Your search keyword '"Haichun YAN"' showing total 17 results

1. Dynamic Behavior of RC Columns Confined with Micro-Expansive Concrete-Filled Steel Tubes Subjected to Lateral Low-Velocity Impact: Experimental and Numerical Study

Author

Xin Liu, Yuzhou Zheng, Qin Fang, Chang Zhou, Ya Yang, Hengbo Xiang, and Haichun Yan

Subjects

RC column, anti-collision performance, impact, steel tube, micro-expansive concrete, Building construction, TH1-9745

Abstract

In order to improve the anti-collision capacity of existing reinforced concrete (RC) columns under vehicle impact load, an experimental study on the anti-collision performance of RC columns strengthened with micro-expansive concrete filled steel tube was carried out. By combining an experiment and finite element calculation, the influence of steel tube strength, micro-expansive concrete strength and steel tube wall thickness on the anti-collision performance of strengthened RC columns were studied. The results showed that the peak displacement of an SM-RC column is 25.9% lower than that of an RC column, due to the increased stiffness, the peak impact force increased by 138.2%. The micro-expansive concrete filled steel tube reinforcement method can significantly improve the anti-collision performance of RC columns and reduce the lateral deformation. Increasing the strength grade of steel tube and thickness of steel tube can greatly improve the impact resistance of strengthened RC columns and reduce the lateral deflection deformation of short columns, compared with steel tube strength Q235, the displacement of Q690 is reduced 47.4%. the displacement of the 8-mm thick steel tube is reduced by 48.1% compared with the 4-mm one. while the strength grade of micro-expansive concrete has little effect on the impact resistance and lateral deflection deformation of strengthened RC columns.

Published

2022

2. Application of high-quality nursing for COVID-19 patients in makeshift hospitals

Author

Haichun YAN, Yuehua MI, Chunhua ZHAO, Hongyan SUN, Xin YOU, Liyuan LI, Xiaoyun ZHANG, Lixin MA, Kungang ZHANG, Qiong JIA, Jiale XIAO, Miaomiao HAN, Siyu LIU, and Kaiyan WANG

Published

2022

3. Mental state of COVID-19 patients in the mobile cabin hospital and related nursing countermeasures

Author

Yuehua MI, Chunhua ZHAO, Haichun YAN, and Hongyan SUN

Published

2022

4. Numerical simulation of overpressure loads generated by gas explosions in utility tunnels

Author

Senpei Wang, Zhan Li, Qin Fang, Haichun Yan, and Yang Liu

Subjects

Environmental Engineering, General Chemical Engineering, Environmental Chemistry, Safety, Risk, Reliability and Quality

Published

2022

5. Generation of pressure–impulse diagrams for failure modes of RC columns subjected to blast loads

Author

Qin Fang, Runqing Yu, Li Chen, Guoliang Chen, and Haichun Yan

Subjects

Timoshenko beam theory, Materials science, business.industry, Specified load, Diagonal, General Engineering, Structural engineering, Impulse (physics), Nonlinear system, Buckling, General Materials Science, Direct shear test, business, Parametric statistics

Abstract

The Pressure–Impulse (P-I) diagram is generally accepted as a useful tool that permits easy assessment of structural responses to a specified load. To predict the failure characteristics of typical reinforced concrete (RC) columns subjected to blast loads, P-I diagrams considering different failure modes were generated with a high efficient procedure by employing an improved nonlinear analytical approach. In the nonlinear analytical approach that was improved from the Timoshenko beam theory, failure criteria to determine typical bending failure, diagonal failure and direct shear failure modes of RC columns were defined, respectively. The proposed efficient procedure was compiled to generate the P-I diagram by successively circular the improved nonlinear approach which was validated by conducting field blast tests. Parametric studies were carried out to investigate the effects on the failure characteristics of RC columns in the generated P-I diagram, including blast loads distribution, axial compression ratio, slenderness ratio, cross-section bend capacity and shear capacity. The analytical results demonstrate that the diagonal shear failure is most likely to occur on the typical RC columns subjected to blast loads. The bending failure basically occurred when the axial compression ratio and slenderness ratio of RC columns are large to a certain extent.

Published

2019

6. Non-dimensional pressure–impulse diagrams for blast-loaded reinforced concrete beam columns referred to different failure modes

Author

Li Chen, Haichun Yan, Diandian Zhang, and Runqing Yu

Subjects

Materials science, Injury control, Blast load, business.industry, Accident prevention, Poison control, 020101 civil engineering, 02 engineering and technology, Building and Construction, Structural engineering, Impulse (physics), Reinforced concrete, 0201 civil engineering, 020303 mechanical engineering & transports, 0203 mechanical engineering, business, Civil and Structural Engineering

Abstract

The pressure–impulse diagram is commonly used to assess the damage level of structural components under explosion. Non-dimensional pressure–impulse diagrams referred to different failure modes was obtained using a new methodology in this article. Nine non-dimensional key parameters were first proposed on basis of the Euler beam theory. Considering the shear failure, an elastic–plastic method to calculate the dynamic response of reinforced concrete beam columns was then proposed for different failure modes. Three failure categories, for example, bending failure, shear failure, and combined shear and bending failure, were considered. The threshold between the three failure modes was determined using non-dimensional pressure–impulse curves. A systematic parametric study was conducted to investigate the effects of different non-dimensional parameters on the dynamic response and the failure modes of reinforced concrete beam column. Parametric study shows that the nine non-dimensional key parameters are sufficient to calculate the dynamic response of reinforced concrete beam columns. Moreover, present study shows that the tangent modulus of direct shear stress–slip relation has a great influence on the failure modes. Beam columns with a smaller tangent modulus are more likely to generate combined shear and bending failure mode.

Published

2018

7. Embodied Energy and Cost Optimization of RC Beam under Blast Load

Author

Haichun Yan, Runqing Yu, and Diandian Zhang

Subjects

Optimal design, Engineering, Article Subject, business.industry, Blast load, lcsh:Mathematics, General Mathematics, 0211 other engineering and technologies, General Engineering, 020101 civil engineering, 02 engineering and technology, Unit volume, Structural engineering, lcsh:QA1-939, Reinforced concrete, Cost optimization, 0201 civil engineering, lcsh:TA1-2040, 021105 building & construction, Sustainable design, lcsh:Engineering (General). Civil engineering (General), business, Embodied energy, Beam (structure)

Abstract

Reinforced concrete (RC) structures not only consume a lot of resources but also cause continuing pollution. However, sustainable design could make RC structures more environmental-friendly. One important index for environmental impact assessment is embodied energy. The aim of the present study is to optimize the embodied energy and the cost of RC beam subjected to the blast loads. First, a general optimization procedure was described. Then, the optimization procedure was used to optimize the embodied energy and the cost of RC beams. Optimization results of the cost and the embodied energy were compared. It was found that the optimization results were influenced by the cost ratio nC (ratio of price of steel to price of concrete per unit volume) and the embodied energy ratio nE (ratio of embodied energy of steel to embodied energy of concrete per unit volume). An optimal design that minimized both embodied energy and cost simultaneously was obtained if values of nC and nE were very close.

Published

2017

8. Inhibition of retinoic acid signaling in proximal tubular epithelial cells protects against acute kidney injury

Author

Min Yang, Lauren N. Lopez, Maya Brewer, Rachel Delgado, Anna Menshikh, Kelly Clouthier, Yuantee Zhu, Thitinee Vanichapol, Haichun Yang, Raymond C. Harris, Leslie Gewin, Craig R. Brooks, Alan J. Davidson, and Mark de Caestecker

Subjects

Nephrology, Medicine

Abstract

Retinoic acid receptor (RAR) signaling is essential for mammalian kidney development but, in the adult kidney, is restricted to occasional collecting duct epithelial cells. We now show that there is widespread reactivation of RAR signaling in proximal tubular epithelial cells (PTECs) in human sepsis-associated acute kidney injury (AKI) and in mouse models of AKI. Genetic inhibition of RAR signaling in PTECs protected against experimental AKI but was unexpectedly associated with increased expression of the PTEC injury marker Kim1. However, the protective effects of inhibiting PTEC RAR signaling were associated with increased Kim1-dependent apoptotic cell clearance, or efferocytosis, and this was associated with dedifferentiation, proliferation, and metabolic reprogramming of PTECs. These data demonstrate the functional role that reactivation of RAR signaling plays in regulating PTEC differentiation and function in human and experimental AKI.

Published

2023

9. Influence of Calcareous Deposits on Hydrogen Embrittlement Susceptibility of Q460 Steel

Author

Xilin Xiong, Haichun Yang, Tongqian Chen, Na Zhang, and Tong Niu

Subjects

Q460 steel, calcareous deposits, slow strain test, hydrogen embrittlement susceptibility, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

Cathodic protection is widely used to protect structural steel from corrosion in marine environments. However, an inappropriate cathodic potential may lead to hydrogen embrittlement (HE). Therefore, this study investigates the relationship between cathodic protection potential, structure and composition of calcareous deposits, and hydrogen embrittlement susceptibility of Q460 steel. The slow strain rate test results and fracture analysis reveal that Q460 steel had the smallest HE susceptibility when covered with the calcareous deposits formed under −1.1 VSCE. The deposits have a relatively thin calcium-rich inner layer and a condensed magnesium-rich outer layer, which can significantly inhibit hydrogen entry. A sustained deposition reaction during slow strain rate testing (SSRT) in artificial seawater can also decrease the HE susceptibility of Q460 steel.

Published

2024

10. IgG subclass deposition in diabetic nephropathy

Author

Xuanli Tang, Feng Wan, Qin Zhu, Tian Ye, Xue Jiang, and Haichun Yang

Subjects

IgG subclass, Diabetic nephropathy, Glomerular basement membrane, Tubular basement membrane, Medicine

Abstract

Abstract Purpose This study aimed to analyze the distribution of IgG subclass in diabetic nephropathy (DN) and its association with clinicopathological features. Methods This is a single-center retrospective study enrolling 108 patients with biopsy-proven DN. Immunofluorescence and immunohistochemistry staining were applied, and clinicopathological features and renal outcomes were compared between patients with different patterns or categories of IgG subclass deposition. Results Both IgG and its subclasses colocalized with collagen IV α5 on glomerular basement membrane (GBM) and some of tubular basement membrane (TBM). IgG1 and the Mixed type were two predominant types of deposition, no matter on GBM or TBM, and IgG1 showed a much higher deposition rate on GBM than that on TBM (P = 0.004). IgG subclass deposit on multi-location was more associated with a shorter duration of nephropathy and severer tubular interstitial injury (P

Published

2022

11. Blocking cell cycle progression through CDK4/6 protects against chronic kidney disease

Author

Yosuke Osaki, Marika Manolopoulou, Alla V. Ivanova, Nicholas Vartanian, Melanie Phillips Mignemi, Justin Kern, Jianchun Chen, Haichun Yang, Agnes B. Fogo, Mingzhi Zhang, Cassianne Robinson-Cohen, and Leslie S. Gewin

Subjects

Nephrology, Medicine

Abstract

Acute and chronic kidney injuries induce increased cell cycle progression in renal tubules. While increased cell cycle progression promotes repair after acute injury, the role of ongoing tubular cell cycle progression in chronic kidney disease is unknown. Two weeks after initiation of chronic kidney disease, we blocked cell cycle progression at G1/S phase by using an FDA-approved, selective inhibitor of CDK4/6. Blocking CDK4/6 improved renal function and reduced tubular injury and fibrosis in 2 murine models of chronic kidney disease. However, selective deletion of cyclin D1, which complexes with CDK4/6 to promote cell cycle progression, paradoxically increased tubular injury. Expression quantitative trait loci (eQTLs) for CCND1 (cyclin D1) and the CDK4/6 inhibitor CDKN2B were associated with eGFR in genome-wide association studies. Consistent with the preclinical studies, reduced expression of CDKN2B correlated with lower eGFR values, and higher levels of CCND1 correlated with higher eGFR values. CDK4/6 inhibition promoted tubular cell survival, in part, through a STAT3/IL-1β pathway and was dependent upon on its effects on the cell cycle. Our data challenge the paradigm that tubular cell cycle progression is beneficial in the context of chronic kidney injury. Unlike the reparative role of cell cycle progression following acute kidney injury, these data suggest that blocking cell cycle progression by inhibiting CDK4/6, but not cyclin D1, protects against chronic kidney injury.

Published

2022

12. DDR1 contributes to kidney inflammation and fibrosis by promoting the phosphorylation of BCR and STAT3

Author

Corina M. Borza, Gema Bolas, Fabian Bock, Xiuqi Zhang, Favour C. Akabogu, Ming-Zhi Zhang, Mark de Caestecker, Min Yang, Haichun Yang, Ethan Lee, Leslie Gewin, Agnes B. Fogo, W. Hayes McDonald, Roy Zent, and Ambra Pozzi

Subjects

Cell biology, Nephrology, Medicine

Abstract

Discoidin domain receptor 1 (DDR1), a receptor tyrosine kinase activated by collagen, contributes to chronic kidney disease. However, its role in acute kidney injury and subsequent development of kidney fibrosis is not clear. Thus, we performed a model of severe ischemia/reperfusion-induced acute kidney injury that progressed to kidney fibrosis in WT and Ddr1-null mice. We showed that Ddr1-null mice had reduced acute tubular injury, inflammation, and tubulointerstitial fibrosis with overall decreased renal monocyte chemoattractant protein (MCP-1) levels and STAT3 activation. We identified breakpoint cluster region (BCR) protein as a phosphorylated target of DDR1 that controls MCP-1 production in renal proximal tubule epithelial cells. DDR1-induced BCR phosphorylation or BCR downregulation increased MCP-1 secretion, suggesting that BCR negatively regulates the levels of MCP-1. Mechanistically, phosphorylation or downregulation of BCR increased β-catenin activity and in turn MCP-1 production. Finally, we showed that DDR1-mediated STAT3 activation was required to stimulate the secretion of TGF-β. Thus, DDR1 contributes to acute and chronic kidney injury by regulating BCR and STAT3 phosphorylation and in turn the production of MCP-1 and TGF-β. These findings identify DDR1 an attractive therapeutic target for ameliorating both proinflammatory and profibrotic signaling in kidney disease.

Published

2022

13. Protocol for multimodal analysis of human kidney tissue by imaging mass spectrometry and CODEX multiplexed immunofluorescence

Author

Elizabeth K. Neumann, Nathan Heath Patterson, Jamie L. Allen, Lukasz G. Migas, Haichun Yang, Maya Brewer, David M. Anderson, Jennifer Harvey, Danielle B. Gutierrez, Raymond C. Harris, Mark P. deCaestecker, Agnes B. Fogo, Raf Van de Plas, Richard M. Caprioli, and Jeffrey M. Spraggins

Subjects

Health Sciences, Metabolomics, Microscopy, Antibody, Mass Spectrometry, Chemistry, Science (General), Q1-390

Abstract

Summary: Here, we describe the preservation and preparation of human kidney tissue for interrogation by histopathology, imaging mass spectrometry, and multiplexed immunofluorescence. Custom image registration and integration techniques are used to create cellular and molecular atlases of this organ system. Through careful optimization, we ensure high-quality and reproducible datasets suitable for cross-patient comparisons that are essential to understanding human health and disease. Moreover, each of these steps can be adapted to other organ systems or diseases, enabling additional atlas efforts.

Published

2021

14. Notice of Retraction: Construction and empirical study for the model systems based on the research of regional agricultural economic growth

Author

Deshan, Ma, primary and Haichun, Yan, additional

Published

2011

15. Construction and empirical study for the model systems based on the research of regional agricultural economic growth.

Author

Deshan, Ma and Haichun, Yan

Published

2011

16. Low-grade albuminuria in pulmonary arterial hypertension

Author

Nils P. Nickel, Vinicio A. de Jesus Perez, Roham T. Zamanian, Joshua P. Fessel, Joy D. Cogan, Rizwam Hamid, James D. West, Mark P. de Caestecker, Haichun Yang, and Eric D. Austin

Subjects

Diseases of the circulatory (Cardiovascular) system, RC666-701, Diseases of the respiratory system, RC705-779

Abstract

Low-grade albuminuria, determined by the urinary albumin to creatinine ratio, has been linked to systemic vascular dysfunction and is associated with cardiovascular mortality. Pulmonary arterial hypertension is related to mutations in the bone morphogenetic protein receptor type 2, pulmonary vascular dysfunction and is increasingly recognized as a systemic disease. In a total of 283 patients (two independent cohorts) diagnosed with pulmonary arterial hypertension, 18 unaffected BMPR2 mutation carriers and 68 healthy controls, spot urinary albumin to creatinine ratio and its relationship to demographic, functional, hemodynamic and outcome data were analyzed. Pulmonary arterial hypertension patients and unaffected BMPR2 mutation carriers had significantly elevated urinary albumin to creatinine ratios compared with healthy controls ( P

Published

2019

17. Quantification and Comparison of Anti-Fibrotic Therapies by Polarized SRM and SHG-Based Morphometry in Rat UUO Model.

Author

Hu Sheng Qian, Steve M Weldon, Damian Matera, ChungWein Lee, Haichun Yang, Ryan M Fryer, Agnes B Fogo, and Glenn A Reinhart

Subjects

Medicine, Science

Abstract

Renal interstitial fibrosis (IF) is an important pathologic manifestation of disease progression in a variety of chronic kidney diseases (CKD). However, the quantitative and reproducible analysis of IF remains a challenge, especially in experimental animal models of progressive IF. In this study, we compare traditional polarized Sirius Red morphometry (SRM) to novel Second Harmonic Generation (SHG)-based morphometry of unstained tissues for quantitative analysis of IF in the rat 5 day unilateral ureteral obstruction (UUO) model. To validate the specificity of SHG for detecting fibrillar collagen components in IF, co-localization studies for collagens type I, III, and IV were performed using IHC. In addition, we examined the correlation, dynamic range, sensitivity, and ability of polarized SRM and SHG-based morphometry to detect an anti-fibrotic effect of three different treatment regimens. Comparisons were made across three separate studies in which animals were treated with three mechanistically distinct pharmacologic agents: enalapril (ENA, 15, 30, 60 mg/kg), mycophenolate mofetil (MMF, 2, 20 mg/kg) or the connective tissue growth factor (CTGF) neutralizing antibody, EX75606 (1, 3, 10 mg/kg). Our results demonstrate a strong co-localization of the SHG signal with fibrillar collagens I and III but not non-fibrillar collagen IV. Quantitative IF, calculated as percent cortical area of fibrosis, demonstrated similar response profile for both polarized SRM and SHG-based morphometry. The two methodologies exhibited a strong correlation across all three pharmacology studies (r2 = 0.89-0.96). However, compared with polarized SRM, SHG-based morphometry delivered a greater dynamic range and absolute magnitude of reduction of IF after treatment. In summary, we demonstrate that SHG-based morphometry in unstained kidney tissues is comparable to polarized SRM for quantitation of fibrillar collagens, but with an enhanced sensitivity to detect treatment-induced reductions in IF. Thus, performing SHG-based morphometry on unstained kidney tissue is a reliable alternative to traditional polarized SRM for quantitative analysis of IF.

Published

2016