Biomechanical Simulation of Electrode Migration for Deep Brain Stimulation

Alexandre Bilger 1 Jérémie Dequidt 2 Christian Duriez 1 Stéphane Cotin 1
1 SHACRA - Simulation in Healthcare using Computer Research Advances
LIFL - Laboratoire d'Informatique Fondamentale de Lille, Inria Lille - Nord Europe, Inria Nancy - Grand Est
2 ALCOVE - Collaborative interactive virtual environment
LIFL - Laboratoire d'Informatique Fondamentale de Lille, Inria Lille - Nord Europe, IRCICA
Abstract : Deep Brain Stimulation is a modern surgical technique for treating patients who suffer from affective or motion disorders such as Parkinson's disease. The efficiency of the procedure relies heavily on the accuracy of the placement of a micro-electrode which sends electrical pulses to a specific part of the brain that controls motion and affective symptoms. However, targeting this small anatomical structure is rendered difficult due to a series of brain shifts that take place during and after the procedure. This paper introduces a biomechanical simulation of the intra and postoperative stages of the procedure in order to determine lead deformation and electrode migration due to brain shift. To achieve this goal, we propose a global approach, which accounts for brain deformation but also for the numerous interactions that take place during the procedure (contacts between the brain and the inner part of the skull and falx cerebri, effect of the cerebro-spinal fluid, and biomechanical interactions between the brain and the electrodes and cannula used during the procedure). Preliminary results show a good correlation between our simulations and various results reported in the literature.
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Alexandre Bilger, Jérémie Dequidt, Christian Duriez, Stéphane Cotin. Biomechanical Simulation of Electrode Migration for Deep Brain Stimulation. 14th International Conference on Medical Image Computing and Computer-Assisted Intervention - MICCAI 2011, Sep 2011, Toronto, Canada. pp.339-346, ⟨10.1007/978-3-642-23623-5_43⟩. ⟨hal-00685737⟩

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