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吕永涛


吕永涛,湖北荆门人,工学博士,副教授

办公室:大连理工大学工程力学系力学楼410室

Email:yongtaolu@dlut.edu.cn

最新信息请查看我的教师个人主页:http://faculty.dlut.edu.cn/2015011186/zh_CN/index.htm

个人学习与工作简介:

2001.09 – 2005.06: 华中科技大学工程力学专业学士学位

2005.07 – 2007.06:华中科技大学工程建模与仿真专业硕士学位

2007.01 – 2010.11:英国卡迪夫大学计算生物力学专业博士学位

2010.12 – 2013.10:德国汉堡理工大学生物力学研究室博士后,研究人体脊柱的力学性能

2013.11 – 2015.12: 英国谢菲尔德大学生物医学工程研究室高级研究助理,研究骨重建的力学建模

2015.12 –至今:大连理工大学工程力学系, 副教授

社会兼职

国际期刊Journal of Biomechanics, Journal of Engineering in Medicine, Computer Methods in Biomechanics and Biomedical Engineering等审稿人

研究领域:

· 骨骼与骨骼肌本构关系

· 骨骼力学行为数值模拟

· 跨尺度生物体数值建模

在研项目

· 引进人才科研启动项目,甲状旁腺素对骨骼力学性能的影响研究,大连理工大学,2016.01 – 2017.12(负责人)

指导硕博研究生研究方向:

· 生物材料的力学性能研究

· 骨骼及骨骼肌系统生物力学

· 基于影像的数值建模

· 骨重建数值建模

代表性成果(期刊论文):

1. Lu, Y.T.,Boudiffa, M., Bellantuono, I., Viceconti, M., Evaluation of in-vivo measurement errors associated with micro-computed tomography scans by means of the bone surface distance approach.Medical Engineering and Physics.2015, 37: 1091 – 1097.

2. Maquer, G.,Lu, Y.T., Dall’Ara, E., Chevalier, Y., Krause, M., Yang, L., Eastell, R., Lippuner, K., Zysset, P., The initial slope of the variogram, foundation of the trabecular bone score, is not or poorly associated with vertebral strength.Journal of Bone and Mineral Research.2016 Feb; 31(2):341-346.

3. Lu, Y.T.,Engelke, K., Glueer, C-C., Morlock, M., Huber, G., The effect of in situ/in vitro 3D QCT image voxel size on the finite element voxel model of human vertebral cancellous bone.Proceedings of the IMechE, Part H: Journal of Engineering in Medicine.2014, 228(1): 1208 – 1213.

4. Lu, Y.T., Krause, M., Bishop, N., Sellenschloh, K., Glueer, C-C, Pueschel, K., Amling, M., Morlock, M., Huber, G., The role of patient-model high-resolution peripheral quantitative computed tomography indices in the prediction of failure strength of the elderly women’s thoracic vertebral body.Osteoporosis International. 2014, 19: 1 – 8 (DOI: 10.1007/s00198-014-2846-7)

5. Lu, Y.T.,Influence of the specimen scan condition on the finite element voxel model of human vertebral cancellous bone.Computer Methods in Biomechanics and Biomedical Engineering: Imaging & Visualisation.2014,DOI: 10.1080/21681163.2014.947385.

6. Lu, Y.T.,Pueschel, K., Morlock, M., Huber, G., Effect of the clinical CT image resolution on the finite element model of human cancellous bone.The Bone & Joint Journal.2014, 96-B, Suppl 11, 50.

7. Lu, Y.T.,Engelke, K., Pueschel, K., Morlock, M., Huber, G., Influence of 3D QCT scan protocol on the QCT-based finite element models of human vertebral cancellous bone.Medical Engineering & Physics. 2014, 36(8): 1069 – 1073.

8. Lu, Y.T.,Maquer, G., Museyko, O., Pueschel, K., Engelke, K., Zysset, P., Morlock, M., Huber, G., Finite element analysis of human vertebral bodies embedded in polymethylmethalcrylate or loaded via the hyperelastic intervertebral disc models provide equivalent predictions of experimental strength.Journal of Biomechanics. 2014, 47: 2512 -2516.

9. Hoefemann, M., Berteau, J.P.,Lu, Y.T., Morlock,, M., Huber, G., Necessary precision levels for the subchondral mineralized zone thickness of the facet joint to optimize finite element model.Computer Methods in Biomechanics and Biomedical Engineering.2013, 16 Suppl 1: 224-225.

10. Glüer, C-C., Krause, M., Museyko, O., Wulff, B., Campbell, G., Damm, T., Daugshies, M., Huber, G.,Lu, Y.T., Pena, J., Waldhausen, S., Bastgen, J., Rohde, K., Steinebach, I., Thomsen, F., Amling, M., Barkmann, R., Engelke, K., Morlock, M., Pfeilschifter, J., Püschel, K., New horizons for the in vivo assessment of major aspects of bone quality: microstructure and material properties assessed by Quantitative Computed Tomography and Quantitative Ultrasound methods developed by BioAsset consortium.Osteology.2013, 22(3): 223 - 233.

11. Lu, Y.T.,Rosenau E., Paetzold H., Klein A., Püschel K., Morlock M.M., Huber G., Strain changes on the cortical shell of vertebral bodies due to spine aging – a parametric study using a finite element model evaluated by strain measurements.Proceedings of the IMechE, Part H: Journal of Engineering in Medicine.2013. 227(12): 1265 – 1274.

12. Lu, Y.T., Zhu, H.X., Richmond, S. and Middleton, J., Numerical modeling of the fibre-matrix interaction in biaxial loading for hyperelastic soft tissue models.International Journal for Numerical Methods in Biomedical Engineering.2012, 28(4): 401-411.

13. Lu, Y.T., Beldie, L., Walker, B., Richmond, S. and Middleton, J., Parametric study of a Hill-type hyperelastic skeletal muscle model.Proceedings of the IMechE, Part H: Journal of Engineering in Medicine.2011, 225(5):437-447.

14. Lu, Y.T., Zhu, H.X., Richmond, S. and Middleton, J., Modelling skeletal muscle fibre orientation arrangement.Computer Methods in Biomechanics and Biomedical Engineering.2011, 14(12): 1079-1088.Lu, Y.T., Zhu, H.X., Richmond, S. and Middleton, J., A visco-hyperelastic model for skeletal muscle tissue under high strain rates.Journal of Biomechanics. 2010, 43(13): 2629-2632.

15. Beldie, L., Walker, B.,Lu, Y.T., Richmond, S. and Middleton, J., Finite element modelling of maxillofacial surgery and facial expressions – a preliminary study.International Journal of Medical Robotics and Computer Assisted Surgery.2010, 6(4): 422-430.

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