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欧洲虚拟生理人
作者姓名:Marco Viceconti  Gordon Clapworthy  Fulvia Taddei  Serge Van Sint Jan
作者单位:[1]Rizzoli骨科研究所,意大利 [2]Bedfordshire大学计算机图像与可视化中心,英国 [3]布鲁塞尔Libre大学解剖和生物力学实验室,比利时
基金项目:The authors would like to thank Luigi Lena for the illustrations and Mauro Ansaloni and Paolo Erani for their support during the experiments.
摘    要:虚拟生理人(VPH)项目由欧盟强力支持,致力于人体生理在各层面的全身完整模型的建立,从器官、组织、细胞和分子水平到基因水平。该项目从STEP项目率先实施,由欧盟资助下的协调行动从2006年初正式启动。作者介绍了VPH项目及其最近通过physiome平台在世界范围的快速发展。最后,着重介绍了VPH项目在骨肌系统的一个子项目-Living Human项目和其在世界各地的类似的研究探索。

关 键 词:虚拟生理人  Physiome平台  综合研究  骨肌系统  多层次建模
文章编号:1004-7220(2008)01-0019-07
收稿时间:2007-11-20
修稿时间:2007年11月20

European Virtual Physiological Human
Marco Viceconti,Gordon Clapworthy,Fulvia Taddei,Serge Van Sint Jan.European Virtual Physiological Human[J].Journal of Medical Biomechanics,2008,23(1):19-25.
Authors:Marco Viceconti  Gordon Clapworthy  Fulvia Taddei and Serge Van Sint Jan
Abstract:The Virtual Physiological Human is an initiative that is strongly supported by the European Commission for the development of an integrated model of human physiology at multiple scales from the whole body through the organ, tissue, cell and molecular levels to the genomic level. Its development was considerably advanced by the activities of the STEP project, a Coordinated Action funded by the EC, which began in early 2006. This paper provides an overview of the VPH and the developments it has engendered in the rapidly expanding world-wide activities associated with the physiome. It then focuses on one particular project, the Living Human Project, to illustrate the type of advances that are taking place to further the aims of the VPH and similar initiatives worldwide.
Keywords:Virtual physiological human  Physiome  Integrative research  Musculoskeletal system  Multiscale modelling
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