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activities:theme1:dbscomp [2017/12/15 14:12]
mperalta
activities:theme1:dbscomp [2018/01/17 13:56] (current)
mperalta
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   * [[members:​maxime.peralta:​index|Maxime Peralta]] - PhD   * [[members:​maxime.peralta:​index|Maxime Peralta]] - PhD
 __Paris ICM__ __Paris ICM__
-  * Eric BARDINET +  * Eric Bardinet 
-  * Sara FERNANDEZ-­VIDAL +  * Sara Fernandez Vidal 
-  * Jerome ​YELNIK +  * Jerome ​Yelnik 
-  * Marie-­Laure WELTER +  * Marie-­Laure Welter 
-  * Carine ​ Karachi+  * Carine Karachi
 __Paris Neurospin__ __Paris Neurospin__
   * Cyril Poupon   * Cyril Poupon
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   * Justine Beaujoin   * Justine Beaujoin
 __Boston BWH__ __Boston BWH__
-  * Sonia PUJOL +  * Sonia Pujol
-  * Ryan Cabeen+
  
  
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 Knowing from post operative images where the electrode and the activated contact are,​ fiber tracts activated by DBS will be correlated to function and clinical data including electro-­physiological signals acquired during surgery and clinical scores. For such purpose, we will propose a new adapted tractography approach from Diffusion Tensor Imaging. Additionally,​ we will study non-­linear machine learning approaches to express such correlation and validate it on clinical data sets. The resulting models will allow both prediction and understanding of clinical outcome and side effects. Knowing from post operative images where the electrode and the activated contact are,​ fiber tracts activated by DBS will be correlated to function and clinical data including electro-­physiological signals acquired during surgery and clinical scores. For such purpose, we will propose a new adapted tractography approach from Diffusion Tensor Imaging. Additionally,​ we will study non-­linear machine learning approaches to express such correlation and validate it on clinical data sets. The resulting models will allow both prediction and understanding of clinical outcome and side effects.
  
-{{:​activities:​theme1:​image_tracto.png|}}+{{:​activities:​theme1:​image_tracto.png?600|}}
 //Crossings of the pyramidal pathway with subthalamo-pallidal and pallido-subthalamic fibers (MC-det approach) in HCP subject 100307. Source: In vivo Exploration of the Connectivity between the Subthalamic Nucleus and the Globus Pallidus in the Human Brain Using Multi-Fiber Tractography,​ Pujol et al.// //Crossings of the pyramidal pathway with subthalamo-pallidal and pallido-subthalamic fibers (MC-det approach) in HCP subject 100307. Source: In vivo Exploration of the Connectivity between the Subthalamic Nucleus and the Globus Pallidus in the Human Brain Using Multi-Fiber Tractography,​ Pujol et al.//
inserm rennes1 ltsi