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Framework for a low-cost intra-operative image-guided neuronavigator including brain shift compensation

Medical Physics 2007-09-06 v1
Authors: Marek Bucki , Claudio Lobos , Yohan Payan
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Abstract

In this paper we present a methodology to address the problem of brain tissue deformation referred to as 'brain-shift'. This deformation occurs throughout a neurosurgery intervention and strongly alters the accuracy of the neuronavigation systems used to date in clinical routine which rely solely on pre-operative patient imaging to locate the surgical target, such as a tumour or a functional area. After a general description of the framework of our intra-operative image-guided system, we describe a procedure to generate patient specific finite element meshes of the brain and propose a biomechanical model which can take into account tissue deformations and surgical procedures that modify the brain structure, like tumour or tissue resection.

Keywords

biomedical imaging and clinical applications medical imaging

Cite

@article{arxiv.0709.0683,
  title  = {Framework for a low-cost intra-operative image-guided neuronavigator including brain shift compensation},
  author = {Marek Bucki and Claudio Lobos and Yohan Payan},
  journal= {arXiv preprint arXiv:0709.0683},
  year   = {2007}
}

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