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高翔
职称/职务: 副教授
电话:
传真:
电子信箱: gaoxiang.gnaixoag@snnu.edu.cn
出生年月:
办公地点: 长安校区致知楼3528

教育及工作经历/Education & Employment

2004.9--

2008.6

兰州大学物理科学与技术学院/Lanzhou Univ.

学士/Bachelor

2008.9--

2014.6

浙江大学物理系/Zhejiang Univ.

博士/Ph.D.

2014.7--2019.12

bwin必赢国际官网APP物理学与技术信息学院/

Shaanxi Normal Univ.

讲师

/Assistant Prof.

2016.7--

2017.7

德国马克斯普朗克学会动力学与自组织研究所/Max Planck Institute for Dynamics and Self-Organization

访问学者

/Guest Scientist

2019.12--

至今

bwin必赢国际官网APP物理学与技术信息学院

/Shaanxi Normal Univ.

副教授

/Associate Prof.

 

讲授课程/Class

大学物理/ College Physics、大学物理实验/ College Physics Experiments、热力学/ Thermodynamics、经济物理/Ecophysics、交叉与应用性实验/Interdisciplinary Research Experiments

 

社会兼职/Professional Service

马克斯普朗克学会-bwin必赢国际官网APP合作组负责人/Leader of Max Planck Partner Group in Shaanxi Normal University

西安市交叉物理学国际联合研究中心主任/Director of Xi’an International Joint Research Center on Interdisciplinary Physics

Frontiers in Physiology期刊专题编辑/Topic editor of Frontiers in Physiology

 

研究方向/Research

1. 理论物理/ Theoretical Physics

利用反应扩散系统理论研究干细胞疗法治愈心力衰竭面临的瓶颈问题/ Theoretical study of the cause of induced arrhythmias after transplanting human pluripotent stem cell-derived cardiomyocytes for cardiac regeneration”

干细胞疗法被认为是治愈心肌梗死的可期新手段。最新研究却发现,尽管由多功能干细胞分化的心肌细胞(简称为PSC-CMs)能够修复诸如豚鼠等小型动物心肌受损部位,但推广到与人更相近的猕猴等大型动物时,反而会引起心律不齐等严重副作用。本项目旨在基于统计物理模型定量描述PSC-CMs的各项生理特征(如细胞膜电容量、电导系数、离子通道电流等)。接着利用基于反应扩散方程的大规模、高精度、并行化数值模拟,重点研究当注入大量生理特征不同于宿主原有心肌细胞的PSC-CMs后,大型动物的心肌及其受损部位会被引入何种程度的时空异构性,以及由此而来的大型动物更易诱发心律不齐的病因。进而探索防止或消除心律不齐的方法,为克服干细胞疗法在大型动物实验中产生的副作用提供理论指导,为随后的病患临床试验消除隐患。

Implanting human pluripotent stem cell-derived cardiomyocytes (hPSC-CMs) is intensively investigated as a promising approach in cardiac regeneration therapy. We are to study the realistic post-transplant cardiac tissue in which the differences of physiological properties between graft and host tissue are numerous and multiscale. The differences include but not are limited to conduction velocity, cardiomyocyte morphology, fiber anisotropy, ion channel current density, calcium handling and excitation-contraction coupling. These inhomogeneities existing in vivo may contribute to all fundamental arrhythmia mechanisms, namely automaticity, reentry, and triggered activity. To investigate mechanisms of inducing post-transplant arrhythmias under different conditions, we propose to establish a realistic cardiac model which is computationally efficient and sufficiently precise to theoretically study the arrhythmia initiation due to the transplantation through all physiologically relevant conditions of implanted inhomogeneities. Then, based on the understanding of mechanisms of arrhythmias, possible solutions in clinic would be proposed and tested in simulations to prevent this side effect in cardiac regeneration.

2. 学科教学(物理)/Physics Education

基于学生课堂表情与增值性学习效果的关联性分析/correlation analysis of students’ facial emotion with value-added learning outcome”

高效课堂要求因材施教,即教师能够根据学生的反应(如表情等)实时地判断教学效果(即学生是否听懂)。这对于有效教学是十分重要的。如果缺乏这个互动过程,无论是课堂上缺乏经验的教师,还是现阶段慕课平台上的教学管理系统,就无法实时判断学生对当前知识点的学习认知情况,也就无法达到因材施教的教学效果。本研究旨在利用人工智能的人脸识别追踪与表情分析算法,实时定量测量课堂上每位学生的课堂表情值。同时,利用just-in-time教学法和Rasch模型构建适用于在线课堂和混合课堂的形成性评价体系,随堂评价每位学生的学习效果。最终利用大数据相关性分析理论定量研究什么样的学生表情对应于好的学习效果。基于研究结果我们将建立一整套利用学生表情实时反馈学习效果的智慧课堂系统,从而帮助课堂教师和慕课平台达到因材施教的高效课堂要求。

 

主持项目/Funds

2021.1-2021.12

陕西省科协国际和海峡两岸暨港澳科技交流项目

1/10k RMB

2020.1-2024.12

德国马克思普朗克学会合作组项目/

Max Plank Partner Group

10万欧元/

100k Euro

2019.1-2020.12

陕西省自然科学基础研究计划青年项

3/30k RMB

2018.1-2020.12

国家自然科学基金委青年科学基金项目

25/250k RMB

2018.1-2020.12

中央高校基本科研业务费专项自由探索重点项目

15/150k RMB

2015.1-2017.12

国家自然科学基金委理论物理专款合作研修项目

20/200k RMB

 

获得荣誉/Awards

2018年陕西省首届课堂教学改革创新大赛三等奖/Third Prize of Shaanxi Teaching Reform and Innovation Contest 2018

 

已发表文章/Publications

Zhang Feng-qiang, Gao Xiang*, Zhang Hong-yang, Li Gui-an, A practical method to evaluate the teaching effect of college physics, College Physics 40, 55 (2021)

Feng Xia, Xiang Gao*, Wave emission from heterogeneities with changing boundary curvature and orientation by a circularly polarized electric field in cardiac tissues, Nonlinear Dynamics 98, 1919 (2019)

Xiang Gao, Alexei Krekhov, Vladimir Zykov* and Eberhard Bodenschatz, Initiation of Rotors by Fast Propagation Regions in Excitable Media: A Theoretical Study, Frontiers in Physics 6, 8 (2018)

Xiang Gao, Xia Feng, Teng-Chao Li, Shixian Qu, Xingang Wang, and Hong Zhang*, Dynamics of spiral waves rotating around an obstacle and the existence of a minimal obstacle, Phys. Rev. E 95, 052218 (2017)

De-Bei Pan, Xiang Gao, Xia Feng, Jun-Ting Pan, and Hong Zhang*, Removal of pinned scroll waves in cardiac tissues by electric fields in a generic model of three-dimensional excitable media, Scientific Reports 6, 2187 (2016)

Teng-Chao Li, Xiang Gao, Fei-Fei Zheng, Mei-Chun Cai, Bingwei Li*, Hong Zhang*, and Hans Dierckx, Phase-locked scroll waves defy turbulence induced by negative filament tension, Physical Review E 93, 012216 (2016)

Xia Feng, Xiang Gao, Juan-Mei Tang, Jun-Ting Pan, and Hong Zhang*, Wave trains induced by circularly polarized electric fields in cardiac tissues, Scientific Reports 15, 13349 (2015)

Xiang Gao and Hong Zhang*, Mechanism of unpinning spirals by a series of stimuli, Physical Review E 89, 062928 (2014)

Xia Feng, Xiang Gao, De-Bei Pan, Bingwei Li, and Hong Zhang*, Unpinning of rotating spiral waves in cardiac tissues by circularly polarized electric fields, Scientific Reports 4, 4831 (2014)

Xiang Gao, Hong Zhang, Vladimir Zykov* and Eberhard Bodenschatz, Stationary propagation of a wave segment along an inhomogeneous excitable stripe, New Journal of Physics 16, 033012 (2014)

Xiang Gao, Xia Feng, Mei-chun Cai, Bingwei Li, Heping Ying, and Hong Zhang*, Inwardly rotating spirals in non-uniform excitable media, Physical Review E 85, 016213 (2012)

Bingwei Li, Xiang Gao, Zhigang Deng, Heping Ying, Hong Zhang*, Circular interface selected wave patterns in the complex Ginzburg-Landau equation, Europhysics Letters 91, 34001 (2010)

Bingwei Li*, Heping Ying, Jiansong Yang, Xiang Gao, Heterogeneity selected target waves and their competition: Outgoing or ingoing? Physics Letters A 374, 3752 (2010) 

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