新莆京app官网下载794登录(中国)官方网站

  • 副教授-王心梅
    2020-09-10 03:42  

    1.个人信息

    1.1个人简介

    王心梅,1989年生人,工学博士,副教授,主要从事心脏瓣膜病理,生物材料和微流体的生物模型的研究。近年来在Annals of Biomedical Engineering等国外重要专业学术期刊上发表SCI收录论文9余篇。 

    1.2教育经历

    2012年8月-2017年8月,Texas Tech University,Ph.D.  

    1.3工作经历

    2018年10月至今,沈阳大学,副教授 

    2018年5月-2019年7月,Texas Tech University,PostDoc 

    2.科学研究

    2.1研究方向

    心脏瓣膜病理以及人造心脏瓣膜的开发 

    2.2学术交流

    ·X. Wang, D. Kuban-Johnston, P. Lapuerta, C.M.R. Lacerda. Effect of Telotristat Ethyl on Cardiac Valve Degeneration. NANETs 2019

    ·X. Wang, M. Ali, and C.M.R. Lacerda.Collagen-Elastin Scaffolds for Heart Valve Tissue Engineering.AIChE Annual Meeting 2018

    ·X. Wang, M. Ali, and C.M.R. Lacerda. Comparison of serotonin-related calcific process in aortic and mitral valvular interstitial cells.Graduate Research Fair, Texas Tech University, 2017

    ·M. Ali,X. Wang, and C.M.R. Lacerda. Heterogeneity in Valvular Interstitial Cell Phenotype Is a Predictor of Cell Activation and Acquisition of Degenerative Properties.AIChE Annual Meeting 2016

    ·M. Ali,X. Wang,M.Dinh,A.Curtis,M.Kim,E.Hui, and C.M.R. Lacerda. Effect of Cell Migration and Endothelial Cell Contact upon Phenotype Activation of Valvular Interstitial Cells.Annual Meeting of the Heart Valve Society 2016

    ·X. Wang, M. Ali, and C.M.R. Lacerda. Serotonin Control of the Activated and Osteoblastic Phenotypes of Valvular Interstitial Cells.AIChE Annual Meeting 2015

    ·J.Lee,X.Wang, C.M.R. Lacerda,J.J.Kim.Development of the Biomimetic Microfluidic Flow Profile Generator Enabling Mechanobiological Responses of Valvular Interstitial Cell.BMES Annual Meeting 2015

    ·M. Ali,X. Wang, and C.M.R. Lacerda. Effect of Endothelial Cells and Matrix Stiffness on Phenotype Change of Valvular Interstitial Cells.BMES Annual Meeting 2015

    ·M. Ali,X. Wang, and C.M.R. Lacerda. Modulation of Valvular Cell Phenotype Due to Applied Mechanical Stresses in the Extracellular Environment.BMES CMBE Meeting 2014

    3.教育教学

    3.1本科生授课课程

    普通生物学(双语) 

    4.发表论文

    ·X. Wang, M.S. Ali, and C.M.R. Lacerda. Osteogenesis inducers promote distinct biological responses in aortic and mitral valve interstitial cells.J Cell Biochem.2019; 120(7):11158-11171.

    ·M.S. Ali,X. Wang, and C.M.R. Lacerda. The effect of physiological stretch and the valvular endothelium on mitral valve proteomes.Exp Biol Med. 2019; 244(3):241-251.

    ·X. Wang, M.S. Ali, and C.M.R. Lacerda. A Three-Dimensional Collagen-Elastin Scaffold for Heart Valve Tissue Engineering.Bioengineering. 2018; 5(3):69.

    ·J. Lee, Z. Estlack, H. Somaweera,X. Wang, C.M.R. Lacerda and J.J. Kim. A microfluidic cardiac flow profile generator for studying the effect of shear stress on the valvular endothelial cell.Lab Chip. 2018; 18(19):2946-2954.

    ·M.S. Ali, N. Deb,X. Wang, M. Rahaman, G.F. Christopher and C.M.R. Lacerda. Correlation between valvular interstitial cell morphology and phenotypes: A novel way to detect activation.Tissue Cell. 2018; 54:38-46

    ·M.S. Ali,X. Wang, and C.M.R. Lacerda. Progenitor Subpopulations of Valvular Cells Resembling Hematopoietic and Mesenchymal Stem Cells and their Role in Myofibroblastic Activation.J Regen Med. 2018; 7:1. doi: 10.4172/2325-9620.1000141

    ·X. Wang, J. Lee, M.S. Ali, J. Kim, and C.M.R. Lacerda.Phenotypetransformation ofaorticvalveinterstitialcellsdue toappliedshearstresseswithin amicrofluidicchip.AnnBiomediEng. 2017; 45(10):2269-2280.

    ·M.S. Ali,X. Wang, and C.M.R. Lacerda. A survey of membrane receptor regulation in valvular interstitial cells cultured under mechanical stresses.Exp Cell Res.2017; 351(2):150-156.

    ·M.S. Ali,X. Wang, M. Dinh, A. Curtis, M. Kim, E. Hui,and C.M.R. Lacerda.Effect of Cell Migration and Endothelial Cell Contact Upon Phenotype Activation of Valvular Interstitial Cells.Cardiology.2016; 134(2):217-217.

    ·J. Lee, M.E. Razu,Wang X., Lacerda C.M.R and J.J. Kim. Biomimetic cardiac microsystems for pathophysiological studies and drug screens.J Lab Autom. 2015; 20(2):96-106.

     

    关闭窗口