Tehnički Vjesnik (Jan 2018)

Reverse Modelling of Human Long Bones Using T-Splines - Case of Tibia

  • Milos Stojkovic,
  • Marko Veselinovic,
  • Nikola Vitkovic,
  • Dragan Marinkovic,
  • Miroslav Trajanovic,
  • Stojanka Arsic,
  • Milorad Mitkovic

DOI
https://doi.org/10.17559/TV-20180129210021
Journal volume & issue
Vol. 25, no. 6
pp. 1753 – 1760

Abstract

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Creating a sufficiently accurate digital model of human bone geometry for a specific patient is the starting point for personalized orthopaedic surgical treatment. Such geometrical model of a particular human bone serves as a template for designing personalized bone implant, which can be an endoprostheses, fixator plate or even scaffold. Due to that role, the geometry of a human bone model has to be reusable and modifiable. Otherwise, design of the corresponding personalized implant for a particular human bone is a very difficult task. Modern reverse modelling techniques have greatly accelerated the creation of a bone geometric model. The prevailing modern approach is based on the use of non-uniform rational B-splines. However, recent research shows that the very complex topology of bio-shapes, such as human bones, can be reconstructed more easily using T-Splines. The presented approach of using T-splines in a modelling process allows creation of a bone model with important advantages regarding quality, flexibility and geometric accuracy. The process of reverse modelling starts from the cloud of points gained through computer-tomography images and uses selected referential geometric, i.e. anatomic entities as guiding elements in digital reconstruction of the particular bone geometry.

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