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个人信息Personal Information
副研究员
性别:男
毕业院校:University of Glasgow
学历:博士研究生毕业
学位:理学博士学位
在职信息:在职
所在单位:控制科学与工程学院
入职时间:2023-09-25
办公地点:山东大学千佛山校区创新大厦B626室
电子邮箱:debao.guan@sdu.edu.cn
扫描关注
- [1] Guan , D. , Zhuan , X. , Luo , & Gao , H. An Updated Lagrangian Constrained Mixture Model of Pathological Cardiac Growth and Remodelling. Available at SSRN 4317882, 2023.
- [2] Guan , D. , Luo , X. , Cai , L. , & Gao and H.. A Novel Excitation–Contraction Model Based on Classical Hill Model. Computers in Biology and Medicine, 145, 105417, 2022.
- [3] Guan , D. , Tian , L. , Li , W. , & Gao and H.. Using LDDMM and a kinematic cardiac growth model to quantify growth and remodelling in rat hearts under PAH. Computers in Biology and Medicine, 171, 108218, 2024.
- [4] Guan , D. , Yao , J. , Luo , X. , & Gao and H.. Effect of myofibre architecture on ventricular pump function by using a neonatal porcine heart model: From dt-mri to rule-based methods. Royal Society Open Science, 7, 191655, 2020.
- [5] Guan , D. , Ahmad , F. , Theobald , P. , Soe , S. , Luo , X. , & Gao and H.. On the aic-based model reduction for the general holzapfel–ogden myocardial constitutive law. Biomechanics and Modeling in Mechanobiology, 18, 1213-1232, 2019.
- [6] Guan , D. , Liang , F. , & Gremaud and P. A.. Comparison of the windkessel model and structured-tree model applied to prescribe outflow boundary conditions for a one-dimensional arterial tree model. Journal of biomechanics, 49, 1583-1592, 2016.
- [7] Guan , D. , Mei , Y. , Xu , L. , Cai , Luo , X. , & Gao , H. Effects of dispersed fibres in myocardial mechanics, Part I: passive response. Mathematical Biosciences and Engineering, 19, 3972-3993, 2022.
- [8] Guan , D. , Wang , Y. , Xu , L. , Cai , Luo , X. , & Gao , H. Effects of dispersed fibres in myocardial mechanics, Part II: active response. Mathematical Biosciences and Engineering, 19, 4101-4119, 2022.
- [9] Guan , D. , Zhuan , X. , Holmes , W. , Luo , & Gao , H. Modelling of fibre dispersion and its effects on cardiac mechanics from diastole to systole. Journal of Engineering Mathematics, 128, 1-24, 2021.
- [10] Mei , Y. , Guan , D. , Tong , X. , Liu , Q. , Hu , M. , Chen , G. , & Li and C.. Association of cerebral infarction with vertebral arterial fenestration using non-Newtonian hemodynamic evaluation. Mathematical Biosciences and Engineering, 19, 7076-7090, 2022.
- [11] Liang , F. , Guan , D. , & Alastruey and J.. Determinant factors for arterial hemodynamics in hypertension: Theoretical insights from a computational model-based study. Journal of biomechanical engineering, 140, 2018.
- [12] Guan , D. and et al.. Constitutive Modelling of Soft Biological Tissue from Ex Vivo to in Vivo: Myocardium as an Example. International Conference by Center for Mathematical Modeling and Data Science, Osaka University, 3-14, 2020.
- [13] Guan , D. and et al.. Growth and Remodelling of Right Ventricle Under Pulmonary Arterial Hypertension. CMBE22, Milan, Italy, 27-29 Jun 2022, 2022.
- [14] Guan , D. and et al.. Effect of Myofibre Dispersion on Ventricular Pump Function. CMBE22, Milan, Italy, 27-29 Jun 2022, 2022.
- [15] Guan , D. and et al.. Effects of Myofibre Architecture on Biventricular Biomechanics: a Simulation Study. CMBE 2019, Sendai City, Japan, 10-12 Jun 2019, 248-251, 2019.
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