Difference between revisions of "2010 Summer Project Week Shape Analysis UNC"

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==Motivations: Clinical Applications in Orthodontics==
 
==Motivations: Clinical Applications in Orthodontics==
 
We are aiming to develop methods to compute Shape Correspondence and Shape Analysis to the Orthodontic Clinical field. The main challenge in this approach is the complexity of the surfaces processed, i.e. Cranio-Maxillo-Facial anatomy. Until now, Shape Correspondence was applied almost entirely to brain morphometry studies. SPHARM-PDM Toolbox has been used until now for different Ortho applications, however the performance of this methodological framework does not work satisfactorily for Full Mandibles. Our main interest focuses right now in Entropy-Based Particle Systems [1], that does not rely in parametric fields or spherical topology for establishing correspondence in a Surface Ensemble.  
 
We are aiming to develop methods to compute Shape Correspondence and Shape Analysis to the Orthodontic Clinical field. The main challenge in this approach is the complexity of the surfaces processed, i.e. Cranio-Maxillo-Facial anatomy. Until now, Shape Correspondence was applied almost entirely to brain morphometry studies. SPHARM-PDM Toolbox has been used until now for different Ortho applications, however the performance of this methodological framework does not work satisfactorily for Full Mandibles. Our main interest focuses right now in Entropy-Based Particle Systems [1], that does not rely in parametric fields or spherical topology for establishing correspondence in a Surface Ensemble.  
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==Key Investigators==
 
==Key Investigators==

Revision as of 18:59, 16 June 2010

Home < 2010 Summer Project Week Shape Analysis UNC

Motivations: Clinical Applications in Orthodontics

We are aiming to develop methods to compute Shape Correspondence and Shape Analysis to the Orthodontic Clinical field. The main challenge in this approach is the complexity of the surfaces processed, i.e. Cranio-Maxillo-Facial anatomy. Until now, Shape Correspondence was applied almost entirely to brain morphometry studies. SPHARM-PDM Toolbox has been used until now for different Ortho applications, however the performance of this methodological framework does not work satisfactorily for Full Mandibles. Our main interest focuses right now in Entropy-Based Particle Systems [1], that does not rely in parametric fields or spherical topology for establishing correspondence in a Surface Ensemble.

Key Investigators

  • UNC SPHARM: Beatriz Paniagua, Martin Styner, Corentin Hamel
  • UNC Particle System: Beatriz Paniagua, Ipek Oguz, Clement Vachet
  • UNC Shape Analysis, Application and Visualization: Beatriz Paniagua, Martin Styner, Lucia Cevidanes

Project

Objective

Approach, Plan

Progress

References

[1] J Cates, P T Fletcher, M Styner, M Shenton, R Whitaker. Shape Modeling and Analysis with Entropy-Based Particle Systems. Information Processing in Medical Imaging IPMI 2007, LNCS 4584, pp. 333-345, 2007.