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Individualizing biomechanical shoulder models using scaling, morphing and fittings

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Organization
Abstract
It is increasingly apparent the necessity of subject specific biomechanical models that are aimed at clinical applications, in particular in the design and analysis of orthopedic implants, preoperative planning and interpretation of post operative outcomes. Currently, imaging techniques like MRI and CTs can potentially provide a source for complete individualized models; however, the constraints of clinical reality preclude the creation of full complex models of a region of interest. This gap can be bridged by creating idealized generic musculoskeletal models that can be morphed into patient specific models using limited CT and morphometric data obtained pre-operatively. The transformation from the generic model to a specific one is achieved by a volumetric morphing technique using non uniform scaling, translations, rotations and shear matrices combined with the optimum fitting, in a least squares sense, of spheres, cylinders, ellipsoids, circles, ellipses, planes and general curves, around bony and muscle structures.

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MLA
Gomes, Germano, et al. “Individualizing Biomechanical Shoulder Models Using Scaling, Morphing and Fittings.” Proceedings and Monographs in Engineering, Water and Earth Sciences, edited by JMRS TAVERES and RMN JORGE, TAYLOR & FRANCIS LTD, 2008, pp. 319–22.
APA
Gomes, G., Audenaert, E., De Wilde, L., & D’Herde, K. (2008). Individualizing biomechanical shoulder models using scaling, morphing and fittings. In J. TAVERES & R. JORGE (Eds.), Proceedings and Monographs in Engineering, Water and Earth Sciences (pp. 319–322). 11 NEW FETTER LANE, LONDON EC4P 4EE, ENGLAND: TAYLOR & FRANCIS LTD.
Chicago author-date
Gomes, Germano, Emmanuel Audenaert, Lieven De Wilde, and Katharina D’Herde. 2008. “Individualizing Biomechanical Shoulder Models Using Scaling, Morphing and Fittings.” In Proceedings and Monographs in Engineering, Water and Earth Sciences, edited by JMRS TAVERES and RMN JORGE, 319–22. 11 NEW FETTER LANE, LONDON EC4P 4EE, ENGLAND: TAYLOR & FRANCIS LTD.
Chicago author-date (all authors)
Gomes, Germano, Emmanuel Audenaert, Lieven De Wilde, and Katharina D’Herde. 2008. “Individualizing Biomechanical Shoulder Models Using Scaling, Morphing and Fittings.” In Proceedings and Monographs in Engineering, Water and Earth Sciences, ed by. JMRS TAVERES and RMN JORGE, 319–322. 11 NEW FETTER LANE, LONDON EC4P 4EE, ENGLAND: TAYLOR & FRANCIS LTD.
Vancouver
1.
Gomes G, Audenaert E, De Wilde L, D’Herde K. Individualizing biomechanical shoulder models using scaling, morphing and fittings. In: TAVERES J, JORGE R, editors. Proceedings and Monographs in Engineering, Water and Earth Sciences. 11 NEW FETTER LANE, LONDON EC4P 4EE, ENGLAND: TAYLOR & FRANCIS LTD; 2008. p. 319–22.
IEEE
[1]
G. Gomes, E. Audenaert, L. De Wilde, and K. D’Herde, “Individualizing biomechanical shoulder models using scaling, morphing and fittings,” in Proceedings and Monographs in Engineering, Water and Earth Sciences, Oporto, Portugal, 2008, pp. 319–322.
@inproceedings{596836,
  abstract     = {{It is increasingly apparent the necessity of subject specific biomechanical models that are aimed at clinical applications, in particular in the design and analysis of orthopedic implants, preoperative planning and interpretation of post operative outcomes. Currently, imaging techniques like MRI and CTs can potentially provide a source for complete individualized models; however, the constraints of clinical reality preclude the creation of full complex models of a region of interest. This gap can be bridged by creating idealized generic musculoskeletal models that can be morphed into patient specific models using limited CT and morphometric data obtained pre-operatively. The transformation from the generic model to a specific one is achieved by a volumetric morphing technique using non uniform scaling, translations, rotations and shear matrices combined with the optimum fitting, in a least squares sense, of spheres, cylinders, ellipsoids, circles, ellipses, planes and general curves, around bony and muscle structures.}},
  author       = {{Gomes, Germano and Audenaert, Emmanuel and De Wilde, Lieven and D'Herde, Katharina}},
  booktitle    = {{Proceedings and Monographs in Engineering, Water and Earth Sciences}},
  editor       = {{TAVERES, JMRS and JORGE, RMN}},
  isbn         = {{978-0-415-45777-4}},
  language     = {{eng}},
  location     = {{Oporto, Portugal}},
  pages        = {{319--322}},
  publisher    = {{TAYLOR & FRANCIS LTD}},
  title        = {{Individualizing biomechanical shoulder models using scaling, morphing and fittings}},
  year         = {{2008}},
}

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