depressant medication (OR [95%CI], 2.004 [1.140–3.521], P = 0.016). Incident opioid use was significantly associated with depression (OR [95%CI], 1.554 [1.089–2.215], P = 0.015) and exposure to anti-depressant medication (OR [95%CI], 1.813 [1.110–2.960], P = 0.017).ConclusionDepression and anti-depressant drug exposure were independently associated with incident knee surgery, highlighting the need for more attention on comorbid depression in KOA management.

Published

2023

23. Alcoholic drink produced by pea is a risk factor for incident knee surgery in patients with knee osteoarthritis

Author

Xiaopeng Huang, Jinshan Zhang, Yongqiang Zheng, Xiaofeng Liu, Yongquan Xu, Yangzhen Fang, Zhenyu Lin, Liang Lin, Hongpeng Zhang, and Zefeng Wang

Subjects

knee osteoarthritis, alcoholic drink, Kellgren-Lawrence (K-L) grades, total knee arthroplasty (TKA), unicompartmental knee arthroplasty (UKA), high tibial osteotomy, Nutrition. Foods and food supply, TX341-641

Abstract

ObjectiveThe objective of this study is to investigate whether alcohol exposure and specific alcoholic drinks are independent risk factors for incident knee surgery in knee osteoarthritis (KOA) patients.MethodsWe identified all patients who were clinically diagnosed as KOA between January 2010 and January 2018 in our outpatient department. Demographic, clinical, and radiographic data were collected from the database of our hospital. Next, we analyzed the association between alcohol consumption and incident knee surgery.ResultsA total of 4,341 KOA patients completed the current study and were included in the final analysis. Incident knee surgery for the purpose of treating osteoarthritis was observed in 242 patients. Incident knee surgery was significantly associated with age (OR [95%CI], 1.023 [1.009–1.039], P = 0.002), BMI (OR [95%CI], 1.086 [1.049–1.123], P < 0.001), baseline K-L grade 3 (OR [95%CI], 1.960 [1.331–2.886], P = 0.001), baseline K-L grade 4 (OR [95%CI], 1.966 [1.230–3.143], P = 0.005), 7.1–14 drinks per week (OR [95%CI], 2.013 [1.282–3.159], P = 0.002), >14 standard drinks per week (OR [95%CI], 2.556 [1.504–4.344], P = 0.001), and the most common alcoholic drink produced by pea (OR [95%CI], 3.133 [1.715–5.723], P < 0.001).ConclusionKOA patients who consumed more than seven standard drinks per week were at substantial risk of incident knee surgery. In addition, alcoholic drink produced by pea is also an independent risk factor.

Published

2023

24. Erratum for Cai et al., 'Systematic Microbiome Dysbiosis Is Associated with IgA Nephropathy'

Author

Fengtao Cai, Chenfen Zhou, Na Jiao, Xinling Liang, Zhiming Ye, Wei Chen, Qiongqiong Yang, Hui Peng, Ying Tang, Chaoqun Niu, Guoping Zhao, Zefeng Wang, Guoqing Zhang, and Xueqing Yu

Subjects

Microbiology, QR1-502

Published

2023

25. PUF60 promotes cell cycle and lung cancer progression by regulating alternative splicing of CDC25C

Author

Nan Xu, Yunpeng Ren, Yufang Bao, Xianfeng Shen, Jiahui Kang, Ning Wang, Zixian Wang, Xinlu Han, Zhen Li, Ji Zuo, Gong-Hong Wei, Zefeng Wang, Wei-Xing Zong, Wen Liu, Gangcai Xie, and Yongbo Wang

Subjects

CP: Cancer, Biology (General), QH301-705.5

Abstract

Summary: Alternative splicing (AS) has been implicated in cell cycle regulation and cancer, but the underlying mechanisms are poorly understood. The poly(U)-binding splicing factor 60 (PUF60) is essential for embryonic development and is overexpressed in multiple types of cancer. Here, we report that PUF60 promotes mitotic cell cycle and lung cancer progression by controlling AS of the cell division cycle 25C (CDC25C). Systematic analysis of splicing factors deregulated in lung adenocarcinoma (LUAD) identifies that elevated copy number and expression of PUF60 correlate with poor prognosis. PUF60 depletion inhibits LUAD cell-cycle G2/M transition, cell proliferation, and tumor development. Mechanistically, PUF60 knockdown leads to exon skipping enriched in mitotic cell cycle genes, including CDC25C. Exon 3 skipping in the full-length CDC25C results in nonsense-mediated mRNA decay and a decrease of CDC25C protein, thereby inhibiting cell proliferation. This study establishes PUF60 as a cell cycle regulator and an oncogenic splicing factor in lung cancer.

Published

2023

26. 6 kW Single Stage Narrow Linewidth Fiber Amplifier Based on the Balance Between Mode Instability and Nonlinear Effects

Author

Xin Tian, Binyu Rao, Meng Wang, Xiaoming Xi, Baolai Yang, Zilun Chen, Hu Xiao, Xiaolin Wang, Pengfei Ma, Zefeng Wang, and Jinbao Chen

Subjects

Fiber lasers, laser amplifiers, nonlinear effects, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

Single-stage high-power narrow-linewidth fiber laser has been investigated intensively recently because of its simple and robust configuration and great potential in spectral/coherent beam combination. In this work, a 6 kW narrow-linewidth fiber amplifier was experimentally achieved based on a fiber oscillator seed. By employing a few-mode ytterbium-doped fiber, the spectral broadening and SRS effects are both significantly mitigated. Combined with a wavelength-stabilized 981 nm pump source, the threshold of transverse mode instability is improved, then, a maximum output power of 6020 W at the central wavelength 1080 nm was achieved with 3-dB bandwidth of ∼0.37 nm and optical-to-optical efficiency of ∼85.6%. The mode instability and nonlinear effects were balanced well. The measured beam quality and the signal to Raman ratio were M2∼2.7 and ∼27 dB, respectively. This work shows the great potential of such amplification structure for the power scaling of high-power narrow-linewidth fiber lasers.

Published

2023

27. Sex differences involved in persistent atrial fibrillation recurrence after radiofrequency ablation

Author

Haiwei Li, Zefeng Wang, Zichao Cheng, Yingming Zhu, Zhongyu Yuan, Jianwei Gao, Xiaoping Zhang, and Yongquan Wu

Subjects

Sex differences, Persistent atrial fibrillation, Radiofrequency ablation, Recurrence, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Background In recent years, the difference in outcomes of radiofrequency catheter ablation (RFCA) in persistent atrial fibrillation patients has risen. In particular, biological sex seems involved in a different response to the AF ablation procedure. In our study, we analyzed the AF recurrences after RFCA assessing the other association between male/female patients with the outcomes. Methods We enrolled 106 patients (74.5% men) with persistent atrial fibrillation with scheduled follow-up. The baseline clinical characteristics and AF recurrence after RFCA were compared between men and women. Cox regression analyses were performed to determine the risk predictors of AF recurrence. Results The proportion of RFCA in women was lower than that in men. Men with persistent AF were younger than women (58.6 ± 10.4 years vs. 65.1 ± 8.7 years, respectively; p = 0.003). The left atrium (LA) diameter was higher in males (43.7 ± 4.6 mm vs. 41.3 ± 5.5 mm; p = 0.028), and the level of left heart ejection fraction (LVEF) was higher in females (59.4 ± 6.9% vs. 64.1 ± 5.5%; p = 0.001). Sex differences in AF recurrence after RFCA were significant during the median 24.4-month (interquartile range: 15.2–30.6 months) follow-up period, and the recurrence rate of AF in women was significantly higher than that in men (p = 0.005). Univariable Cox regression analysis showed that female sex was a risk factor for persistent AF recurrence after RFCA [HR: 2.099 (1.087–4.053)]. Univariate Cox regression analysis revealed that non-PV ablation not associated with AF recurrence [HR: 1.003 (0.516–1.947)]. Conclusion In a monocentric cohort of persistent AF patients, the female biological sex was associated with a higher risk of AF recurrence after RFCA.

Published

2022

28. Comparison of surgical outcomes among open, laparoscopic, and robotic pancreatoduodenectomy: a single-center retrospective study

Author

Wei Guo, Xiaofei Ye, Jiangfa Li, Shiliu Lu, Ming Wang, Zefeng Wang, Jianni Yao, Shuiping Yu, Guandou Yuan, and Songqing He

Subjects

Robotic surgery, Minimal invasive surgery, Pancreaticoduodenectomy, Complications, Surgery, RD1-811

Abstract

Abstract Background There is no general consensus on the feasibility and safety of robotic pancreatoduodenectomy (RPD) and whether it increases surgical risks. The purpose of this study was to assess the safety, feasibility, and rationality of RPD by comparing perioperative data among open pancreatoduodenectomy (OPD), laparoscopic pancreatoduodenectomy (LPD), and RPD performed in our center in recent years. Methods Clinical data of patients had undergone RPD (n = 32), LPD (n = 21), and OPD (n = 86) in The First Affiliated Hospital of Guangxi Medical University between January 2016 and June 2020 were retrospectively collected and analyzed. Results RPD required more time for operation (537.2 min vs. 441.5 min, p 0.05), but the RPD group had a higher activity of daily living score on postoperative day 3 (35.8 vs. 25.7, p = 0.0017) and a lower rate of conversion to OPD (6.5% vs. 38.1%, p = 0.011). Regarding complications, such as the postoperative pancreatic fistula, abdominal hemorrhage, intra-abdominal infection, bile leakage, reoperation, and perioperative mortality, there were no significant differences among the three groups. Conclusions Not only is RPD feasible and reliable, it also offers significant advantages in that it improves postoperative recovery of skills needed for everyday life, has a low conversion rate to open surgery, and does not increase surgical risks.

Published

2022

29. Gut microbiota, host genetics and phenotypes in aquatic animals: A review

Author

Quanxin Gao, Peimin Liu, Yang Li, Dawei Song, Wei Long, Zefeng Wang, Shaokui Yi, and Linhua Jiang

Subjects

Gut microbiome, Phenotype, Behavior, Microbiability, Genetic characteristics, Aquaculture. Fisheries. Angling, SH1-691

Abstract

In aquatic animals, microbial communities associated with the host exert powerful influences on physiology, reproduction, nutrient metabolism, and phenotypic traits, as well as complex host behaviors. This relationship between host and microbes suggests that host-microbiota interactions might have influenced the host's genetic and phenotypic variation. To improve our understanding of how microbes and hosts interact and produce phenotypes, it is necessary to focus on animal phenotypic traits as a basis to understand the potential roles for the microbiome in shaping host phenotypes. Here, we review the literatures on the influences of host genetic and environmental effects on intestinal microbial community structure, and corresponding effects of microbiomes on aquatic animal host phenotypes and genetic breeding. This review provides a better understanding of how the gut microbiota establishes a connection with host genetic factors, while modulating the intestinal microbiota to affect phenotypic differentiation. A more detailed understanding of how the microbiota influences host phenotypes might contribute to determining the role of gut microbiota in the field of genetic breeding of aquatic animals.

Published

2023

30. Systematic Microbiome Dysbiosis Is Associated with IgA Nephropathy

Author

Fengtao Cai, Chenfen Zhou, Na Jiao, Xinling Liang, Zhiming Ye, Wei Chen, Qiongqiong Yang, Hui Peng, Ying Tang, Chaoqun Niu, Guoping Zhao, Zefeng Wang, Guoqing Zhang, and Xueqing Yu

Subjects

IgA nephropathy, oral, pharynx, gut, urine, microbiome, Microbiology, QR1-502

Abstract

ABSTRACT IgA nephropathy (IgAN) is reportedly associated with microbial dysbiosis. However, the microbiome dysregulation of IgAN patients across multiple niches remains unclear. To gain a systematic understanding of microbial dysbiosis, we conducted large-scale 16S rRNA gene sequencing in IgAN patients and healthy volunteers across 1,732 oral, pharynx, gut, and urine samples. We observed a niche-specific increase of several opportunistic pathogens, including Bergeyella and Capnocytophaga in the oral and pharynx, whereas some beneficial commensals decreased in IgAN patients. Similar alterations were also observed in the early versus advanced stage of chronic kidney disease (CKD) progression. Moreover, Bergeyella, Capnocytophaga, and Comamonas in the oral and pharynx were positively associated with creatinine and urea, indicating renal lesions. Random forest classifiers were developed by using the microbial abundance to predict IgAN, achieving an optimal accuracy of 0.879 in the discovery phase and 0.780 in the validation phase. IMPORTANCE This study provides microbial profiles of IgAN across multiple niches and underlines the potential of these biomarkers as promising, noninvasive tools with which to differentiate IgAN patients for clinical applications.

Published

2023

31. Additive manufacturing of fine-grain fully lamellar titanium aluminide alloys

Author

Yichao Zhu, Zefeng Wang, Bing Yu, Guochao Li, Yunfei Xue, and Yao-Jian Liang

Subjects

Additive manufacturing, Titanium aluminides, Grain refinement, Solid state phase transformation, Mechanical properties, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Additive manufacturing (AM), or 3D printing, has attracted increased attention in producing metallic parts with complex geometries, but it has proved difficult to prepare equiaxed fine-grain parts because the high thermal gradient in solidification commonly conduces the formation of coarse columnar grains. This work shows a solution to fine-grain titanium aluminide (TiAl) alloys by designing a high-frequency thermal cycling to control the solid-state phase transformations in layer-by-layer AM. After solidification, the specially-designed high-frequency thermal cycling can significantly refine the microstructure by repeatedly inducing the nucleation of new grains and suppressing the growth of these newborn fine grains. Therefore, even if solidification leads to coarse columnar grains, equiaxed fine-grain microstructure can still be obtained by solid-state phase transformations. The resulting TiAl alloys have fine heteromorphic grains (∼50 μm) and a fully lamellar microstructure. These fine grains contribute to good strength-ductility balance at room temperature, and their irregular shape and fully lamellar microstructure restrict the flow and distortion of grains at high temperatures, which stands a chance to significantly increase the operating temperature of TiAl parts.

Published

2023

32. Curcumin based polyurethane materials and their functional applications: a review

Author

Qiaoqiao Lan, Xiaoyu Mao, Chendong Xia, Dandan Zhang, Peipei Huang, Weiyi Zhang, Shan Shi, and Zefeng Wang

Subjects

curcumin, biobased polyurethane, applications, Materials of engineering and construction. Mechanics of materials, TA401-492, Chemical technology, TP1-1185

Abstract

Bio-based polyurethanes are novel material with potential advantages for sustainable development, and their development play significant roles in promoting sustainability. Curcumin, a natural monomer, possesses high biological activity and features a symmetrical chemical structure with various functional groups such as phenolic hydroxyl, carbonyl and benzene ring. The presence of hydroxyl groups in the structure of curcumin provides essential conditions for its involvement in polyurethane synthesis. This review article provides an overview of the applications of curcumin as a chain extender, crosslinking agent and end-capper in polyurethanes, as well as its effects on the chemical structure, mechanical properties, and chemical stability of polyurethanes. Furthermore, the functional applications of curcumin-based polyurethanes in various fields such as medicine, food packaging, and coatings are discussed. Finally, considering the current research status and inherent properties of curcumin, the future prospects of curcumin-based polyurethanes are contemplated.

Published

2024

33. Growth, Spectroscopy, and Laser Performance of a 2.79 μm Er: YSGG Single Crystal Fibers

Author

Baiyi Wu, Meng Wang, Jian Zhang, Zhitai Jia, and Zefeng Wang

Subjects

Er-doped crystal, single crystal fiber, 3 μm laser, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

Single crystal fibers combine the great specific surface area of fibers and the single crystal property of the bulk crystal which shows great potential for a high-power laser. For an Er-doped crystal, due to the fluorescence quenching at the 3 μm wavelength, high Er doping is necessary to increase the fluorescent up-conversion for the breaking limitation. However, a high Er doping concentration must lead to high heat accumulation, resulting in poor laser performance. Compared with an Er-doped bulk crystal, Er-doped SCF has the great potential to remove the heat in the crystal, and it is easy to obtain a high power. In this paper, Er: Y3Sc2Ga3O12 (Er: YSGG) single crystals were successfully grown using the micro-pulling-down method (μ-PD). Owing to the stably grown interface, the diameter of the crystal is 2 mm with a length up to 80 mm. Then, the measurements of Laue spots and Er3+ distribution indicated that our crystals have a high quality. Based on the as-prepared Er: YSGG SCF, the continuous-wave (CW) laser operations at 2794 nm were realized. The maximum output was 166 mW with a slope efficiency of up to 10.99%. These results show that Er: YSGG SCF is a suitable material for future high-power 3 μm laser operation.

Published

2024

34. Poly (ADP-ribose) Polymerase Inhibitors in Patients with Metastatic Castration-Resistant Prostate Cancer: A Meta-Analysis of Randomized Controlled Trials

Author

Zheng Chao, Zefeng Wang, Le Li, Yi Jiang, Yunxing Tang, Yanan Wang, Xiaodong Hao, Chunyu Zhang, Xiangdong Guo, Weimin Yu, Fan Cheng, and Zhihua Wang

Subjects

prostate cancer, PARP inhibitors, survival, adverse events, meta-analysis, Medicine (General), R5-920

Abstract

Context: Several recent randomized controlled trials (RCTs) have reported on the survival benefits of poly (ADP-ribose) polymerase inhibitors (PARPi) compared to standard-of-care (SOC) treatment (enzalutamide, abiraterone, or docetaxel) in patients with metastatic castration-resistant prostate cancer (mCRPC). However, there is a limited integrated analysis of high-quality evidence comparing the efficacy and safety of PARPi and SOC treatments in this context. Objective: This study aims to comprehensively analyze the survival benefits and adverse events associated with PARPi and SOC treatments through a head-to-head meta-analysis in mCRPC. Evidence acquisition: A systematic review search was conducted in PubMed, Embase, Clinical trials, and the Central Cochrane Registry in July 2023. RCTs were assessed following the Preferred Reporting Items for Systematic Reviews and Meta-analyses (PRISMA) guidelines. The systematic review was prospectively registered on PROSPERO (CRD42023441034). Evidence synthesis: A total of 8 studies, encompassing 2341 cases in the PARPi treatment arm and 1810 cases in the controlled arm, were included in the qualitative synthesis. The hazard ratio (HR) for radiographic progression-free survival (rPFS) and overall survival (OS) were 0.74 (95% CI, 0.61–0.90) and 0.89 (95% CI, 0.80–0.99), respectively, in the intention-to-treatment patients. For subgroup analysis, HRs for rPFS and OS in the BRCA-mutated subgroup were 0.39 (95% CI, 0.28–0.55) and 0.62 (95% CI, 0.38–0.99), while in the HRR-mutated subgroup, HR for rPFS was 0.57 (95% CI, 0.48–0.69) and for OS was 0.77 (95% CI, 0.64–0.93). The odds ratio (OR) for all grades of adverse events (AEs) and AEs with severity of at least grade 3 were 3.86 (95% CI, 2.53–5.90) and 2.30 (95% CI, 1.63–3.26), respectively. Conclusions: PARP inhibitors demonstrate greater effectiveness than SOC treatments in HRR/BRCA-positive patients with mCRPC. Further research is required to explore ways to reduce adverse event rates and investigate the efficacy of HRR/BRCA-negative patients.

Published

2023

35. Studying the Influence of Finite Element Mesh Size on the Accuracy of Ventricular Tachycardia Simulation

Author

Boyang Cao, Nan Zhang, Zhenyin Fu, Ruiqing Dong, Tan Chen, Weiguo Zhang, Lv Tong, Zefeng Wang, Mingxia Ma, Zhanchun Song, Fuzhi Pan, Jinghui Bai, Yongquan Wu, Dongdong Deng, and Ling Xia

Subjects

ventricular tachycardia, computational modeling, mesh resolution, conduction velocity, tetrahedral meshes, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background: Ventricular tachycardia (VT) is a life-threatening heart condition commonly seen in patients with myocardial infarction (MI). Although personalized computational modeling has been used to understand VT and its treatment noninvasively, this approach can be computationally intensive and time consuming. Therefore, finding a balance between mesh size and computational efficiency is important. This study aimed to find an optimal mesh resolution that minimizes the need for computational resources while maintaining numerical accuracy and to investigate the effect of mesh resolution variation on the simulation results. Methods: We constructed ventricular models from contrast-enhanced magnetic resonance imaging data from six patients with MI. We created seven different models for each patient, with average edge lengths ranging from 315 to 645 µm using commercial software, Mimics. Programmed electrical stimulation was used to assess VT inducibility from 19 sites in each heart model. Results: The simulation results in the slab model with adaptive tetrahedral mesh (same as in the patient-specific model) showed that the absolute and relative differences in conduction velocity (CV) were 6.1 cm/s and 7.8% between average mesh sizes of 142 and 600 µm, respectively. However, the simulation results in the six patient-specific models showed that average mesh sizes with 350 µm yielded over 85% accuracy for clinically relevant VT. Although average mesh sizes of 417 and 478 µm could also achieve approximately 80% accuracy for clinically relevant VT, the percentage of incorrectly predicted VTs increases. When conductivity was modified to match the CV in the model with the finest mesh size, the overall ratio of positively predicted VT increased. Conclusions: The proposed personalized heart model could achieve an optimal balance between simulation time and VT prediction accuracy when discretized with adaptive tetrahedral meshes with an average edge length about 350 µm.

Published

2023

36. Association between the atherogenic index of plasma and major adverse cardiovascular events among non-diabetic hypertensive older adults

Author

Fei Hang, Jieruo Chen, Zefeng Wang, Keyang Zheng, and Yongquan Wu

Subjects

Atherogenic index of plasma, Major adverse cardiovascular events, Hypertension, Intensive blood pressure management, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Background Literature on the association between the atherogenic index of plasma (AIP) and the risk of major adverse cardiovascular events (MACEs) among non-diabetic hypertensive older adults is quite limited. Methods A post-hoc analysis of data obtained from the Systolic Blood Pressure Intervention Trial was performed. The predictive value of AIP on the risk of MACEs among non-diabetic hypertensive older adults was assessed to evaluate whether the benefit of intensive blood pressure (BP) control in preventing MACEs is consistent in different AIP subgroups. Results In this study, 9323 participants with AIP were included, out of which 561 (6.02%) had composite cardiovascular outcomes during a median of 3.22 years of follow-up. Patients in the highest AIP quartile had a significantly increased risk of the primary outcome. In the fully adjusted Model 3, the adjusted hazard ratios (HRs) of the primary outcome for participants in Q2, Q3, and Q4 of AIP were 1.32 (1.02, 1.72), 1.38 (1.05, 1.81), and 1.56 (1.17, 2.08) respectively. Consistently, the trend test for the association between AIP quartiles and the primary outcome showed that a higher AIP quartile was associated with a significantly higher risk of the primary outcome (adjusted HR (95%CI) in model 3:1.14 (1.04, 1.25), P = 0,004). However, within each AIP quartile, absolute event rates were lower in the intensive treatment group. No evidence was found for the interaction between intensive BP control and AIP for the risk of the primary outcome (P for interaction = 0.932). Conclusion This study found that elevated AIP was independently and positively associated with the risk of MACEs among non-diabetic hypertensive older adults. The benefits of intensive BP control in managing cardiovascular events were consistent in different AIP subgroups.

Published

2022

37. Pervasive translation of circular RNAs driven by short IRES-like elements

Author

Xiaojuan Fan, Yun Yang, Chuyun Chen, and Zefeng Wang

Subjects

Science

Abstract

Unbiased screen of random sequences identified many short IRES-like elements to drive circular RNA translation and hundreds of rolling circle translation events, suggesting a pervasive cap-independent translation in human transcriptome.

Published

2022

38. Femtosecond laser fabrication of large-core fiber Bragg gratings for high-power fiber oscillators

Author

Hao Li, Baolai Yang, Meng Wang, Chenhui Gao, Baiyi Wu, Lingfa Zeng, Xiaoming Xi, Zilun Chen, Xiaolin Wang, Zefeng Wang, and Jinbao Chen

Subjects

Applied optics. Photonics, TA1501-1820

Abstract

In this paper, a fs-laser phase mask inscription system based on a galvanometer scanning strategy is designed and set up for the fabrication of large-core fiber Bragg gratings (FBGs). Based on this setup, a homogeneous cross-sectional refractive index modulation can be achieved in the core of a large-mode-area fiber, and a pair of FBGs are fabricated in fibers with a core diameter of 30 µm. To investigate the performance of the fabricated FBGs, a high power all-fiber oscillator is built using a pure backward pumping structure. The FBGs work well, and the maximum output power of 7920 W is achieved with an optical–optical conversion efficiency of 77.3%. To the best of our knowledge, this is the highest power of all-fiber oscillators based on fs-written FBGs. This work provides a flexible, stable, and economic scanning strategy for large-core FBG inscription and exhibits excellent performance for high power fiber lasers.

Published

2023

39. Sinus node dysfunction after radiofrequency catheter ablation of atrial flutter: A case report

Author

Haiwei Li, Zefeng Wang, and Yongquan Wu

Subjects

atrial flutter, catheter ablation, sinus node dysfunction, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Atrial flutter (AFL) is the second most common atrial tachyarrhythmia after atrial fibrillation. Catheter ablation (CA) for typical AFL is well‐established and has a high success rate and adequate safety. However, sick sinus syndrome (SSS) occasionally occurs when long‐term, persistent AFL is terminated by ablation. Sinus node function cannot be assessed during AFL, and the preoperative prediction of underlying SSS has not yet been investigated. When this situation occurs, pacemaker implantation is often necessary. Here, we report a case of SSS after persistent AFL CA.

Published

2023

40. The Growth and Spectroscopic Properties of Er, Nd: YSGG Single Crystal Fibers

Author

Baiyi Wu, Tao Wang, Meng Wang, Jian Zhang, Ning Jia, Zhitai Jia, and Zefeng Wang

Subjects

micro-pulling-down (μ-PD), growth of Y3Sc2Ga3O12 (YSGG), Er-doped crystal, Crystallography, QD901-999

Abstract

Single crystal fiber (SCF) is a novel solid gain medium and technique which combines the advantages of glass fiber and single crystal, showing great potential in the field of high-power lasers. In this paper, Er, Nd: YSGG single crystals with diameters of 2 mm and lengths of 80 mm were successfully grown using the micro-pulling-down method for the first time. Then, the measurements of Laue spots and Er3+ distribution indicated that the as-grown crystals were of a high quality. The effect of co-doped Nd3+ on the Er: YSGG was systematically discussed, which demonstrated that Nd3+ can decrease the fluorescence lifetime of Er: 4I13/2 that solve the self-termination bottleneck accordingly. These results demonstrate that Er, Nd: YSGG SCFs are promising materials for the further 3 μm laser generations.

Published

2023

41. Fabrication of a Counter-Directional Pump/Signal Combiner with Built-In Mode Field Adapter

Author

Jiawei Wang, Zhixian Li, Min Fu, Xin Tian, Binyu Rao, Zilun Chen, and Zefeng Wang

Subjects

pump/signal combiner, mode field adapter, high-power fiber lasers, beam quality, Applied optics. Photonics, TA1501-1820

Abstract

This article introduces a novel counter-directional pump/signal combiner with a built-in mode field adapter. This combiner offers additional functionality to address the problem of mode field mismatch between the gain fiber and delivery fiber, which occurs when using a large-core (50 μm) signal fiber to suppress stimulated Raman scattering. The combiner exhibits negligible degradation in beam quality as a result of implementing mode field matching and employing an effective feedback alignment technique. The beam quality of the mode field adapter integrated in the combiner is improved by 10%, compared to the conventional approach, thanks to the reduction in splicing points and the prevention of fusion loss caused by tapering-induced cladding diameter mismatch. The combiner demonstrates an average pump coupling efficiency of 98.5% and a temperature rise coefficient of less than 10 °C/kW without active cooling. Furthermore, an integrated device based on the combiner is fabricated to shorten the length of delivery fiber, therefore mitigating the effects of stimulated Raman scattering. All those techniques mentioned above are utilized in a narrow linewidth laser system, resulting in an output of approximately 5840 W with a nearly single-mode characteristic.

Published

2023

42. Towards high-power mid-IR light source tunable from 3.8 to 4.5 µm by HBr-filled hollow-core silica fibres

Author

Zhiyue Zhou, Zefeng Wang, Wei Huang, Yulong Cui, Hao Li, Meng Wang, Xiaoming Xi, Shoufei Gao, and Yingying Wang

Subjects

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

Abstract

Abstract Fibre lasers operating at the mid-IR have attracted enormous interest due to the plethora of applications in defence, security, medicine, and so on. However, no continuous-wave (CW) fibre lasers beyond 4 μm based on rare-earth-doped fibres have been demonstrated thus far. Here, we report efficient mid-IR laser emission from HBr-filled silica hollow-core fibres (HCFs) for the first time. By pumping with a self-developed thulium-doped fibre amplifier seeded by several diode lasers over the range of 1940–1983 nm, narrow linewidth mid-IR emission from 3810 to 4496 nm has been achieved with a maximum laser power of about 500 mW and a slope efficiency of approximately 18%. To the best of our knowledge, the wavelength of 4496 nm with strong absorption in silica-based fibres is the longest emission wavelength from a CW fibre laser, and the span of 686 nm is also the largest tuning range achieved to date for any CW fibre laser. By further reducing the HCF transmission loss, increasing the pump power, improving the coupling efficiency, and optimizing the fibre length together with the pressure, the laser efficiency and output power are expected to increase significantly. This work opens new opportunities for broadly tunable high-power mid-IR fibre lasers, especially beyond 4 μm.

Published

2022

43. Broadband, Continuous-Wave, Mid-Infrared Generation Based on TFBG Spectral Modulation

Author

Kaifeng Wang, Xiao Li, Peng Wang, Meng Wang, Weihong Hua, Zefeng Wang, and Kai Han

Subjects

Spectral modulation, mid-infrared laser, nonlinear optics, fiber laser, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

We demonstrated a tilted fiber Bragg grating (TFBG)-based modulated amplified spontaneous emission (ASE) source, followed by the broadband, continuous-wave (CW) mid-infrared laser generated by intracavity difference-frequency generation (DFG). By flattening the spectrum of the ASE source during its power amplification and injecting another 1018 nm fiber laser in the optical parametric oscillation(OPO) cavity, nonlinear frequency conversion was achieved in the nonlinear crystal. By tuning the polarization period of the crystal, a three-peaked mid-infrared laser with a full width at half maximum (FWHM) of 130 nm and a four-peaked mid-infrared laser with an FWHM of 180 nm was generated.

Published

2022

44. Stable and Efficient Coupling of High-Power Continuous-Wave Laser With Uncooled Anti-Resonant Hollow-Core Fibers With End Caps

Author

Yulong Cui, Xinyu Ye, Jing Shi, Wei Huang, Zhiyue Zhou, Meng Wang, Zilun Chen, and Zefeng Wang

Subjects

Hollow-core fibers, end caps, high power transmission, coupling methods, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

Hollow-core fibers provide an ideal environment for the interaction of a laser and gases; however, achieving stable and efficient coupling of a high-power laser is one of the key problems to be solved. Here, we study stable and efficient coupling of a high-power continuous-wave fiber laser with anti-resonant hollow-core fibers spliced with end caps. By optimizing the splicing process, a maximum laser power of 460 W was injected and 356.5 W was outputted under uncooled conditions, realizing a total transmission efficiency of approximately 77.5%. A test of more than 1 h showed the stability of this a coupling method. A few other important characteristics, such as the Fresnel reflection of the end caps and the influence of the end caps on the transmission beam quality, were measured and examined. This study opens new opportunities for stable and highly efficient coupling of high-power lasers with hollow-core fibers, which is significant for their applications in many other fields besides high-power fiber gas lasers, such as high-power laser delivery and liquid lasers in hollow-core fibers.

Published

2022

45. Fabrication of Fiber Bragg Gratings by Visible Femtosecond Laser for Multi-kW Fiber Oscillator

Author

Hongye Li, Xin Tian, Meng Wang, Xiaofan Zhao, Baiyi Wu, Chenhui Gao, Hao Li, Binyu Rao, Xiaoming Xi, and Zefeng Wang

Subjects

Fiber Bragg grating, femtosecond laser, oscillator, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

In this paper, we fabricate a pair of fiber Bragg gratings (FBGs) in large mode area double cladding fiber (LMA-DCF, core/inner cladding diameter: 20/400 μm) by visible (515 nm) femtosecond laser and phase mask for the first time to the best of our knowledge. Then this pair of FBGs are utilized to construct a high power fiber oscillator operated near 1080 nm. The maximum output laser power is more than 3.2 kW with a slope efficiency of ∼77.9%, and the beam quality factor M2 is about 1.28. The FBGs are simply fixed on water-cooling plate without any special package, and the temperature of the FBGs is about 40 °C at the maximum output power. Our research work confirms the reliability of visible femtosecond laser in fabrication of FBGs intended to be applied in high power fiber oscillators.

Published

2022

46. The antinociceptive activity and mechanism of action of cannabigerol

Author

Yuting Wen, Zefeng Wang, Rui Zhang, Yuying Zhu, Guoqiang Lin, Ruixiang Li, and Jiange Zhang

Subjects

Cannabinoid, Cannabigerol, CB2R, Pain, TRPV1, β-Endorphin, Therapeutics. Pharmacology, RM1-950

Abstract

Cannabis has been used for centuries to treat pain. The antinociceptive activity of tetrahydrocannabinol (THC) or cannabidiol (CBD) has been widely studied. However, the antinociceptive effects of other cannabis components, such as cannabichromene (CBC) and cannabigerol (CBG), have rarely been revealed. The antinociceptive mechanism of CBG is not yet clear, so we investigated the antinociceptive effect of CBG on different pain models, and explored the mechanism of action of CBG to exert antinociceptive effects. In the current study, we compared the antinociceptive effects of CBC, CBD, and CBG on the carrageenan-induced inflammatory pain model in mice, and the results showed that CBG had a better antinociceptive effects through intraplantar administration. On this basis, we further investigated the antinociceptive effect of CBG on CIA-induced arthritis pain model and nerve pain model in mice, and found that CBG also relieved on both types of pain. Then, we explored the antinociceptive mechanism of CBG, which revealed that CBG can activate TRPV1 and desensitize it to block the transmission of pain signals. In addition, CBG can further activate CB2R, but not CB1R, to stimulate the release of β-endorphin, which greatly promotes the antinociceptive effect. Finally, the safety test results showed that CBG had no irritating effect on the rabbits’ skin, and it did not induce significant biochemical and hematological changes in mice. Transdermal delivery results also indicated that CBG has certain transdermal properties. Overall, this study indicates that CBG is promising for developing a transdermal dosage for pain management.

Published

2023

47. Damage Identification of Rotating Blades Based on Fuzzy C-Means and Frequency Response Function Curvature Methods

Author

Ruize Cui, Zefeng Wang, and Zhiguang Song

Subjects

Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Rotor blades are one of the key components of helicopter. If the blades are damaged, the safety and reliability of the helicopter will be seriously affected. Therefore, it is necessary to investigate the damage identification of the rotating blades. In this paper, a rotating cantilever beam is used to model the rotor blade. Based on the assumed mode method and Hamilton’s principle, the equation of motion is formulated, and the correctness of the model is verified by numerical and experimental studies. Altogether, two methods are used to identify the damages on the blade. The first one is the cluster analysis method based on the fuzzy C-mean theory. In order to reduce the dimension of the signal features, the singular value decomposition is introduced. The second method is the curvature of frequency response function method that can be used to determine the exact position of damages. Simulation results show that one can use fuzzy C-mean method to determine whether there is damage on the blade firstly and then determine the exact position of the damage through the curvature of frequency response function method.

Published

2023

48. Measurement Technique and Result Analysis of Helicopter Rotor Blade Structural Vibration Load

Author

Honglin Zhang, Zefeng Wang, and Pinqi Xia

Subjects

Physics, QC1-999

Abstract

The measurement of helicopter rotor blade structural load amid flight has always been the difficulty in flight test. In this paper, the principle of the existing blade structural load measurement method (electrical measurement method) was analyzed, and the problem of physical decoupling in the use of this method was expounded. As a weak signal measurement, the electrical measurement method also has electromagnetic interference problems, which will affect the flight test period of blade structural load measurement. Therefore, a numerical decoupling measurement method based on fiber Bragg grating (FBG) was proposed. Then, the new method was applied and verified in the load equation modeling test and the flight test under the real atmospheric environment was carried out. Through comparing and analyzing the measured data of the new method and the electrical measurement one, the correctness of the FBG data decoupling method was validated. The results indicate that the method proposed in this paper can effectively improve the efficiency of blade load equation modeling engineering and has good application value.

Published

2023

49. Success rates, challenges and troubleshooting of left bundle branch area pacing as a cardiac resynchronization therapy for treating patients with heart failure

Author

Junmeng Zhang, Yimin Zhang, Yaxun Sun, Mengna Chen, Zefeng Wang, and Changsheng Ma

Subjects

left bundle branch area pacing, heart failure, cardiac resynchronization therapy, success rates, troubleshooting, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Cardiac resynchronization therapy (CRT) is an important treatment of heart failure patients with reduced left ventricular ejection fraction (LVEF) and asynchrony of cardiac electromechanical activity. Left bundle branch area pacing (LBBaP) is a novel physiological pacing modality that appears to be an effective method for CRT. LBBaP has several advantages over the traditional biventricular-CRT (BiV-CRT), including a low and stable pacing capture threshold, a high success rate of implantation, a short learning curve, and high economic feasibility. However, LBBaP is not suitable for all heart failure patients needing a CRT and the success rates of LBBaP in heart failure patients is lower because of myocardial fibrosis, non-specific intraventricular conduction disturbance (IVCD), enlargement of the right atrium or right ventricle, etc. In this literature review, we summarize the success rates, challenges, and troubleshooting of LBBaP in heart failure patients needing a CRT.

Published

2023

50. Optogenetic actuation in ChR2-transduced fibroblasts alter excitation-contraction coupling and mechano-electric feedback in coupled cardiomyocytes: a computational modeling study

Author

Heqing Zhan, Zefeng Wang, Jialun Lin, Yuanbo Yu, and Ling Xia

Subjects

optogenetics, cardiomyocyte, fibroblast, excitation-contraction coupling, mechano- electric feedback, computational modeling, Biotechnology, TP248.13-248.65, Mathematics, QA1-939

Abstract

With the help of the conventional electrical method and the growing optogenetic technology, cardiac fibroblasts (Fbs) have been verified to couple electrically with working myocytes and bring electrophysiological remodeling changes in them. The intrinsic properties of cardiac functional autoregulation represented by excitation-contraction coupling (ECC) and mechano-electric feedback (MEF) have also been extensively studied. However, the roles of optogenetic stimulation on the characteristics of ECC and MEF in cardiomyocytes (CMs) coupled with Fbs have been barely investigated. In this study, we proposed a combined model composed of three modules to explore these influences. Simulation results showed that (1) during ECC, an increased light duration (LD) strengthened the inflow of ChR2 current and prolonged action potential duration (APD), and extended durations of twitch and internal sarcomere deformation through the decreased dissociation of calcium with troponin C (CaTnC) complexes and the prolonged duration of Xb attachment-detachment; (2) during MEF, an increased LD was followed by a longer muscle twitch and deformation, and led to APD prolongation through the inward ChR2 current and its inward rectification kinetics, which far outweighed the effects of the delaying dissociation of CaTnC complexes and the prolonged reverse mode of Na+-Ca2+ exchange on AP shortening; (3) due to the ChR2 current's rectification feature, enhancing the light irradiance (LI) brought slight variations in peak or valley values of electrophysiological and mechanical parameters while did not change durations of AP and twitch and muscle deformation in both ECC and MEF. In conclusion, the inward ChR2 current and its inward rectification feature were found to affect significantly the durations of AP and twitch in both ECC and MEF. The roles of optogenetic actuation on both ECC and MEF should be considered in future cardiac computational optogenetics at the tissue and organ scale.

Published

2021