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Development of a Multi-body Statistical Shape Model of the Wrist

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dc.contributor.advisor Oliver, Michele
dc.contributor.advisor Dony, Robert Semechko, Anton 2011-12-14 2011-12-21T17:44:46Z 2011-12-21T17:44:46Z 2011-12-21
dc.description.abstract With continually growing availability of high performance computing resources, the finite element methods (FEM) are becoming increasingly more efficient and practical research tools. In the domain of computational biomechanics, FEMs have been successfully applied in investigation of biomedical problems that include impact and fracture mechanics of bone, load transmission through the joints, feasibility of joint replacements, and many others. The present research study was concerned with the development of a detailed, anatomically accurate, finite element model of the human hand and wrist. As a first step in this direction, we used a publically available database of wrist bone anatomy and carpal kinematics to construct a multi-body statistical shape model (SSM) of the wrist. The resulting model provides an efficient parameterization of anatomical variations of the entire training set and can thus overcome the major shortcoming of conventional biomechanical models associated with limited generalization ability. The main contributions of this work are: 1) A robust method for constructing multi-body SSM of the wrist from surface meshes. 2) A novel technique for resampling closed genus-0 meshes to produce high quality triangulations suitable for finite element simulations. Additionally, all techniques developed in the course of this study could be directly applied to create an equivalent model of the tarsus. en_US
dc.language.iso en en_US
dc.rights.uri *
dc.subject carpus, carpal bones, wrist, joint, statistical shape model, mesh resampling, particle system, parameterization en_US
dc.title Development of a Multi-body Statistical Shape Model of the Wrist en_US
dc.type Thesis en_US Engineering en_US Master of Applied Science en_US School of Engineering en_US

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