Your search keyword '"Zhao Ye"' showing total 4,651 results

1. Integrated Microbiome and Metabolome Analysis Reveals Hypothalamic‐Comorbidities Related Signatures in Craniopharyngioma

Author

Ben Lin, Zhen Ye, Zhan Cao, Zhao Ye, Yifei Yu, Weiliang Jiang, Sichen Guo, Vladimir Melnikov, Peng Zhou, Chenxing Ji, Chengzhang Shi, Zerui Wu, Zhengyuan Chen, Yihua Xu, Qilin Zhang, Zengyi Ma, Nidan Qiao, Long Chen, Xuefei Shou, Xiaoyun Cao, Xiang Zhou, Li Zhang, Min He, Yongfei Wang, Hongying Ye, Yiming Li, Zhaoyun Zhang, Meng Wang, Renyuan Gao, and Yichao Zhang

Subjects

craniopharyngiomas, gut microbiota, hypothalamus‐pituitary axis, serum metabolome, Science

Abstract

Abstract Craniopharyngioma (CP) is an intracranial tumor with high mortality and morbidity. Though biologically benign, CP will damage the hypothalamus, inducing comorbidities such as obesity, metabolic syndrome, and cognitive impairments. The roles of gut microbiome and serum metabolome in CP‐associated hypothalamic comorbidities are aimed to be explored. Patients with CP are characterized by increased Shannon diversity, Eubacterium, Clostridium, and Roseburia, alongside decreased Alistipes and Bacteroides. CP‐enriched taxa are positively correlated with dyslipidemia and cognitive decline, while CP‐depleted taxa are negatively associated with fatty liver. Subsequent serum metabolomics identified notably up‐regulated purine metabolism, and integrative analysis indicated an association between altered microbiota and elevated hypoxanthine. Phenotypic study and multi‐omics analysis in the Rax‐CreERT2::BrafV600E/+::PtenFlox/+ mouse model validated potential involvement of increased Clostridium and dysregulated purine metabolism in hypothalamic comorbidities. To further consolidate this, intervention experiments are performed and it is found that hypoxanthine co‐variated with the severity of hypothalamic comorbidities and abundance of Clostridium, and induced dysregulated purine metabolism along with redox imbalance in target organs (liver and brain cortex). Overall, the study demonstrated the potential of increased Clostridium and up‐regulated purine metabolism as signatures of CP‐associated hypothalamic‐comorbidities, and unveiled that elevated Clostridium, dysregulated purine metabolism, and redox imbalance may mediate the development and progression of CP‐associated hypothalamic‐comorbidities.

Published

2024

2. Author Correction: tRNA-derived small RNA dataset in multiple organs of intrauterine growth-restricted pig

Author

Ma Jianfeng, Gan Mailin, Yang Yiting, Chen Lei, Zhao Ye, Niu Lili, Wang Yan, Zhang Shunhua, Wang Jingyong, Zhu Li, and Shen Linyuan

Subjects

Science

Published

2024

3. Near-Real-Time Long-Strip Geometric Processing without GCPs for Agile Push-Frame Imaging of LuoJia3-01 Satellite

Author

Rongfan Dai, Mi Wang, and Zhao Ye

Subjects

agile push-frame imaging, long-strip images products, relative orientation, geometric correction, GPU acceleration, Science

Abstract

Long-strip imaging is an important way of improving the coverage and acquisition efficiency of remote sensing satellite data. During the agile maneuver imaging process of the satellite, the LuoJia3-01 satellite can obtain a sequence of array long-strip images with a certain degree of overlap. Limited by the relative accuracy of satellite attitude, there will be relative misalignment between the sequence frame images, requiring high-precision geometric processing to meet the requirements of large-area remote sensing applications. Therefore, this study proposes a new method for the geometric correction of long-strip images without ground control points (GCPs) through GPU acceleration. Firstly, through the relative orientation of sequence images, the relative geometric errors between the images are corrected frame-by-frame. Then, block perspective transformation and image point densified filling (IPDF) direct mapping processing are carried out, mapping the sequence images frame-by-frame onto the stitched image. In this way, the geometric correction and image stitching of the sequence frame images are completed simultaneously. Finally, computationally intensive steps, such as point matching, coordinate transformation, and grayscale interpolation, are processed in parallel using GPU to further enhance the program’s execution efficiency. The experimental results show that the method proposed in this study achieves a stitching accuracy of less than 0.3 pixels for the geometrically corrected long-strip images, an internal geometric accuracy of less than 1.5 pixels, and an average processing time of less than 1.5 s per frame, meeting the requirements for high-precision near-real-time processing applications.

Published

2024

4. tRNA-derived small RNA dataset in multiple organs of intrauterine growth-restricted pig

Author

Ma Jianfeng, Gan Mailin, Yang Yiting, Chen Lei, Zhao Ye, Niu Lili, Wang Yan, Zhang Shunhua, Wang Jingyong, Zhu Li, and Shen Linyuan

Subjects

Science

Abstract

Abstract Intrauterine growth restriction (IUGR) impairs neonatal weight and causes multiple organ dysplasia. IUGR not only threatens human health but is also a significant constraint to the development of animal husbandry. However, the molecular mechanism underlying IUGR remains to be further elucidated. tRNA-derived small RNA (tsRNAs) is a regulative non-coding RNA, which has recently been reported to correlate with the onset and progression of several diseases. In this study, we investigated the tsRNAs expression profiles of IUGR pigs. A tsRNAs dataset for multiple organs in normal and IUGR pigs was generated, including muscle, liver, spleen and intestine. We further analyzed the characteristics of tsRNAs in different organs of pigs, and KEGG pathway analysis was performed to investigate possible pathways involved. This dataset will provide valuable information for further exploring the molecular mechanism of IUGR formation.

Published

2023

5. Assessment of quality of life in patients with craniopharyngioma and identification of risk factors for compromised overall wellness

Author

Ben Lin, Shiyuan Xiang, Jiajun Chen, Yu Jing, Zhao Ye, Yichao Zhang, Xiaoyun Cao, Zhiwen Yin, Nidan Qiao, and Xiang Zhou

Subjects

Craniopharyngioma, quality of life, depression, central diabetes insipidus, Medicine, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

ABSTRACT Objective: Quality of Life (QoL) has been a multifactorial concerning issue in oncology. We aimed to inspect the pre-operative QoL among patients with craniopharyngioma and to explore the potential correlations between parameters of QoL and clinical indices. Subjects and methods: We enrolled a total of 109 patients with craniopharyngioma. We utilized Short Form 36 (SF-36), Symptom Check List-90, Generalized Anxiety Disorder Questionnaire scale (GAD7), Patient Health Questionnaire Depression (PHQ9) and Pittsburgh Sleep Quality Index to prospectively evaluated their QoL. Parameters of QoL along with clinical indices were compared among sub-groups divided according to Puget classification. Correlation analyses and regression analyses were performed to detect influential determinants to self-reported wellness. Results: Patients presented impaired QoL compared with general population ( p < 0.001), as assessed by SF-36. Correlation analyses indicated the detrimental influence resulting from central diabetes insipidus (CDI). Multivariate linear regression unveiled the adverse effect of CDI on Mental Component Summary (coefficient = −13.869, p = 0.007), GAD7 total score (coefficient = 2.072, p = 0.049) as well as PHQ9 total score (coefficient = 3.721, p = 0.001). Multivariate logistic regression verified CDI as a risk factor of developing depressive symptoms (OR = 6.160, p = 0.001). Conclusion: QoL of patients with craniopharyngioma was remarkably compromised before operation. CDI exerted detrimental influences on patients’ QoL and it might serve as a marker for early identification of patients at risk of depression.

Published

2024

6. Ectopic recurrence craniopharyngioma: series report and literature review

Author

Chenxing Ji, Haixia Cheng, Xiang Zhou, Xiaoyun Cao, Nidan Qiao, Chengzhang Shi, Yichao Zhang, Zhao Ye, and Yao Zhao

Subjects

Ectopic recurrence, Craniopharyngioma, Case report, Literature review, Surgery, RD1-811, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Craniopharyngioma is a common intracranial tumor located in the sellar-suprasellar region. Due to the involvement of adjacent structures, it can lead to increased intracranial pressure, visual impairment, and endocrine deficiencies. Surgical resection is the primary treatment, but it is a tough challenge to achieve total resection, which will led to the frequency of recurrences and progressions. Among them, distant spread is extremely rare, but important complication, identifying and providing proper therapy, is crucial. Methods We report two cases of ectopic recurrence craniopharyngioma and make a literature review for the published similar case reports. Results Our literature review revealed 63 cases (including our patient). The onset age in children group and adult group ranges from 2–14 years old (6.70 ± 3.33) to 17–73 years old (40.63 ± 15.58), while the interval year between tumor initiation and ectopic recurrence ranges from 0.17–20 (7.28 ± 6.76) years to 0.3–34 (6.85 ± 7.29). Achieving gross total resection seems not to prevent the ectopic recurrence. The major pathology of ectopic recurrence craniopharyngioma is adamantinomatous type. The most common site of ectopic recurrence is frontal lobe. According to the pathogenesis, 35 cases were seeding along the surgical approach, and 28 cases were seeding via the CSF pathway. Conclusion Ectopic recurrence craniopharyngioma is rare, but it can lead to serious symptoms. Delicate surgical procedure can help to reduce the risk of ectopic recurrence, and standardized follow-up can provide valuable information for treatment.

Published

2023

7. Ion Irradiation Induced Leaching Property Changes of Borosilicate Glass

Author

JIANG Yu-zhe, WANG Zuo-jiang, SUN Zhao, ZHAO Ye-jun, DENG Wen-min, WANG Tie-shan, and CHEN Liang

Subjects

borosilicate glass, ion irradiation, leaching rate, raman spectrum, altered layer, Nuclear engineering. Atomic power, TK9001-9401, Chemical technology, TP1-1185

Abstract

In the process of deep geological disposal of high-level radioactive waste, the strong radiation field caused by the decay of radionuclides can lead to the leaching property changes of the waste glass. In this work, the 15 MeV Si ion irradiation was used to simulate the strong radiation field of deep geological disposal. The samples were immersed for 1, 3, 7, 14, and 28 days in KOH solution with pH=9.0 by using the MCC-1 method, respectively. The leaching behavior of the borosilicate glass before and after irradiation was studied by inductively coupled plasma emission spectrometer, Raman spectrometer and scanning electron microscope. It is observed that the leached glass surfaces occur constantly corrode and fall off with the increase of leaching time. The leaching rate of the irradiated glass samples is significantly higher than that of the unirradiated glass samples. Although it is observed that the thickness of altered layer is increased after irradiation, there are no significant difference in the structure and element composition of the altered layer between the unirradiated glass and the irradiated glass. The sodium and boron elements in the formed altered layer are basically depleted. The SiO2 network structure in the altered layer is dissolved, a large number of Si—OH bonds and borosilicate structures are created, and the transformation from four-coordinated boron units to three-coordinated boron units is also observed.

Published

2023

8. Animal model-based simulation training for three emergent and urgent operations of penetrating thoracic injuries

Author

Wen-Qiong Du, Xin Zhong, Ren-Qing Jiang, Zhao-Wen Zong, Yi-Jun Jia, Zhao Ye, and Xiao-Lin Zhou

Subjects

Penetrating thoracic injuries, Emergent operations, Urgent operations, Simulation training, Animal model, Medicine (General), R5-920

Abstract

Purpose: To develop animal models of penetrating thoracic injuries and to observe the effects of the animal model-based training on improving the trainees’ performance for emergent and urgent thoracic surgeries. Methods: With a homemade machine, animal models of lung injuries and penetrating heart injuries were produced in porcine and used for training of chest tube drainage, urgent sternotomy, and emergent thoracotomy. Coefficient of variation of abbreviated injury scale and blood loss was calculated to judge the reproducibility of animal models. Five operation teams from basic-level hospitals (group A) and five operation teams from level III hospitals (group B) were included to be trained and tested. Testing standards for the operations were established after thorough literature review, and expert questionnaires were employed to evaluate the scientificity and feasibility of the testing standards. Tests were carried out after the training. Pre- and post-training performances were compared. Post-training survey using 7-point Likert scale was taken to evaluate the feelings of the trainees to these training approaches. Results: Animal models of the three kinds of penetrating chest injuries were successfully established and the coefficient of variation of abbreviated injury scale and blood loss were all less than 25%. After literature review, testing standards were established, and expert questionnaire results showed that the scientific score was 7.30 ± 1.49, and the feasibility score was 7.50 ± 0.89. Post-training performance was significantly higher in both group A and group B than pre-training performance. Post-training survey showed that all the trainees felt confident in applying the operations and were generally agreed that the training procedure were very helpful in improving operation skills for thoracic penetrating injury. Conclusions: Animal model-based simulation training established in the current study could improve the trainees’ performance for emergent and urgent thoracic surgeries, especially of the surgical teams from basic-level hospitals.

Published

2023

9. Epidemiological and clinical features of children with the Omicron BA.5.2 subvariant in Guangzhou

Author

Feng Li, Yinghua He, Xianglong Lan, Lu Li, Fei Gu, Zhao Ye, Lv Wang, Zhenghui Cen, Weichun Zhu, and Haisheng Yu

Subjects

Medicine, Biology (General), QH301-705.5

Published

2023

10. Single-cell transcriptome reveals cellular hierarchies and guides p-EMT-targeted trial in skull base chordoma

Author

Qilin Zhang, Lijiang Fei, Rui Han, Ruofan Huang, Yongfei Wang, Hong Chen, Boyuan Yao, Nidan Qiao, Zhe Wang, Zengyi Ma, Zhao Ye, Yichao Zhang, Weiwei Wang, Ye Wang, Lin Kong, Xuefei Shou, Xiaoyun Cao, Xiang Zhou, Ming Shen, Haixia Cheng, Zhenwei Yao, Chao Zhang, Guoji Guo, and Yao Zhao

Subjects

Cytology, QH573-671

Abstract

Abstract Skull base chordoma (SBC) is a bone cancer with a high recurrence rate, high radioresistance rate, and poorly understood mechanism. Here, we profiled the transcriptomes of 90,691 single cells, revealed the SBC cellular hierarchies, and explored novel treatment targets. We identified a cluster of stem-like SBC cells that tended to be distributed in the inferior part of the tumor. Combining radiated UM-Chor1 RNA-seq data and in vitro validation, we further found that this stem-like cell cluster is marked by cathepsin L (CTSL), a gene involved in the packaging of telomere ends, and may be responsible for radioresistance. Moreover, signatures related to partial epithelial–mesenchymal transition (p-EMT) were found to be significant in malignant cells and were related to the invasion and poor prognosis of SBC. Furthermore, YL-13027, a p-EMT inhibitor that acts through the TGF-β signaling pathway, demonstrated remarkable potency in inhibiting the invasiveness of SBC in preclinical models and was subsequently applied in a phase I clinical trial that enrolled three SBC patients. Encouragingly, YL-13027 attenuated the growth of SBC and achieved stable disease with no serious adverse events, underscoring the clinical potential for the precision treatment of SBC with this therapy. In summary, we conducted the first single-cell RNA sequencing of SBC and identified several targets that could be translated to the treatment of SBC.

Published

2022

11. Establishment of a combat damage control surgery training platform for explosive combined thoraco-abdominal injuries

Author

Wen-Qiong Du, Ren-Qing Jiang, Zhao-Wen Zong, Lin Zhang, Zhao Ye, Xin Zhong, and Yi-Jun Jia

Subjects

Damage control surgery, Simulation training, Warfare, Explosions, Test, Medicine (General), R5-920

Abstract

Purpose: It is challenging to prepare military surgeons with the skills of combat damage control surgery (CDCS). The current study aimed to establish a damage control surgery (DCS) training platform for explosive combined thoraco-abdominal injuries. Methods: The training platform established in this study consisted of 3 main components: (1) A 50 m × 50 m square yard was constructed as the explosion site. Safety was assessed through cameras. (2) Sixteen pigs were injured by an explosion of trinitrotoluene attached with steel balls and were randomly divided into the DCS group (accepted DCS) and the control group (have not accepted DCS). The mortality rate was observed. (3) The literature was reviewed to identify the key factors for assessing CDCS, and testing standards for CDCS were then established. Expert questionnaires were employed to evaluate the scientificity and feasibility of the testing standards. Then, a 5-day training course with incorporated tests was used to test the efficacy of the established platform. In total, 30 teams attended the first training course. The scores that the trainees received before and after the training were compared. SPSS 11.0 was employed to analyze the results. Results: The high-speed video playback confirmed the safety of the explosion site as no explosion fragments projected beyond the wall. No pig died within 24 h when DCS was performed, while 7 pigs died in the control group. After a literature review, assessment criteria for CDCS were established that had a total score of 100 points and had 4 major parts: leadership and team cooperation, resuscitation, surgical procedure, and final outcome. Expert questionnaire results showed that the scientific score was 8.6 ± 1.25, and the feasibility score was 8.74 ± 1.19. When compared with the basic level, the trainees’ score improved significantly after training. Conclusion: The platform established in this study was useful for CDCS training.

Published

2022

12. A Novel Scenario-Based, Mixed-Reality Platform for Training Nontechnical Skills of Battlefield First Aid: Prospective Interventional Study

Author

Wenqiong Du, Xin Zhong, Yijun Jia, Renqing Jiang, Haoyang Yang, Zhao Ye, and Zhaowen Zong

Subjects

Information technology, T58.5-58.64, Public aspects of medicine, RA1-1270

Abstract

BackgroundAlthough battlefield first aid (BFA) training shares many common features with civilian training, such as the need to address technical skills and nontechnical skills (NTSs), it is more highly scenario-dependent. Studies into extended reality show clear benefits in medical training; however, the training effects of extended reality on NTSs, including teamwork and decision-making in BFA, have not been fully proven. ObjectiveThe current study aimed to create and test a scenario-based, mixed-reality platform suitable for training NTSs in BFA. MethodsFirst, using next-generation modeling technology and an animation synchronization system, a 10-person offensive battle drill was established. Decision-making training software addressing basic principles of tactical combat casualty care was constructed and integrated into the scenarios with Unreal Engine 4 (Epic Games). Large-space teamwork and virtual interaction systems that made sense in the proposed platform were developed. Unreal Engine 4 and software engineering technology were used to combine modules to establish a mixed-reality BFA training platform. A total of 20 Grade 4 medical students were recruited to accept BFA training with the platform. Pretraining and posttraining tests were carried out in 2 forms to evaluate the training effectiveness: one was knowledge acquisition regarding the NTS and the other was a real-world, scenario-based test. In addition, the students were asked to rate their agreement with a series of survey items on a 5-point Likert scale. ResultsA battlefield geographic environment, tactical scenarios, scenario-based decision software, large-space teamwork, and virtual interaction system modules were successfully developed and combined to establish the mixed-reality training platform for BFA. The posttraining score of the students’ knowledge acquisition was significantly higher than that of pretraining (t=−12.114; P≤.001). Furthermore, the NTS score and the total score that the students obtained in the real-world test were significantly higher than those before training (t=−17.756 and t=−21.354, respectively; P≤.001). However, there was no significant difference between the scores of technical skills that the students obtained before and after training. A posttraining survey revealed that the students found the platform helpful in improving NTSs for BFA, and they were confident in applying BFA skills after training. However, most trainees thought that the platform was not helpful for improving the technical skills of BFA, and 45% (9/20) of the trainees were not satisfied with the simulation effect. ConclusionsA scenario-based, mixed-reality platform was constructed in this study. In this platform, interaction of the movement of multiple players in a large space and the interaction of decision-making by the trainees between the real world and the virtual world were accomplished. The platform could improve the NTSs of BFA. Future works, including improvement of the simulation effects and development of a training platform that could effectively improve both the technical skills and NTSs of BFA, will be carried out.

Published

2022

13. Opt2Skill: Imitating Dynamically-feasible Whole-Body Trajectories for Versatile Humanoid Loco-Manipulation

Author

Liu, Fukang, Gu, Zhaoyuan, Cai, Yilin, Zhou, Ziyi, Zhao, Shijie, Jung, Hyunyoung, Ha, Sehoon, Chen, Yue, Xu, Danfei, and Zhao, Ye

Subjects

Computer Science - Robotics

Abstract

Humanoid robots are designed to perform diverse loco-manipulation tasks. However, they face challenges due to their high-dimensional and unstable dynamics, as well as the complex contact-rich nature of the tasks. Model-based optimal control methods offer precise and systematic control but are limited by high computational complexity and accurate contact sensing. On the other hand, reinforcement learning (RL) provides robustness and handles high-dimensional spaces but suffers from inefficient learning, unnatural motion, and sim-to-real gaps. To address these challenges, we introduce Opt2Skill, an end-to-end pipeline that combines model-based trajectory optimization with RL to achieve robust whole-body loco-manipulation. We generate reference motions for the Digit humanoid robot using differential dynamic programming (DDP) and train RL policies to track these trajectories. Our results demonstrate that Opt2Skill outperforms pure RL methods in both training efficiency and task performance, with optimal trajectories that account for torque limits enhancing trajectory tracking. We successfully transfer our approach to real-world applications.

Published

2024

14. Optimization-based Task and Motion Planning under Signal Temporal Logic Specifications using Logic Network Flow

Author

Lin, Xuan, Ren, Jiming, Coogan, Samuel, and Zhao, Ye

Subjects

Computer Science - Robotics, Computer Science - Formal Languages and Automata Theory

Abstract

This paper proposes an optimization-based task and motion planning framework, named ``Logic Network Flow", to integrate signal temporal logic (STL) specifications into efficient mixed-binary linear programmings. In this framework, temporal predicates are encoded as polyhedron constraints on each edge of the network flow, instead of as constraints between the nodes as in the traditional Logic Tree formulation. Synthesized with Dynamic Network Flows, Logic Network Flows render a tighter convex relaxation compared to Logic Trees derived from these STL specifications. Our formulation is evaluated on several multi-robot motion planning case studies. Empirical results demonstrate that our formulation outperforms Logic Tree formulation in terms of computation time for several planning problems. As the problem size scales up, our method still discovers better lower and upper bounds by exploring fewer number of nodes during the branch-and-bound process, although this comes at the cost of increased computational load for each node when exploring branches.

Published

2024

15. Terrain-Aware Model Predictive Control of Heterogeneous Bipedal and Aerial Robot Coordination for Search and Rescue Tasks

Author

Shamsah, Abdulaziz, Jiang, Jesse, Yoon, Ziwon, Coogan, Samuel, and Zhao, Ye

Subjects

Computer Science - Robotics

Abstract

Humanoid robots offer significant advantages for search and rescue tasks, thanks to their capability to traverse rough terrains and perform transportation tasks. In this study, we present a task and motion planning framework for search and rescue operations using a heterogeneous robot team composed of humanoids and aerial robots. We propose a terrain-aware Model Predictive Controller (MPC) that incorporates terrain elevation gradients learned using Gaussian processes (GP). This terrain-aware MPC generates safe navigation paths for the bipedal robots to traverse rough terrain while minimizing terrain slopes, and it directs the quadrotors to perform aerial search and mapping tasks. The rescue subjects' locations are estimated by a target belief GP, which is updated online during the map exploration. A high-level planner for task allocation is designed by encoding the navigation tasks using syntactically cosafe Linear Temporal Logic (scLTL), and a consensus-based algorithm is designed for task assignment of individual robots. We evaluate the efficacy of our planning framework in simulation in an uncertain environment with various terrains and random rescue subject placements., Comment: 7 pages, 4 figures

Published

2024

16. Author Correction: Identification of recurrent USP48 and BRAF mutations in Cushing’s disease

Author

Jianhua Chen, Xuemin Jian, Siyu Deng, Zengyi Ma, Xuefei Shou, Yue Shen, Qilin Zhang, Zhijian Song, Zhiqiang Li, Hong Peng, Cheng Peng, Min Chen, Cheng Luo, Dan Zhao, Zhao Ye, Ming Shen, Yichao Zhang, Juan Zhou, Aamir Fahira, Yongfei Wang, Shiqi Li, Zhaoyun Zhang, Hongying Ye, Yiming Li, Jiawei Shen, Hong Chen, Feng Tang, Zhenwei Yao, Zhifeng Shi, Chunjui Chen, Lu Xie, Ye Wang, Chaowei Fu, Ying Mao, Liangfu Zhou, Daming Gao, Hai Yan, Yao Zhao, Chuanxin Huang, and Yongyong Shi

Subjects

Science

Published

2023

17. Reorganization of 3D chromatin architecture in doxorubicin-resistant breast cancer cells

Author

Xuelong Wang, Jizhou Yan, Zhao Ye, Zhiqiang Zhang, Sheng Wang, Shuang Hao, Baiyong Shen, and Gang Wei

Subjects

3D genome reorganization, doxorubicin resistance, breast cancer, compartment switching, TAD boundary, enhancer-promoter interaction, Biology (General), QH301-705.5

Abstract

Background: Doxorubicin resistance remains a major therapeutic challenge leading to poor survival prognosis and treatment failure in breast cancer. Although doxorubicin induces massive changes in the transcriptional landscape are well known, potential diagnostic or therapeutic targets associated with the reorganization of three-dimensional (3D) chromatin architecture have not yet been systematically investigated.Methods: Here we performed in situ high-throughput chromosome conformation capture (Hi-C) on parental and doxorubicin-resistant MCF7 (MCF7-DR) human breast cancer cells, followed by integrative analysis of HiC, ATAC-seq, RNA-seq and TCGA data.Results: It revealed that A/B compartment switching was positively correlated to genome-wide differential gene expression. The genome of MCF7-DR cells was spatially reorganized into smaller topologically associating domains (TADs) and chromatin loops. We also revealed the contribution of increased chromatin accessibility and potential transcription factor families, including CTCF, AP-1 and bHLH, to gained TADs or loops. Intriguingly, we observed two condensed genomic regions (∼20 kb) with decreased chromatin accessibility flanking TAD boundaries, which might play a critical role in the formation or maintenance of TADs. Finally, combining data from TCGA, we identified a number of gained and lost enhancer-promoter interactions and their corresponding differentially expressed genes involved in chromatin organization and breast cancer signaling pathways, including FA2H, FOXA1 and JRKL, which might serve as potential treatment targets for breast cancer.Conclusion: These data uncovered a close connection between 3D genome reorganization, chromatin accessibility as well as gene transcription and provide novel insights into the epigenomic mechanisms involving doxorubicin resistance in breast cancer.

Published

2022

18. A Unified Approach to Multi-task Legged Navigation: Temporal Logic Meets Reinforcement Learning

Author

Jiang, Jesse, Coogan, Samuel, and Zhao, Ye

Subjects

Computer Science - Robotics

Abstract

This study examines the problem of hopping robot navigation planning to achieve simultaneous goal-directed and environment exploration tasks. We consider a scenario in which the robot has mandatory goal-directed tasks defined using Linear Temporal Logic (LTL) specifications as well as optional exploration tasks represented using a reward function. Additionally, there exists uncertainty in the robot dynamics which results in motion perturbation. We first propose an abstraction of 3D hopping robot dynamics which enables high-level planning and a neural-network-based optimization for low-level control. We then introduce a Multi-task Product IMDP (MT-PIMDP) model of the system and tasks. We propose a unified control policy synthesis algorithm which enables both task-directed goal-reaching behaviors as well as task-agnostic exploration to learn perturbations and reward. We provide a formal proof of the trade-off induced by prioritizing either LTL or RL actions. We demonstrate our methods with simulation case studies in a 2D world navigation environment., Comment: 8 pages, 4 figures

Published

2024

19. Socially Acceptable Bipedal Robot Navigation via Social Zonotope Network Model Predictive Control

Author

Shamsah, Abdulaziz, Agarwal, Krishanu, Katta, Nigam, Raju, Abirath, Kousik, Shreyas, and Zhao, Ye

Subjects

Computer Science - Robotics

Abstract

This study addresses the challenge of social bipedal navigation in a dynamic, human-crowded environment, a research area largely underexplored in legged robot navigation. We present a zonotope-based framework that couples prediction and motion planning for a bipedal ego-agent to account for bidirectional influence with the surrounding pedestrians. This framework incorporates a Social Zonotope Network (SZN), a neural network that predicts future pedestrian reachable sets and plans future socially acceptable reachable set for the ego-agent. SZN generates the reachable sets as zonotopes for efficient reachability-based planning, collision checking, and online uncertainty parameterization. Locomotion-specific losses are added to the SZN training process to adhere to the dynamic limits of the bipedal robot that are not explicitly present in the human crowds data set. These loss functions enable the SZN to generate locomotion paths that are more dynamically feasible for improved tracking. SZN is integrated with a Model Predictive Controller (SZN-MPC) for footstep planning for our bipedal robot Digit. SZN-MPC solves for collision-free trajectory by optimizing through SZN's gradients. and Our results demonstrate the framework's effectiveness in producing a socially acceptable path, with consistent locomotion velocity, and optimality. The SZN-MPC framework is validated with extensive simulations and hardware experiments., Comment: 19 pages, 19 figures. arXiv admin note: text overlap with arXiv:2403.16485, arXiv:2310.09969

Published

2024

20. Characteristics of Gut Microbiota in Patients with GH-Secreting Pituitary Adenoma

Author

Ben Lin, Meng Wang, Renyuan Gao, Zhao Ye, Yifei Yu, Wenqiang He, Nidan Qiao, Zengyi Ma, Chenxing Ji, Chengzhang Shi, Xiang Zhou, Yi Wang, Fangfang Zeng, Li Zhang, Wei Gong, Zhan Cao, Peng Zhou, Vladimir Melnikov, Hongying Ye, Yiming Li, Zhaoyun Zhang, Min He, Huanlong Qin, and Yichao Zhang

Subjects

clinical therapeutics, metabolism, metagenomics, Microbiology, QR1-502

Abstract

ABSTRACT Prior study has demonstrated that gut microbiota at the genus level is significantly altered in patients with growth hormone (GH)-secreting pituitary adenoma (GHPA). Yet, no studies exist describing the state of gut microbiota at species level in GHPA. We performed a study using 16S rRNA amplicon sequencing in a cohort of patients with GH-secreting pituitary adenoma (GHPA, n = 28) and healthy controls (n = 67). Among them, 9 patients and 10 healthy controls were randomly chosen and enrolled in metagenomics shotgun sequencing, generating 280,426,512 reads after aligning to NCBI GenBank DataBase to acquire taxa information at the species level. Weighted UniFrac analysis revealed that microbial diversity was notably decreased in patients with GHPA, consistent with a previous study. With 16S rRNA sequencing, after correction for false-discovery rate (FDR), rank-sum test at the genus level revealed that the relative abundance of Oscillibacter and Enterobacter was remarkably increased in patients and Blautia and Romboutsia genera predominated in the controls, augmented by additional LEfSe (linear discriminant analysis effect size) analysis. As for further comparison at the species level with metagenomics sequencing, rank-sum test together with LEfSe analysis confirmed the enrichment of Alistipes shahii and Odoribacter splanchnicus in the patient group. Notably, LEfSe analysis with metagenomics also demonstrated that Enterobacter sp. DC1 and Enterobacter sp. 940 PEND, derived from Enterobacter, were both significantly enriched in patients. Functional analysis showed that amino acid metabolism pathway was remarkably enriched in GHPA, while carbohydrate metabolism pathway was notably enriched in controls. Further, significant positive correlations were observed between Enterobacter and baseline insulin-like growth factor 1 (IGF-1), indicating that Enterobacter may be strongly associated with GH/IGF-1 axis in GHPA. Our data extend our insight into the GHPA microbiome, which may shed further light on GHPA pathogenesis and facilitate the exploration of novel therapeutic targets based on microbiota manipulation. IMPORTANCE Dysbiosis of gut microbiota is associated not only with intestinal disorders but also with numerous extraintestinal diseases. Growth hormone-secreting pituitary adenoma (GHPA) is an insidious disease with persistent hypersecretion of GH and IGF-1, causing increased morbidity and mortality. Researches have reported that the GH/IGF-1 axis exerts its own influence on the intestinal microflora. Here, the results showed that compared with healthy controls, GHPA patients not only decreased the alpha diversity of the intestinal flora but also significantly changed their beta diversity. Further, metagenomics shotgun sequencing in the present study exhibited that Enterobacter sp. DC1 and Enterobacter sp. 940 PEND were enriched in patients. Also, we were pleasantly surprised to find that the Enterobacter genus was strongly positively correlated with baseline IGF-1 levels. Collectively, our work provides the first glimpse of the dysbiosis of the gut microbiota at species level, providing a better understanding of the pathophysiological process of GHPA.

Published

2022

21. Impact of Pituitary Stalk Preservation on Tumor Recurrence/Progression and Surgically Induced Endocrinopathy After Endoscopic Endonasal Resection of Suprasellar Craniopharyngiomas

Author

Zhengyuan Chen, Zengyi Ma, Wenqiang He, Xuefei Shou, Zhao Ye, Yichao Zhang, Qilin Zhang, Nidan Qiao, Xiang Zhou, Xiaoyun Cao, Min He, Zhaoyun Zhang, Hongying Ye, Yiming Li, Shiqi Li, Yao Zhao, Ming Shen, and Yongfei Wang

Subjects

craniopharyngioma, EEA surgery, pituitary stalk, recurrence, progression, endocrinopathy, Neurology. Diseases of the nervous system, RC346-429

Abstract

Objective: To investigate the factors associated with recurrence/progression after endoscopic endonasal resection of suprasellar craniopharyngiomas. Special attention was paid to assess the impact of pituitary stalk preservation on tumor recurrence/progression and endocrinological outcomes.Methods: We retrospectively recruited 73 patients with suprasellar craniopharyngiomas undergone endoscopic endonasal approach (EEA) surgery from September 2014 to May 2019 and assessed their clinical characteristics, surgical outcomes, and recurrence/progression. Stalk preservation or sacrifice was determined by reviewing operative records, videos, and post-operative magnetic resonance imaging.Results: Gross total resection (GTR) was achieved in 51 cases (69.9%). Tumor recurrence was seen in 5 cases (9.8%) and progression was seen in 8 cases (36.4%), respectively. GTR (OR = 0.248 CI 0.081–0.759; p = 0.015) was the only independent factor influencing recurrence/progression. Kaplan-Meier survival analysis showed that the mean recurrence/progression-free survival were 53 (95% CI 48–59) and 39 (95% CI 28–50) months, respectively, in patients with and without GTR (p = 0.011). Pituitary stalk preservation was more common in cases with peripheral type tumors (83% vs. 30%, p < 0.01). Preserving the pituitary stalk does not appear to decrease the percentage of GTR (75.5% vs. 55.0%, p = 0.089), or increase the rate of tumor recurrence (12.5% vs. 0%, p = 0.508) or progression (46.2% vs. 22.2%, p = 0.486). However, surgically induced hypothyroidism (60.5% vs. 100%, p = 0.041) and diabetes insipidus (35.1% vs. 81.8%, p = 0.017) were significantly lower in patients with stalk preservation. For patients who had hypopituitarism before EEA, there was no difference between those with and without stalk preservation regarding post-operative hypopituitarism (p > 0.05).Conclusion: GTR is the only independent predictor of recurrence/progression after EEA surgery for suprasellar craniopharyngiomas. Preserving the pituitary stalk does not appear to increase the risk of non-GTR and tumor recurrence/progression and might help reduce the risk of surgically induced hypothyroidism and diabetes insipidus. We recommend preserving the pituitary stalk in peripheral type suprasellar craniopharyngiomas with normal pituitary function, especially in cases without hypothyroidism or diabetes insipidus. On the other hand, stalk sacrifice could be considered in central type tumors with severe pre-operative endocrinopathy.

Published

2021

22. Treatment of acromegaly by rosiglitazone via upregulating 15-PGDH in both pituitary adenoma and liver

Author

Yichao Zhang, Meng Wang, Chenxing Ji, Zhengyuan Chen, Hui Yang, Lei Wang, Yifei Yu, Nidan Qiao, Zengyi Ma, Zhao Ye, Xiaoqing Shao, Wenjuan Liu, Yi Wang, Wei Gong, Vladimir Melnikov, Lydia Hu, Eun Jig Lee, Hongying Ye, Yongfei Wang, Yiming Li, Min He, Yao Zhao, and Zhaoyun Zhang

Subjects

Medicine, Human specimen, Cancer, Science

Abstract

Summary: Rosiglitazone, a synthetic peroxisome proliferator-activated receptor γ (PPARγ) ligand, has been reported to reduce growth hormone (GH) and insulin-like growth factor-1 (IGF-1) in 10 patients with acromegaly. However, the mechanisms remain unknown. Here, we reveal that PPARγ directly enhances 15-hydroxyprostaglandin dehydrogenase (15-PGDH) expression, whose expression is decreased and negatively correlates with tumor size in acromegaly. Rosiglitazone decreases GH production and promotes apoptosis and autophagy in GH3 and primary somatotroph adenoma cells and suppresses hepatic GH receptor (GHR) expression and IGF-1 secretion in HepG2 cells. Activating the PGE2/cAMP/PKA pathway directly increases GHR expression. Rosiglitazone suppresses tumor growth and decreases GH and IGF-1 levels in mice inoculated subcutaneously with GH3 cells. The above effects are all dependent on 15-PGDH expression. Rosiglitazone as monotherapy effectively decreases GH and IGF-1 levels in all nineteen patients with active acromegaly. Evidence suggests that rosiglitazone may be an alternative pharmacological approach for acromegaly by targeting both pituitary adenomas and liver.

Published

2021

23. A Survey of Optimization-based Task and Motion Planning: From Classical To Learning Approaches

Author

Zhao, Zhigen, Cheng, Shuo, Ding, Yan, Zhou, Ziyi, Zhang, Shiqi, Xu, Danfei, and Zhao, Ye

Subjects

Computer Science - Robotics, Computer Science - Artificial Intelligence

Abstract

Task and Motion Planning (TAMP) integrates high-level task planning and low-level motion planning to equip robots with the autonomy to effectively reason over long-horizon, dynamic tasks. Optimization-based TAMP focuses on hybrid optimization approaches that define goal conditions via objective functions and are capable of handling open-ended goals, robotic dynamics, and physical interaction between the robot and the environment. Therefore, optimization-based TAMP is particularly suited to solve highly complex, contact-rich locomotion and manipulation problems. This survey provides a comprehensive review on optimization-based TAMP, covering (i) planning domain representations, including action description languages and temporal logic, (ii) individual solution strategies for components of TAMP, including AI planning and trajectory optimization (TO), and (iii) the dynamic interplay between logic-based task planning and model-based TO. A particular focus of this survey is to highlight the algorithm structures to efficiently solve TAMP, especially hierarchical and distributed approaches. Additionally, the survey emphasizes the synergy between the classical methods and contemporary learning-based innovations such as large language models. Furthermore, the future research directions for TAMP is discussed in this survey, highlighting both algorithmic and application-specific challenges., Comment: 26 pages, 13 figures, published at IEEE/ASME Transactions on Mechatronics

Published

2024

24. LTL-D*: Incrementally Optimal Replanning for Feasible and Infeasible Tasks in Linear Temporal Logic Specifications

Author

Ren, Jiming, Miller, Haris, Feigh, Karen M., Coogan, Samuel, and Zhao, Ye

Subjects

Computer Science - Robotics, Computer Science - Formal Languages and Automata Theory

Abstract

This paper presents an incremental replanning algorithm, dubbed LTL-D*, for temporal-logic-based task planning in a dynamically changing environment. Unexpected changes in the environment may lead to failures in satisfying a task specification in the form of a Linear Temporal Logic (LTL). In this study, the considered failures are categorized into two classes: (i) the desired LTL specification can be satisfied via replanning, and (ii) the desired LTL specification is infeasible to meet strictly and can only be satisfied in a "relaxed" fashion. To address these failures, the proposed algorithm finds an optimal replanning solution that minimally violates desired task specifications. In particular, our approach leverages the D* Lite algorithm and employs a distance metric within the synthesized automaton to quantify the degree of the task violation and then replan incrementally. This ensures plan optimality and reduces planning time, especially when frequent replanning is required. Our approach is implemented in a robot navigation simulation to demonstrate a significant improvement in the computational efficiency for replanning by two orders of magnitude., Comment: 8 pages,9 figures

Published

2024

25. Visualizing Routes with AI-Discovered Street-View Patterns

Author

Wu, Tsung Heng, Amiruzzaman, Md, Zhao, Ye, Bhati, Deepshikha, and Yang, Jing

Subjects

Computer Science - Human-Computer Interaction, Computer Science - Machine Learning

Abstract

Street-level visual appearances play an important role in studying social systems, such as understanding the built environment, driving routes, and associated social and economic factors. It has not been integrated into a typical geographical visualization interface (e.g., map services) for planning driving routes. In this paper, we study this new visualization task with several new contributions. First, we experiment with a set of AI techniques and propose a solution of using semantic latent vectors for quantifying visual appearance features. Second, we calculate image similarities among a large set of street-view images and then discover spatial imagery patterns. Third, we integrate these discovered patterns into driving route planners with new visualization techniques. Finally, we present VivaRoutes, an interactive visualization prototype, to show how visualizations leveraged with these discovered patterns can help users effectively and interactively explore multiple routes. Furthermore, we conducted a user study to assess the usefulness and utility of VivaRoutes., Comment: 12 pages, 10 figures, and 3 tables

Published

2024

26. Real-time Model Predictive Control with Zonotope-Based Neural Networks for Bipedal Social Navigation

Author

Shamsah, Abdulaziz, Agarwal, Krishanu, Kousik, Shreyas, and Zhao, Ye

Subjects

Computer Science - Robotics

Abstract

This study addresses the challenge of bipedal navigation in a dynamic human-crowded environment, a research area that remains largely underexplored in the field of legged navigation. We propose two cascaded zonotope-based neural networks: a Pedestrian Prediction Network (PPN) for pedestrians' future trajectory prediction and an Ego-agent Social Network (ESN) for ego-agent social path planning. Representing future paths as zonotopes allows for efficient reachability-based planning and collision checking. The ESN is then integrated with a Model Predictive Controller (ESN-MPC) for footstep planning for our bipedal robot Digit designed by Agility Robotics. ESN-MPC solves for a collision-free optimal trajectory by optimizing through the gradients of ESN. ESN-MPC optimal trajectory is sent to the low-level controller for full-order simulation of Digit. The overall proposed framework is validated with extensive simulations on randomly generated initial settings with varying human crowd densities., Comment: 8 pages, 9 figures

Published

2024

27. Bipedal Safe Navigation over Uncertain Rough Terrain: Unifying Terrain Mapping and Locomotion Stability

Author

Muenprasitivej, Kasidit, Jiang, Jesse, Shamsah, Abdulaziz, Coogan, Samuel, and Zhao, Ye

Subjects

Computer Science - Robotics

Abstract

We study the problem of bipedal robot navigation in complex environments with uncertain and rough terrain. In particular, we consider a scenario in which the robot is expected to reach a desired goal location by traversing an environment with uncertain terrain elevation. Such terrain uncertainties induce not only untraversable regions but also robot motion perturbations. Thus, the problems of terrain mapping and locomotion stability are intertwined. We evaluate three different kernels for Gaussian process (GP) regression to learn the terrain elevation. We also learn the motion deviation resulting from both the terrain as well as the discrepancy between the reduced-order Prismatic Inverted Pendulum Model used for planning and the full-order locomotion dynamics. We propose a hierarchical locomotion-dynamics-aware sampling-based navigation planner. The global navigation planner plans a series of local waypoints to reach the desired goal locations while respecting locomotion stability constraints. Then, a local navigation planner is used to generate a sequence of dynamically feasible footsteps to reach local waypoints. We develop a novel trajectory evaluation metric to minimize motion deviation and maximize information gain of the terrain elevation map. We evaluate the efficacy of our planning framework on Digit bipedal robot simulation in MuJoCo., Comment: 10 pages, 10 figures

Published

2024

28. Robust-Locomotion-by-Logic: Perturbation-Resilient Bipedal Locomotion via Signal Temporal Logic Guided Model Predictive Control

Author

Gu, Zhaoyuan, Zhao, Yuntian, Chen, Yipu, Guo, Rongming, Leestma, Jennifer K., Sawicki, Gregory S., and Zhao, Ye

Subjects

Computer Science - Robotics

Abstract

This study introduces a robust planning framework that utilizes a model predictive control (MPC) approach, enhanced by incorporating signal temporal logic (STL) specifications. This marks the first-ever study to apply STL-guided trajectory optimization for bipedal locomotion, specifically designed to handle both translational and orientational perturbations. Existing recovery strategies often struggle with reasoning complex task logic and evaluating locomotion robustness systematically, making them susceptible to failures caused by inappropriate recovery strategies or lack of robustness. To address these issues, we design an analytical robustness metric for bipedal locomotion and quantify this metric using STL specifications, which guide the generation of recovery trajectories to achieve maximum locomotion robustness. To enable safe and computational-efficient crossed-leg maneuver, we design data-driven self-leg-collision constraints that are $1000$ times faster than the traditional inverse-kinematics-based approach. Our framework outperforms a state-of-the-art locomotion controller, a standard MPC without STL, and a linear-temporal-logic-based planner in a high-fidelity dynamic simulation, especially in scenarios involving crossed-leg maneuvers. Additionally, the Cassie bipedal robot achieves robust performance under horizontal and orientational perturbations such as those observed in ship motions. These environments are validated in simulations and deployed on hardware. Furthermore, our proposed method demonstrates versatility on stepping stones and terrain-agnostic features on inclined terrains.

Published

2024

29. Erectile Dysfunction Is Associated With Excessive Growth Hormone Levels in Male Patients With Acromegaly

Author

Zhengyuan Chen, Xiaoqing Shao, Min He, Ming Shen, Wei Gong, Meng Wang, Yichao Zhang, Wenjuan Liu, Zengyi Ma, Zhao Ye, Yongning Lu, Nianqin Yang, Shanwen Chen, Lydia Hu, Yiming Li, Yongfei Wang, Yao Zhao, and Zhaoyun Zhang

Subjects

acromegaly, erectile dysfunction, NPTR assessment, GH suppression, sexual dysfunction, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

ObjectiveTo determine the risk factors for erectile dysfunction (ED) in male patients with acromegaly and to prospectively investigate the short-term changes of erectile function after surgery or medical treatment.MethodsSixty-three male patients were subjected to nocturnal penile tumescence and rigidity (NPTR) test for the evaluation of erectile function. The measurement of serum nitric oxide (NO) was also performed. Twenty-seven patients were re-evaluated by NPTR after surgery or long-term somatostatin analogues (SSA) treatment.ResultsTwenty-two patients (34.9%) had ED. Patients with ED showed higher random GH (17.89 [10.97-44.19] μg/L vs 11.63 [4.31-28.80] μg/L, p = 0.020) and GH nadir (GHn) (10.80 [6.69-38.30] μg/L vs 8.76 [3.62-18.19] μg/L, p = 0.044) during oral glucose tolerance test (OGTT). The NO levels of ED patients were lower than non-ED patients (9.15 [5.58-22.48] μmol/L vs 16.50 [12.33-31.78] μmol/L, p = 0.012). After treatment, patients who present improvement in erectile function showed lower post-GHn (0.07 [0.03-0.12] ng/ml vs 1.32 [0.09-3.60] ng/ml, p = 0.048) and post-IGF-1 index (1.03 ± 0.38 vs 1.66 ± 0.95, p = 0.049). The multivariate analysis indicated post-GHn was still associated with the improvement of erectile function after correction of other covariates (OR: 0.059, 95% CI: 0.003-1.043, p = 0.053).ConclusionsExcessive GH is related to ED in male patients with acromegaly. GH normalization after treatment is beneficial for short-term erectile function recovery.

Published

2021

30. The role of intraoperative central lymph node biopsy in the treatment of clinically low-risk PTMC

Author

Cai, Wei, Wang, Yajun, Zhao, Jing, Li, Kaifu, Zhao, Ye, and Kang, Hua

Published

2024

31. TNIK in disease: from molecular insights to therapeutic prospects

Author

Wu, Xue, Zhang, Zhe, Qiu, Zhenye, Wu, Xiaopeng, Chen, Junmin, Liu, Lu, Liu, Xiaoyi, Zhao, Shiyan, Yang, Yang, and Zhao, Ye

Published

2024

32. Anomalous magnetic property and broadband photodetection in ultrathin non-layered manganese selenide semiconductor

Author

Zhao, Ye, Yang, Ruilong, Yang, Ke, Dou, Jiarui, Yang, Xiaoting, Guo, Jinzhong, Zhou, Guowei, and Xu, Xiaohong

Published

2024

33. Selection of prenatal screening with nuchal translucency > 95th centile and below 99th centile: a 4-year observational study with real-world data

Author

Zhang, Bin, Zhang, Long-Xiu, Yi, Jiao, Wang, Chao-Hong, and Zhao, Ye

Published

2024

34. Identification of recurrent USP48 and BRAF mutations in Cushing’s disease

Author

Jianhua Chen, Xuemin Jian, Siyu Deng, Zengyi Ma, Xuefei Shou, Yue Shen, Qilin Zhang, Zhijian Song, Zhiqiang Li, Hong Peng, Cheng Peng, Min Chen, Cheng Luo, Dan Zhao, Zhao Ye, Ming Shen, Yichao Zhang, Juan Zhou, Aamir Fahira, Yongfei Wang, Shiqi Li, Zhaoyun Zhang, Hongying Ye, Yiming Li, Jiawei Shen, Hong Chen, Feng Tang, Zhenwei Yao, Zhifeng Shi, Chunjui Chen, Lu Xie, Ye Wang, Chaowei Fu, Ying Mao, Liangfu Zhou, Daming Gao, Hai Yan, Yao Zhao, Chuanxin Huang, and Yongyong Shi

Subjects

Science

Abstract

Abstract Cushing’s disease results from corticotroph adenomas of the pituitary that hypersecrete adrenocorticotropin (ACTH), leading to excess glucocorticoid and hypercortisolism. Mutations of the deubiquitinase gene USP8 occur in 35–62% of corticotroph adenomas. However, the major driver mutations in USP8 wild-type tumors remain elusive. Here, we report recurrent mutations in the deubiquitinase gene USP48 (predominantly encoding p.M415I or p.M415V; 21/91 subjects) and BRAF (encoding p.V600E; 15/91 subjects) in corticotroph adenomas with wild-type USP8. Similar to USP8 mutants, both USP48 and BRAF mutants enhance the promoter activity and transcription of the gene encoding proopiomelanocortin (POMC), which is the precursor of ACTH, providing a potential mechanism for ACTH overproduction in corticotroph adenomas. Moreover, primary corticotroph tumor cells harboring BRAF V600E are sensitive to the BRAF inhibitor vemurafenib. Our study thus contributes to the understanding of the molecular mechanism of the pathogenesis of corticotroph adenoma and informs therapeutic targets for this disease.

Published

2018

35. Learn to Teach: Improve Sample Efficiency in Teacher-student Learning for Sim-to-Real Transfer

Author

Wu, Feiyang, Gu, Zhaoyuan, Zhao, Ye, and Wu, Anqi

Subjects

Computer Science - Robotics, Computer Science - Machine Learning

Abstract

Simulation-to-reality (sim-to-real) transfer is a fundamental problem for robot learning. Domain Randomization, which adds randomization during training, is a powerful technique that effectively addresses the sim-to-real gap. However, the noise in observations makes learning significantly harder. Recently, studies have shown that employing a teacher-student learning paradigm can accelerate training in randomized environments. Learned with privileged information, a teacher agent can instruct the student agent to operate in noisy environments. However, this approach is often not sample efficient as the experience collected by the teacher is discarded completely when training the student, wasting information revealed by the environment. In this work, we extend the teacher-student learning paradigm by proposing a sample efficient learning framework termed Learn to Teach (L2T) that recycles experience collected by the teacher agent. We observe that the dynamics of the environments for both agents remain unchanged, and the state space of the teacher is coupled with the observation space of the student. We show that a single-loop algorithm can train both the teacher and student agents under both Reinforcement Learning and Inverse Reinforcement Learning contexts. We implement variants of our methods, conduct experiments on the MuJoCo benchmark, and apply our methods to the Cassie robot locomotion problem. Extensive experiments show that our method achieves competitive performance while only requiring environmental interaction with the teacher.

Published

2024

36. Preoperative versus postoperative nonsteroidal anti-inflammatory drugs in femoroacetabular impingement patients undergoing hip arthroscopy surgery: analgesic effect, joint function, patients’ satisfaction, and quality of life

Author

Guo, Zhiyuan, Liu, Guangfei, Li, Weibin, Lu, Shouliang, Zhao, Ye, Wang, Lu, and Cheng, Cai

Published

2024

37. Erratum to 'Impact of Long-Acting Somatostatin Analogues on Glucose Metabolism in Acromegaly: A Hospital-Based Study'

Author

Ming Shen, Meng Wang, Wenqiang He, Min He, Nidan Qiao, Zengyi Ma, Zhao Ye, Qilin Zhang, Yichao Zhang, Yeping Yang, Yanjiao Cai, Yakupujiang ABuDuoReYiMu, Yun Lu, Bin Lu, Xuefei Shou, Yongfei Wang, Hongying Ye, Yiming Li, Shiqi Li, Yao Zhao, Xiaoyun Cao, and Zhaoyun Zhang

Subjects

Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Published

2019

38. Color transfer method based on saliency features for color images

Author

Bao, Shi, Zhao, Ye, Ji, Yatu, Wu, Nier, and Le, Gao

Published

2024

39. An oncolytic virus delivering tumor-irrelevant bystander T cell epitopes induces anti-tumor immunity and potentiates cancer immunotherapy

Author

Chen, Xiangyu, Zhao, Jing, Yue, Shuai, Li, Ziyu, Duan, Xiang, Lin, Yao, Yang, Yang, He, Junjian, Gao, Leiqiong, Pan, Zhiwei, Yang, Xiaofan, Su, Xingxing, Huang, Min, Li, Xiao, Zhao, Ye, Zhang, Xuehui, Li, Zhirong, Hu, Li, Tang, Jianfang, Hao, Yaxing, Tian, Qin, Wang, Yifei, Xu, Lifan, Huang, Qizhao, Cao, Yingjiao, Chen, Yaokai, Zhu, Bo, Li, Yan, Bai, Fan, Zhang, Guozhong, and Ye, Lilin

Published

2024

40. Alloferon Mitigates LPS-Induced Endometritis by Attenuating the NLRP3/CASP1/IL-1β/IL-18 Signaling Cascade

Author

Chen, Shitian, Zhu, Lin, Fang, Xinyu, Appiah, Clara, Ji, Yuanbo, Chen, Ziyi, Qiao, Shuai, Gong, Chen, Li, Jian, and Zhao, Ye

Published

2024

41. Hierarchical Experience-informed Navigation for Multi-modal Quadrupedal Rebar Grid Traversal

Author

Asselmeier, Max, Ivanova, Jane, Zhou, Ziyi, Vela, Patricio A., and Zhao, Ye

Subjects

Computer Science - Robotics

Abstract

This study focuses on a layered, experience-based, multi-modal contact planning framework for agile quadrupedal locomotion over a constrained rebar environment. To this end, our hierarchical planner incorporates locomotion-specific modules into the high-level contact sequence planner and solves kinodynamically-aware trajectory optimization as the low-level motion planner. Through quantitative analysis of the experience accumulation process and experimental validation of the kinodynamic feasibility of the generated locomotion trajectories, we demonstrate that the experience planning heuristic offers an effective way of providing candidate footholds for a legged contact planner. Additionally, we introduce a guiding torso path heuristic at the global planning level to enhance the navigation success rate in the presence of environmental obstacles. Our results indicate that the torso-path guided experience accumulation requires significantly fewer offline trials to successfully reach the goal compared to regular experience accumulation. Finally, our planning framework is validated in both dynamics simulations and real hardware implementations on a quadrupedal robot provided by Skymul Inc., Comment: Accepted to 2024 International Conference on Robotics and Automation (ICRA)

Published

2023

42. MimicTouch: Leveraging Multi-modal Human Tactile Demonstrations for Contact-rich Manipulation

Author

Yu, Kelin, Han, Yunhai, Wang, Qixian, Saxena, Vaibhav, Xu, Danfei, and Zhao, Ye

Subjects

Computer Science - Robotics, Computer Science - Machine Learning

Abstract

Tactile sensing is critical to fine-grained, contact-rich manipulation tasks, such as insertion and assembly. Prior research has shown the possibility of learning tactile-guided policy from teleoperated demonstration data. However, to provide the demonstration, human users often rely on visual feedback to control the robot. This creates a gap between the sensing modality used for controlling the robot (visual) and the modality of interest (tactile). To bridge this gap, we introduce "MimicTouch", a novel framework for learning policies directly from demonstrations provided by human users with their hands. The key innovations are i) a human tactile data collection system which collects multi-modal tactile dataset for learning human's tactile-guided control strategy, ii) an imitation learning-based framework for learning human's tactile-guided control strategy through such data, and iii) an online residual RL framework to bridge the embodiment gap between the human hand and the robot gripper. Through comprehensive experiments, we highlight the efficacy of utilizing human's tactile-guided control strategy to resolve contact-rich manipulation tasks. The project website is at https://sites.google.com/view/MimicTouch., Comment: Accepted by CoRL 2024, Best Paper Award at NeurIPS 2023 Touch Processing Workshop

Published

2023

43. Signal Temporal Logic-Guided Model Predictive Control for Robust Bipedal Locomotion Resilient to Runtime External Perturbations

Author

Gu, Zhaoyuan, Guo, Rongming, Yates, William, Chen, Yipu, and Zhao, Ye

Subjects

Computer Science - Robotics

Abstract

This study investigates formal-method-based trajectory optimization (TO) for bipedal locomotion, focusing on scenarios where the robot encounters external perturbations at unforeseen times. Our key research question centers around the assurance of task specification correctness and the maximization of specification robustness for a bipedal robot in the presence of external perturbations. Our contribution includes the design of an optimization-based task and motion planning framework that generates optimal control sequences with formal guarantees of external perturbation recovery. As a core component of the framework, a model predictive controller (MPC) encodes signal temporal logic (STL)-based task specifications as a cost function. In particular, we investigate challenging scenarios where the robot is subjected to lateral perturbations that increase the risk of failure due to leg self-collision. To address this, we synthesize agile and safe crossed-leg maneuvers to enhance locomotion stability. This work marks the first study to incorporate formal guarantees offered by STL into a TO for perturbation recovery of bipedal locomotion. We demonstrate the efficacy of the framework via perturbation experiments in simulations.

Published

2023

44. Socially Acceptable Bipedal Navigation: A Signal-Temporal-Logic- Driven Approach for Safe Locomotion

Author

Shamsah, Abdulaziz and Zhao, Ye

Subjects

Computer Science - Robotics

Abstract

Social navigation for bipedal robots remains relatively unexplored due to the highly complex, nonlinear dynamics of bipedal locomotion. This study presents a preliminary exploration of social navigation for bipedal robots in a human crowded environment. We propose a social path planner that ensures the locomotion safety of the bipedal robot while navigating under a social norm. The proposed planner leverages a conditional variational autoencoder architecture and learns from human crowd datasets to produce a socially acceptable path plan. Robot-specific locomotion safety is formally enforced by incorporating signal temporal logic specifications during the learning process. We demonstrate the integration of the social path planner with a model predictive controller and a low-level passivity controller to enable comprehensive full-body joint control of Digit in a dynamic simulation., Comment: 5 pages, 4 figures

Published

2023

45. Infer and Adapt: Bipedal Locomotion Reward Learning from Demonstrations via Inverse Reinforcement Learning

Author

Wu, Feiyang, Gu, Zhaoyuan, Wu, Hanran, Wu, Anqi, and Zhao, Ye

Subjects

Computer Science - Robotics, Computer Science - Machine Learning

Abstract

Enabling bipedal walking robots to learn how to maneuver over highly uneven, dynamically changing terrains is challenging due to the complexity of robot dynamics and interacted environments. Recent advancements in learning from demonstrations have shown promising results for robot learning in complex environments. While imitation learning of expert policies has been well-explored, the study of learning expert reward functions is largely under-explored in legged locomotion. This paper brings state-of-the-art Inverse Reinforcement Learning (IRL) techniques to solving bipedal locomotion problems over complex terrains. We propose algorithms for learning expert reward functions, and we subsequently analyze the learned functions. Through nonlinear function approximation, we uncover meaningful insights into the expert's locomotion strategies. Furthermore, we empirically demonstrate that training a bipedal locomotion policy with the inferred reward functions enhances its walking performance on unseen terrains, highlighting the adaptability offered by reward learning.

Published

2023

46. Finite volume effects of the Nambu-Jona-Lasinio model with the running coupling constant

Author

Su, Shou-Zheng, Zhao, Ye-Yin, and Wen, Xin-Jian

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Lattice

Abstract

With the Schwinger's proper-time formalism of the Nambu-Jona-Lasinio model, we investigate the finite volume effects in the presence of magnetic fields. Since the coupling constant $G$ can be influenced by strong magnetic fields, the model is solved with a running coupling constant $G(B)$ which is fitted by the lattice average $(\Sigma_u+\Sigma_d)/2$ and difference $\Sigma_u-\Sigma_d$. The investigation mainly focuses on the constituent quark mass and the thermal susceptibility depending on the magnetic fields, the temperatures and the finite sizes. For the model in finite or infinite volume, the magnetic fields can increase the constituent quark mass while the temperatures can decrease it inversely. There is a narrow range of the box length that makes the effects of finite volume perform prominently. The model will behave close to infinite volume limit for larger box length. It is shown that the influence of finite volume can be changed by magnetic fields and temperatures. Finally, we discuss the thermal susceptibility depending on the temperature in finite volume in the presence of magnetic fields., Comment: 13 pages, 6 figures

Published

2023

47. Walking-by-Logic: Signal Temporal Logic-Guided Model Predictive Control for Bipedal Locomotion Resilient to External Perturbations

Author

Gu, Zhaoyuan, Guo, Rongming, Yates, William, Chen, Yipu, and Zhao, Ye

Subjects

Computer Science - Robotics

Abstract

This study proposes a novel planning framework based on a model predictive control formulation that incorporates signal temporal logic (STL) specifications for task completion guarantees and robustness quantification. This marks the first-ever study to apply STL-guided trajectory optimization for bipedal locomotion push recovery, where the robot experiences unexpected disturbances. Existing recovery strategies often struggle with complex task logic reasoning and locomotion robustness evaluation, making them susceptible to failures caused by inappropriate recovery strategies or insufficient robustness. To address this issue, the STL-guided framework generates optimal and safe recovery trajectories that simultaneously satisfy the task specification and maximize the locomotion robustness. Our framework outperforms a state-of-the-art locomotion controller in a high-fidelity dynamic simulation, especially in scenarios involving crossed-leg maneuvers. Furthermore, it demonstrates versatility in tasks such as locomotion on stepping stones, where the robot must select from a set of disjointed footholds to maneuver successfully.

Published

2023

48. Electrochemical activation of peroxydisulfate for tetracycline degradation using the PCN-224(Fe)@PIL(Cl−) System

Author

Li, Xiao-Bing, Ma, Xiao-Ye, Zhang, Xue-Feng, Jia, Guo-Liang, Zhao, Zhao-Ye, Wang, Jun-Chuan, Wang, Hui, and Wu, Xiang-Feng

Published

2024

49. Impact of Long-Acting Somatostatin Analogues on Glucose Metabolism in Acromegaly: A Hospital-Based Study

Author

Ming Shen, Meng Wang, Wenqiang He, Min He, Nidan Qiao, Zengyi Ma, Zhao Ye, Qilin Zhang, Yichao Zhang, Yeping Yang, Yanjiao Cai, Yakupujiang ABuDuoReYiMu, Yun Lu, Bin Lu, Xuefei Shou, Yongfei Wang, Hongying Ye, Yiming Li, Shiqi Li, Yao Zhao, Xiaoyun Cao, and Zhaoyun Zhang

Subjects

Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Purpose. To evaluate the change in glucose tolerance in treatment-naïve patients with acromegaly after administration of SSA and to identify predictive factors of glucose impairment during SSA therapy. Methods. Oral glucose tolerance testing (OGTT) was performed on 64 newly diagnosed and treatment-naïve patients with acromegaly both at pretreatment and 3 months after initiation of treatment with long-acting SSA. Insulin resistance (IR) was assessed by homeostatic model assessment- (HOMA-) IR and ISOGTT. Insulin secretion was assessed by HOMA-β, INS0/BG0, IGI (insulinogenic index), IGI/IR, ISSI2, and AUCINS/AUCBG. Receiver-operating characteristic (ROC) curves were generated to determine the optimal cutoffs to predict the impact of SSA on glucose metabolism. Results. Pretreatment, 19, 24, and 21 patients were categorized as having normal glucose tolerance (NGT), impaired glucose tolerance (IGT), and diabetes mellitus (DM), respectively. Posttreatment, IR, represented by ISOGTT, was significantly improved in all 3 groups. Insulin secretion, represented by HOMA-β, declined in the NGT and IGT groups, but was unaltered in the DM group. The glucose tolerance status deteriorated in 18 (28.1%) patients, including 13 patients in the NGT group and 5 patients in the IGT group. Deterioration was associated with lower baseline BG120 (plasma glucose 120 min post-OGTT), less reduction of growth hormone (GH), and greater reduction of insulin secretion after SSA therapy. BG120 greater than 8.1 mmol/l provided the greatest sensitivity and specificity in predicting the stabilization and/or improvement of glucose tolerance status after SSA treatment (PPV 90.7%, NPV 66.7%, p

Published

2018

50. TimePool: Visually Answer 'Which and When' Questions On Univariate Time Series

Author

Feng, Tinghao, Hu, Yueqi, Yang, Jing, Polk, Tom, Zhao, Ye, Liu, Shixia, and Yang, Zhaocong

Subjects

Computer Science - Human-Computer Interaction, Computer Science - Information Retrieval

Abstract

When exploring time series datasets, analysts often pose "which and when" questions. For example, with world life expectancy data over one hundred years, they may inquire about the top 10 countries in life expectancy and the time period when they achieved this status, or which countries have had longer life expectancy than Ireland and when. This paper proposes TimePool, a new visualization prototype, to address this need for univariate time series analysis. It allows users to construct interactive "which and when" queries and visually explore the results for insights.

Published

2023