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software [2013/06/03 15:47]
tdalbis
software [2013/06/04 10:19] (current)
test
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 Three pipelines have been implemented:​ the inclusion pipeline, the preoperative pipeline and the postoperative pipeline. ​ The //inclusion pipeline//, takes as input a T1-weighted and a T2-weighted MR image of the patient'​s head and an anatomical brain atlas. The T1-weighted image is used for an intensity-based segmentation of skin, brain and cortical sulci, and for an atlas-based segmentation of the brain ventricles and the basal ganglia. The T2-weighted image is registered to the reference AC-PC space for better visualization of deep brain structures. Since patient MR images are acquired several months before surgery, no tight time constraints are imposed to this pipeline. The //​preoperative pipeline// takes as input a CT image of the patient'​s head fixed to the surgical stereotactic frame and a model of the stereotactic frame itself. The CT image is registered to the reference space and used both to segment the patient'​s skull and to detect the stereotactic frame on the image. Frame detection is used to compute a transformation that maps the frame space to the reference AC-PC space. Since the preoperative CT is acquired on the same day of the surgery, the processing time of this pipeline has direct impact on the overall duration of the surgical workflow and shall be thus minimized. The //​postoperative pipeline//, takes as input a postoperative CT image of the patient'​s head and a geometrical model of the implanted electrode(s). The postoperative CT image is registered to the reference space and the electrode artifacts are segmented on the image. The geometrical electrode model is then fitted to the segmented artifacts to localize electrode contacts. ​ Three pipelines have been implemented:​ the inclusion pipeline, the preoperative pipeline and the postoperative pipeline. ​ The //inclusion pipeline//, takes as input a T1-weighted and a T2-weighted MR image of the patient'​s head and an anatomical brain atlas. The T1-weighted image is used for an intensity-based segmentation of skin, brain and cortical sulci, and for an atlas-based segmentation of the brain ventricles and the basal ganglia. The T2-weighted image is registered to the reference AC-PC space for better visualization of deep brain structures. Since patient MR images are acquired several months before surgery, no tight time constraints are imposed to this pipeline. The //​preoperative pipeline// takes as input a CT image of the patient'​s head fixed to the surgical stereotactic frame and a model of the stereotactic frame itself. The CT image is registered to the reference space and used both to segment the patient'​s skull and to detect the stereotactic frame on the image. Frame detection is used to compute a transformation that maps the frame space to the reference AC-PC space. Since the preoperative CT is acquired on the same day of the surgery, the processing time of this pipeline has direct impact on the overall duration of the surgical workflow and shall be thus minimized. The //​postoperative pipeline//, takes as input a postoperative CT image of the patient'​s head and a geometrical model of the implanted electrode(s). The postoperative CT image is registered to the reference space and the electrode artifacts are segmented on the image. The geometrical electrode model is then fitted to the segmented artifacts to localize electrode contacts. ​
  
-PyDBS is currently hosted on [[ https://​sourcesup.renater.fr/​projects/​pydbs/​ | SoureSup ​]] and available ​for all the partners of the ACouStiC project.+PyDBS is currently hosted on [[ https://​sourcesup.renater.fr/​projects/​pydbs/​ | SourceSup ​]] and is available ​to all the partners of the ACouStiC project.
  
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software.txt ยท Last modified: 2013/06/04 10:19 by test