Your search keyword '"Youheng WANG"' showing total 15 results

1. Development of Pseudosacral Cyst Following Surgery for Primary Presacral Neuroendocrine Tumors With Liver Metastasis: A Case Report

Author

Li Jian, Youheng Wang, Yu Hao, Ding Zhao, Wan Songlin, Qian Qun, and Li Daojiang

Subjects

cyst, liver metastasis, neuroendocrine tumor, presacral tumor, pseudocysts, sulfatinib, Medicine, Medicine (General), R5-920

Abstract

ABSTRACT Presacral neuroendocrine tumor (PSNET) is a rare disease that currently lacks a standardized treatment approach. In this report, we present a unique case of PSNET with liver metastasis that progressed into a pseudosacral cyst following complete surgical resection and sulfatinib treatment with radiofrequency ablation. Before undergoing surgical treatment for presacral neuroendocrinology, it is important to consider the potential risks of poor healing of the presacral incision and formation of pseudocysts. These complications may be caused by various factors, including the procedure itself and the use of targeted drugs.

Published

2024

2. Analysis of Flood Season Precipitation and Extreme Precipitation in Gansu Province Based on Data from Different Types of Meteorological Stations

Author

Feng FANG, Jing WANG, Weiping LIU, Youheng WANG, Xin WANG, Jingjing LIN, and Xing WANG

Subjects

regional meteorological stations, precipitation in flood season, extreme precipitation, temporal and spatial similarity, disaster risk, Meteorology. Climatology, QC851-999

Abstract

In this paper， the data quality control of the flood season precipitation and extreme precipitation of the regional meteorological stations and national meteorological stations in Gansu Province from 2011 to 2020 has been carried out， and 1253 regional meteorological stations and 75 national meteorological stations have been selected to analysis the precipitation characteristics.The results show that the average precipitation amount of the regional meteorological stations in Gansu Province is very close to that of the national meteorological stations， and there is no significant difference.The average precipitation of the regional meteorological stations in flood season in Gansu province is 382.9 mm， and that of the national meteorological stations is 379.7 mm.The average monthly precipitation of regional meteorological stations distributes from 31.7 mm to 87.1 mm， and that of national meteorological stations distributes from 30.4 mm to 86.4 mm.However， there are significant differences in the extremes of precipitation between the two types of meteorological stations.The maximum of total precipitation at regional meteorological stations in flood season even reaches 917.5 mm， the maximum monthly precipitation reaches 776 mm， and the maximum number of rainstorm days reaches 46 d·（10a）-1.However， those of national meteorological stations is 710.7 mm， 541 mm and 17 d·（10a）-1， respectively.The spatial locations of precipitation maxima of regional meteorological stations and national meteorological stations are close to each other， but the numerical values of regional stations are significantly higher than those of national stations.The spatial trends of precipitation at the two stations are very consistent， and the correlation coefficient of flood season precipitation of two types stations is 0.95， the correlation coefficient of monthly extreme precipitation is 0.92.Moreover， regional meteorological stations show many higher and less value centers of small patches than national stations； the spatial precipitation difference between the two types of meteorological stations are clearly in the east and south of Gansu Province.Overall， the regional meteorological stations describe the precipitation characteristics of Gansu Province in a more detailed way.More extreme precipitation events are monitored in those regions with complex terrain， and the extreme value of precipitation is larger than that of national meteorological stations.The rainstorm and flood disaster prevention in these regions should be based on the data of regional meteorological stations to enhance the disaster risk prevention ability.

Published

2023

3. Nano-Biochar Prepared from High-Pressure Homogenization Improves Thermal Conductivity of Ethylene Glycol-Based Coolant

Author

Youheng Wang, Xianjun Hou, Hong Yu, Weiwei Guan, Yuxin Ma, and Mohamed Kamal Ahmed Ali

Subjects

thermal management system, sesame stalks, dynamic viscosity, dispersion stability, Chemistry, QD1-999

Abstract

As an environmentally friendly material, biochar is increasingly being utilized in the field of heat transfer and thermal conduction. In this study, nano-biochar was prepared from high-pressure homogenization (HPH) using sesame stalks as the raw material. It was incorporated into ethylene glycol (EG) and its dispersion stability, viscosity, and thermal conductivity were investigated. The nano-biochar was stably dispersed in EG for 28 days. When the concentration of the nano-biochar added to EG was less than 1%, the impact on viscosity was negligible. The addition of 5 wt.% nano-biochar to EG improved the thermal conductivity by 6.72%, which could be attributed to the graphitized structure and Brownian motion of the nano-biochar. Overall, nano-biochar has the potential to be applied in automotive thermal management.

Published

2024

4. Activation of the sirtuin silent information regulator 1 pathway inhibits pathological myocardial remodeling

Author

Youheng Wang, Rusheng Zhao, Chengyan Wu, Xuefei Liang, Lei He, Libo Wang, and Xuehui Wang

Subjects

sirtuins, oxidative stress, myocardial remodeling, NLRP3 inflammasome, autophagy, Therapeutics. Pharmacology, RM1-950

Abstract

Myocardial remodeling refers to structural and functional disorders of the heart caused by molecular biological changes in the cardiac myocytes in response to neurological and humoral factors. A variety of heart diseases, such as hypertension, coronary artery disease, arrhythmia, and valvular heart disease, can cause myocardial remodeling and eventually lead to heart failure. Therefore, counteracting myocardial remodeling is essential for the prevention and treatment of heart failure. Sirt1 is a nicotinamide adenine dinucleotide+-dependent deacetylase that plays a wide range of roles in transcriptional regulation, energy metabolism regulation, cell survival, DNA repair, inflammation, and circadian regulation. It positively or negatively regulates myocardial remodeling by participating in oxidative stress, apoptosis, autophagy, inflammation, and other processes. Taking into account the close relationship between myocardial remodeling and heart failure and the involvement of SIRT1 in the development of the former, the role of SIRT1 in the prevention of heart failure via inhibition of myocardial remodeling has received considerable attention. Recently, multiple studies have been conducted to provide a better understanding of how SIRT1 regulates these phenomena. This review presents the progress of research involving SIRT1 pathway involvement in the pathophysiological mechanisms of myocardial remodeling and heart failure.

Published

2023

5. Research Progress on Catalpol as Treatment for Atherosclerosis

Author

Lei He, Rusheng Zhao, Youheng Wang, Huibing Liu, and Xuehui Wang

Subjects

atherosclerosis, catalpol, inflammation, oxidative stress, cell senescence, SIRT1, Therapeutics. Pharmacology, RM1-950

Abstract

Coronary atherosclerotic heart disease, cerebrovascular disease, and peripheral artery disease are common diseases with high morbidity and mortality rates and must be addressed. Their most frequent complications, including myocardial infarction and stroke, are caused by spontaneous thrombotic occlusion and are the most frequent cause of death worldwide. Atherosclerosis (AS) is the most widespread underlying pathological change for the above diseases. Therefore, drugs that interfere with this pathophysiological process must be incorporated in the treatment. Chinese traditional and herbal drugs can effectively treat AS. With the development of traditional Chinese medicine, the active ingredients in common Chinese medicinal materials must be thoroughly purified prior to their application in western medicine. Various proprietary Chinese medicine preparations with remarkable effects have been used in AS treatment. Catalpol, the active component of Rehmannia glutinosa, belongs to iridoid terpene and has anti-inflammatory, antioxidant, insulin resistance improvement, and other related effects. Several reviews have been conducted on this compound and its actions against osteoporosis, neurodegenerative diseases, Alzheimer's disease (AD), Parkinson's disease (PD) and diabetes and its complications. The current review focused on catalpol’s effect on atherosclerotic plaque formation in different animal models. The potential mechanisms of catalpol to ameliorate AS were also summarized in terms of oxidative stress, inflammation, cell aging, apoptosis, and activation of the silent information regulator factor 2-related enzyme 1 (SIRT1) pathway.

Published

2021

6. Climate Transition from Warm-Dry to Warm-Wet in Eastern Northwest China

Author

Jinhu Yang, Qiang Zhang, Guoyang Lu, Xiaoyun Liu, Youheng Wang, Dawei Wang, Weiping Liu, Ping Yue, Biao Zhu, and Xinyu Duan

Subjects

eastern Northwest China, warming, dry–wet, transition, Meteorology. Climatology, QC851-999

Abstract

During the second half of the 20th century, eastern Northwest China experienced a warming and drying climate change. To determine whether this trend has continued or changed during the present century, this study systematically analyzes the characteristics of warming and dry–wet changes in eastern Northwest China based on the latest observational data and World Climate Research Programme (WCRP) Coupled Model Intercomparison Project Phase 6 (CMIP6) collection data. The results show that eastern Northwest China has warmed continuously during the past 60 years with a sudden temperature change occurring in the late 1990s. However, the temperature in the 2000s decreased slowly, and that in the 2010s showed a warming trend. The amount of precipitation began to increase in the late 1990s, which indicates a contemporary climate transition from warm-dry to warm-wet in eastern Northwest China. The contribution of precipitation to humidity is significantly more than that of temperature. Long-term and interannual variations dominate the temperature change, with the contribution of the former much stronger than that of the latter. However, interannual variation dominates the precipitation change. The warming accelerates from period to period, and the temperature spatial consistently increased during the three most recent climatic periods. The precipitation decreased from 1961–1990 to 1981–2010, whereas its spatial consistency increased from 1981–2010 to 1991–2019. The significant warming and humidification which began in the late 1990s and is expected to continue until the end of the 21st century in the medium emission scenario. However, the current sub-humid climate will not easily be changed. The warming could cause a climate transition from warm temperate to subtropical by 2040. The dry-to-wet climate transition in eastern Northwest China could be related to a synergistic enhancement of the East Asian summer monsoon and the westerly circulation. This research provides a scientific decision-making basis for implementing western development strategies, ecological protection, and high-quality development of the Yellow River Basin Area as well as that for ecological construction planning and water resource management of eastern Northwest China.

Published

2021

7. Relay Catalysis of Multi‐Sites Promotes Oxygen Reduction Reaction

Author

Xuan Luo, Wenkun Wu, Youheng Wang, Yuyang Li, Jinyu Ye, Haoyu Wang, Qiaorong Jiang, Zhiyou Zhou, Yuguang C. Li, Yucheng Wang, and Shigang Sun

Subjects

Biomaterials, Electrochemistry, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Published

2023

8. The eastward expansion of the climate humidification trend in northwest China and the synergistic influences on the circulation mechanism

Author

Qiang Zhang, Jinhu Yang, Xinyu Duan, Pengli Ma, Guoyang Lu, Biao Zhu, Xiaoyun Liu, Ping Yue, Youheng Wang, and Weiping Liu

Subjects

Atmospheric Science

Published

2022

9. New characteristics about the climate humidification trendin Northwest China

Author

Pengli Ma, Qiang Zhang, Xiaoyun Liu, Dawei Wang, Jinhu Yang, Youheng Wang, Weiping Liu, Haipeng Yu, Biao Zhu, and Guoyang Lu

Subjects

Water resources, Extreme weather, Climate pattern, Multidisciplinary, Geography, Global warming, Climate change, Aridity index, Precipitation, Physical geography, China

Abstract

At the beginning of 21st century, a study suggested that Northwest China’s climate is becoming warmer and more humid. However, there were doubts about this conclusion because the humidification changes on a small scale only last for a short period, and also suspicions about the development, duration, and impact of the warming-wetting trend in this region. This paper sets out several factors, such as the area, intensity of humidification, and comprehensiveness of the wetness index, to characterize the wetting degree. Furthermore, by using measured climate data, CRU data, climate scenario predictions, and ecological and hydrological data, we systematically analyze temporal and spatial evolution of the warming-wetting trend in Northwest China. Studies have shown that Northwest China has experienced two warming periods during the last century, i.e., the 1940s, and the period from the 1960s to the present (the current warming period). The latter is more substantial. The precipitation in the west and east part of Northwest China has a seesaw change process in many periods. However, humidification has simultaneously occurred in both regions since the beginning of this century. The current precipitation in the west part of Northwest China has far exceeded any period over the past 100 a. In contrast, the east part’s recent rainfall is still currently lower than that of the 1950s and 1960s. Since 1961, Northwest China’s west region has experienced consistent humidification, which has been more pronounced since 1987. Simultaneously, the east part was drying from 1961 to 1997, and has become humid since 1997. The temperature, precipitation, and aridity index changes in the west part show the same patterns. In most periods, the west part was either cold-dry or warm-wet. In comparison, such consistency of the temperature, precipitation, and aridity changes does not exist in the east region. Before this century, warm-wet climates rarely occurred in the east region, having become more frequent. This is probably due to the different dominant temperatures and precipitation processes in the west and east regions. From a spatial point of view, the temperature increases in the whole of Northwest China, and the precipitation increases in the west region and decreases in the east region. The area with increasing rainfall has become larger during the past three climatic periods, and currently covers the whole of Northwest China. The precipitation, aridity index, and comprehensive humidity index in Northwest China have a non-linear increasing trend. The expanding humidity trend has been significant since the beginning of this century. The current warming and humidification have not changed the basic climate pattern in Northwest China. However, if the current trend continues, they would change the climate pattern in the future. Such climate change may result from the simultaneous enhancement of the westerly circulation and the East Asian summer monsoon circulations in this century. The climate warming and humidification in Northwest China significantly impacted extreme weather events, water resources, ecological environment, and agriculture during this century. This research will provide a basis for decision-making on issues such as implementing the Western development strategy in the new era, the ecological protection and high-quality development of the Yellow River Basin, environmental construction planning, and water resources management policies in Northwest China.

Published

2021

10. The accelerator control system of CSNS

Author

Wenchun Gao, Zhuo Zhao, Gang Li, Xiao-Li Wang, Yimin Han, Qi Le, Youheng Wang, Yuliang Zhang, Mingchuan Zhan, Ge Lei, Guanglei Xu, ChunHong Wang, Yongcheng He, Xuan Wu, Jia Liu, Fengqin Guo, Xiang-Cheng Kong, Dapeng Jin, Peng Zhu, Kang Mingtao, J. C. Wang, and Lin Wang

Subjects

Nuclear and High Energy Physics, Blade server, Scope (project management), Computer science, business.industry, Industrial control system, Virtualization, computer.software_genre, Power (physics), Proton (rocket family), Nuclear Energy and Engineering, Control system, business, computer, Computer hardware, Spallation Neutron Source

Abstract

The China Spallation Neutron Source is an accelerator-based user facility for neutron, proton, muon applications and so on. The designed proton beam power is 100 kW for the first phase. Overall, the scope of accelerator control system covers four parts, the global systems, the device layer local controls and remote controls, the high-level applications and services and the integration of conventional facilities. The principle guideline is to adopt as many as possible matured technologies and commercial products in the design and implementation. The control system is based on Experimental Physics and Industrial Control System. VME64x bus is chosen for timing system and fast protection system. PLCs and embedded industrial computers are used in the device layer slow controls. Control System Studio is adopted as the high-level applications. Blade server-based virtualization platform is deployed for the computer system. The accelerator control system was completed in September 2017 and then transited to routine operations. The design, implementation and operation of the accelerator control system are described in this paper.

Published

2020

11. Research Progress on Catalpol as Treatment for Atherosclerosis

Author

Huibing Liu, Youheng Wang, Rusheng Zhao, Lei He, and Xuehui Wang

Subjects

0301 basic medicine, Heart disease, catalpol, Disease, Traditional Chinese medicine, RM1-950, Review, Bioinformatics, medicine.disease_cause, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, SIRT1, Diabetes mellitus, Medicine, oxidative stress, Pharmacology (medical), Myocardial infarction, Pharmacology, business.industry, medicine.disease, Catalpol, 030104 developmental biology, chemistry, inflammation, cell senescence, 030220 oncology & carcinogenesis, Therapeutics. Pharmacology, atherosclerosis, business, Cell aging, Oxidative stress

Abstract

Coronary atherosclerotic heart disease, cerebrovascular disease, and peripheral artery disease are common diseases with high morbidity and mortality rates and must be addressed. Their most frequent complications, including myocardial infarction and stroke, are caused by spontaneous thrombotic occlusion and are the most frequent cause of death worldwide. Atherosclerosis (AS) is the most widespread underlying pathological change for the above diseases. Therefore, drugs that interfere with this pathophysiological process must be incorporated in the treatment. Chinese traditional and herbal drugs can effectively treat AS. With the development of traditional Chinese medicine, the active ingredients in common Chinese medicinal materials must be thoroughly purified prior to their application in western medicine. Various proprietary Chinese medicine preparations with remarkable effects have been used in AS treatment. Catalpol, the active component of Rehmannia glutinosa, belongs to iridoid terpene and has anti-inflammatory, antioxidant, insulin resistance improvement, and other related effects. Several reviews have been conducted on this compound and its actions against osteoporosis, neurodegenerative diseases, Alzheimer's disease (AD), Parkinson's disease (PD) and diabetes and its complications. The current review focused on catalpol’s effect on atherosclerotic plaque formation in different animal models. The potential mechanisms of catalpol to ameliorate AS were also summarized in terms of oxidative stress, inflammation, cell aging, apoptosis, and activation of the silent information regulator factor 2-related enzyme 1 (SIRT1) pathway.

Published

2021

12. Climate Transition From Warm-dry to Warm-wet in Eastern Northwest China

Author

Dawei Wang, Jinhu Yang, Youheng Wang, Weiping Liu, Biao Zhu, Guoyang Lu, Ping Yue, Xiaoyun Liu, and Qiang Zhang

Subjects

Coupled model intercomparison project, geography, geography.geographical_feature_category, Climatology, Drainage basin, Temperate climate, Period (geology), Environmental science, Climate change, Subtropics, Precipitation, China

Abstract

During the second half of the 20th century, eastern Northwest China experienced a warming and drying climate change. To determine whether this trend has continued or changed during the present century, this study systematically analyzes the characteristics of warming and dry–wet changes in eastern Northwest China based on the latest observational data and World Climate Research Programme (WCRP) Coupled Model Intercomparison Project Phase 6 (CMIP6) collection data. The results show that eastern Northwest China has warmed continuously during the past 60 years with a sudden temperature change occurring in the late 1990s. However, the temperature in the 2000s decreased slowly, and that in the 2010s showed a warming trend. The amount of precipitation began to increase in the late 1990s, which indicates a contemporary climate transition from warm-dry to warm-wet in eastern Northwest China. The contribution of precipitation to humidity is significantly more than that of temperature. Long-term and interannual variations dominate the temperature change, with the contribution of the former much stronger than that of the latter. However, interannual variation dominates the precipitation change. The warming accelerates from period to period, and the temperature spatial consistently increased during the three most recent climatic periods. The precipitation decreased from 1961–1990 to 1981–2010, whereas its spatial consistency increased from 1981–2010 to 1991–2019. The significant warming and humidification that began in the late 1990s and is expected to continue until the end of the 21st century in the medium emission scenario. However, the current sub-humid climate will not easily be changed. The warming could cause a climate transition from warm temperate to subtropical by 2040. The dry-to-wet climate transition in eastern Northwest China could be related to synergistic enhancement of the East Asian summer monsoon and the westerly circulation. This research provides a scientific decision-making basis for implementing western development strategies, ecological protection, and high-quality development of the Yellow River Basin Area as well as that for ecological construction planning and water resource management of eastern Northwest China.

Published

2021

13. Impact of Rapid Salinity Variation on Aquaculture Organisms Caused by Water Drainage from an Estuary Sluice

Author

Youheng Wang, Cuiling Jiang, Xin Guo, Jun Wang, Peng Zhang, and Liqin Zhu

Subjects

geography, geography.geographical_feature_category, Ecology, business.industry, Sluice, Estuary, Salinity, Oceanography, Aquaculture, Environmental science, Marine ecosystem, Seawater, Drainage, business, Bay, Earth-Surface Processes, Water Science and Technology

Abstract

Jiang, C.; Wang, J.; Zhang, P.; Wang, Y.; Guo, X., and Zhu, L., 2020. Impact of rapid salinity variation on aquaculture organisms caused by water drainage from an estuary sluice. In: Liu, X. and Zhao, L. (eds.), Today's Modern Coastal Society: Technical and Sociological Aspects of Coastal Research. Journal of Coastal Research, Special Issue No. 111, pp. 39–42. Coconut Creek (Florida), ISSN 0749-0208.Salinity is one of the most important factors affecting the survival and distribution of estuarine organisms. The construction of an estuarine gate will change the salinity of seawater and produces a direct impact on marine ecosystems. The variation of salinity and its influence on aquaculture organisms in the Yueqing Bay were revealed by on-site monitoring and comparative analysis during the flood water discharge period of the Jiangxia Drainage Project. The results showed that salinity declined rapidly after the sluice was opened, and the decreasing amplitude and duration were related to the intensity and lasting time of water drainage, as well as the distance to the gate. The seawater salinity could fall to 4‰ in an area where it is close to the gate. During neap tide, salinity's change along the waterway is greater and recovery time is longer than spring tide. Most of aquaculture organisms have limited tolerance to low salinity and its rapid variation. The decrease extent of seawater salinity often exceeds 10‰ during the drainage period, which is unbearable to Sinonovacula constricta and Scylla serrata, etc. Therefore, the construction of estuary sluice and water drainage will affect the growth and survival of marine life.

Published

2020

14. Drought area, intensity and frequency changes in China under climate warming, 1961–2014

Author

Ying Cheng, Tao Huang, Qiang Zhang, Zhengcai Zhang, Jianying Jia, Youheng Wang, and Lanying Han

Subjects

geography.geographical_feature_category, Ecology, Range (biology), fungi, Global warming, Drainage basin, food and beverages, Structural basin, Geography, parasitic diseases, Spatial variability, Physical geography, Precipitation, China, Natural disaster, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes

Abstract

Increasing global temperatures and frequency of low precipitation have made drought a major natural disaster around the world. Drought is a major threat to China's food security. Thus, the recent abnormal characteristics of Chinese droughts warrant further study. We therefore examined daily air temperature and precipitation from 1961 to 2014 at 572 Chinese meteorological stations. We used an improved version of Meteorological Drought Composite Index (MCI) as a drought indicator to analyze the spatial variation and temporal changes of the drought severity, frequency, duration, and location. China's drought-affected area has expanded, and the severity and frequency have increased due to climate warming. The drought-affected areas are also changing, with drought intensifying in the north but increasing even more in the south, especially for severe drought. Drought was most widespread and sustained in the late 1990s and early 2000s, primarily in the southern Yellow River Basin and the northern Yangtze River Basin. Frequency analysis revealed >30% drought frequency (% of total years) in the western and eastern parts of northwestern China and in eastern, northern, and southwestern China. Drought frequency was higher in the Yangtze River and Yellow River basins. China's drought intensity, duration, and frequency were generally higher in the north and east than in the south and west; however, these parameters increased more rapidly in the south. Droughts occurred year-round in China, but the occurrence, range, duration, and frequency differed among years and regions. Our results offer insights into the development of drought in China and provide support for disaster risk assessment and response planning.

Published

2021

15. A risk assessment of water salinization during the initial impounding period of a proposed reservoir in Tianjin, China

Author

Liqin Zhu, Peng Zhang, Youheng Wang, Cuiling Jiang, and Yanmei Peng

Subjects

Hydrology, China, Soil salinity, business.industry, Public Health, Environmental and Occupational Health, Environmental engineering, Water supply, General Medicine, Management, Monitoring, Policy and Law, Field simulation, Risk Assessment, Soil, Models, Chemical, Water Supply, Water Quality, Period (geology), Environmental Chemistry, Environmental science, Stage (hydrology), Chlorine, Risk assessment, business, Surface water, Groundwater, Environmental Monitoring

Abstract

Water salinization of coastal reservoirs seriously threatens the safety of their water supply. To elucidate the mechanism of salinization and to quantitatively analyze the risk in the initial period of the impoundment of a proposed reservoir in Tianjin Binhai New Area, laboratory and field simulation experiments were implemented and integrated with the actual operation of Beitang Reservoir, which is located in the same region and has been operational for many years. The results suggested that water salinization of the proposed reservoir was mainly governed by soil saline release, evaporation and leakage. Saline release was the prevailing factor in the earlier stage of the impoundment, then the evaporation and leakage effects gradually became notable over time. By referring to the actual case of Beitang Reservoir, it was predicted that the chloride ion (Cl(-)) concentration of the water during the initial impounding period of the proposed reservoir would exceed the standard for quality of drinking water from surface water sources (250 mg L(-1)), and that the proposed reservoir had a high risk of water salinization.

Published

2013