Difference between revisions of "Projects:ShapeCorrespondence UNCOrthoApp"

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==Motivations: Clinical Applications in Orthodontics==
 
==Motivations: Clinical Applications in Orthodontics==
 
We are aiming to develop methods to possible application of Shape Correspondence and Shape Analysis to Orthodontic applications. Three projects are currently in progress:  
 
We are aiming to develop methods to possible application of Shape Correspondence and Shape Analysis to Orthodontic applications. Three projects are currently in progress:  
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# '''Temporomandibular Joint (TMJ) Osteoarthritis (OA).''' Shape analysis used to localize and quantify the condylar morphological differences in the progression of the Temporomandibular Joint Osteoarthritic disease. The information obtained can be used in the clinical field to better elucidate the nature of the disease and therefore aim for a better treatment planning.
 
# '''Temporomandibular Joint (TMJ) Osteoarthritis (OA).''' Shape analysis used to localize and quantify the condylar morphological differences in the progression of the Temporomandibular Joint Osteoarthritic disease. The information obtained can be used in the clinical field to better elucidate the nature of the disease and therefore aim for a better treatment planning.
 
# '''Asymmetry.''' 3D cephalometries, measuring the distances between the structure and its mirror is an approach to localize asymmetry and to quantify the left and right differences in the anatomy of interest.  This information can be used in corrective surgery planning.
 
# '''Asymmetry.''' 3D cephalometries, measuring the distances between the structure and its mirror is an approach to localize asymmetry and to quantify the left and right differences in the anatomy of interest.  This information can be used in corrective surgery planning.
# Skeletodental deformities corrective surgery. Blablablabla stability testing, simulation lilili.
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# '''Skeletodental deformities corrective surgery.''' Test the changes in hard-tissue after corrective surgery for skeletal dento-facial deformities.  
  
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Different NAMIC Tools are used for this purpose, and also some tools are under current development, any possible improvement or merging of this two approaches will be very helpful in our project development.
  
 
==Key Investigators==
 
==Key Investigators==

Revision as of 20:34, 10 June 2009

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Motivations: Clinical Applications in Orthodontics

We are aiming to develop methods to possible application of Shape Correspondence and Shape Analysis to Orthodontic applications. Three projects are currently in progress:

  1. Temporomandibular Joint (TMJ) Osteoarthritis (OA). Shape analysis used to localize and quantify the condylar morphological differences in the progression of the Temporomandibular Joint Osteoarthritic disease. The information obtained can be used in the clinical field to better elucidate the nature of the disease and therefore aim for a better treatment planning.
  2. Asymmetry. 3D cephalometries, measuring the distances between the structure and its mirror is an approach to localize asymmetry and to quantify the left and right differences in the anatomy of interest. This information can be used in corrective surgery planning.
  3. Skeletodental deformities corrective surgery. Test the changes in hard-tissue after corrective surgery for skeletal dento-facial deformities.

Different NAMIC Tools are used for this purpose, and also some tools are under current development, any possible improvement or merging of this two approaches will be very helpful in our project development.

Key Investigators

  • UNC: Beatriz Paniagua, Martin Styner, Lucia Cevidanes

Objective

Our approach for lalala is lalala. The main challenge this approach is lots of pre-processing are needed to adapt the current methods to the new data (until now, Shape Correspondence applied almost entirely to brain morphometry studies).

Approach, Plan

Our approach for lalala is lalala. The main challenge this approach is lots of pre-processing are needed to adapt the current methods to the new data (until now, Shape Correspondence applied almost entirely to brain morphometry studies).

Our plan for the project week is to first try out hmmmm After correspondence, statistical analysis... Integration of the UNC statistical core to Slicer 3!<bar>,...

Progress

Software for the fiber tracking and statistical analysis along the tracts has been implemented. The statistical methods for diffusion tensors are implemented as ITK code as part of the DTI Software Infrastructure project. The methods have been validated on a repeated scan of a healthy individual. This work has been published as a conference paper (MICCAI 2005) and a journal version (MEDIA 2006). Our recent IPMI 2007 paper includes a nonparametric regression method for analyzing data along a fiber tract.


References

  • "Shape Modeling and Analysis with Entropy-Based Particle Systems" J Cates, P T Fletcher, M Styner, M Shenton, R Whitaker. IPMI 2007, LNCS 4584, pp. 333-345, 2007.
  • "Parameter space warping: shape-based correspondence between morphologically different objects" Meier, D. Fisher, E. IEEE Transactions on Medical Imaging, 2002
  • "Craniofacial Surgery" Seth Thaller, Joe I. Garri, James P. Bradley, Henry K. (INT) Kawamoto Contributor Henry K. (INT) Kawamoto. CRC Press, 2007
  • "Principles of Surgery" I. Schwartz., Single Volume. McGraw-Hill Professional, 7 edition, 1998.
  • "Condylar Resorption in Subjects with TMJ Osteoarthritis" Lucia H.S. Cevidanes, Anna-Kari Hajati, Beatriz Paniagua, David G. Walker, Martin Styner, Pei Feng Lim. Submitted to the Journal of Dental Research, 2009
  • "Closed and Open Source Neuroimage Analysis Tools and Libraries at UNC" Styner, Jomier, Gerig, ISBI 2006
  • "Open Source Statistical Surface Shape Analysis Package" Niethammer, Styner, Paniagua, Pantazis, Macenko, in preparation for InsightJournal