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@inproceedings{dergachyova2014, address = {Boston, USA}, author = {Dergachyova, Olga and Zhao, Yulong and Haegelen, Claire and Jannin, Pierre and Essert, Caroline}, booktitle = {MICCAI 2014 Workshop on Deep Brain Stimulation Methodological Challenges-2nd edition}, title = {{Automatic Pre-operative Planning of DBS Electrodes Placement using Anatomo-Clinical Atlases}}, year = {2014} }
@inproceedings{bilger2014b, address = {Strasbourg, France}, author = {Bilger, Alexandre and Bardinet, Eric and Fernandez-Vidal, Sara and Duriez, Christian and Jannin, Pierre and Cotin, Stephane}, booktitle = {ISBMS-International Symposium on Biomedical Simulation}, title = {{Intra-operative Registration for Stereotactic Procedures driven by a combined Biomechanical Brain and CSF Model}}, year = {2014} }
@inproceedings{bilger2014a, address = {Boston, USA}, author = {Bilger, Alexandre and Bardinet, Eric and Fernandez-Vidal, Sara and Duriez, Christian and Jannin, Pierre and Cotin, Stephane}, booktitle = {MICCAI 2014 Workshop on Deep Brain Stimulation Methodological Challenges-2nd edition}, title = {{Intra-operative Registration for Deep Brain Stimulation Procedures based on a Full Physics Head Model}}, year = {2014} }
@inproceedings{essert2012automatic, title={Automatic Parameters Optimization for Deep Brain Stimulation Trajectory Planning}, author={Essert, Caroline and Marchal, Maud and Fernandez-Vidal, Sara and D’Albis, Tiziano and Bardinet, Eric and Haegelen, Claire and Welter, Marie-Laure and Yelnik, Jérôme and Jannin, Pierre}, booktitle={DBSMC-MICCAI 2012 Workshop on Deep Brain Stimulation Methodological Challenges}, year={2012}, url="http://dbsmc2012.sciencesconf.org/" }
@inproceedings{bilger2012brain, title={Brain-shift aware risk map for Deep Brain Stimulation Planning}, author={Bilger, Alexandre and Essert, Caroline and Duriez, Christian and Cotin, Stéphane}, booktitle={DBSMC-MICCAI 2012 Workshop on Deep Brain Stimulation Methodological Challenges}, year={2012}, url="http://dbsmc2012.sciencesconf.org/" }
@inproceedings{fonov2012unbiased, title={Unbiased MRI atlases for Deep Brain Surgery}, author={Fonov, D and Louis Collins and Vladimir and Haegelen, Claire and Xiao, Yiming and Morandi, Xavier and Jannin, Pierre}, booktitle={DBSMC-MICCAI 2012 Workshop on Deep Brain Stimulation Methodological Challenges}, Year="2012", url="http://dbsmc2012.sciencesconf.org/" }
@inproceedings{bilger2011, Author="Bilger, A. and Dequidt, J. and Duriez, C. and Cotin, S. ", Title="{Biomechanical simulation of electrode migration for deep brain stimulation}", Journal="Med Image Comput Comput Assist Interv", Year="2011", Volume="14", Number="Pt 1", Pages="339--346", pmid="22003635" }
@article{essert2015, author = {Essert, Caroline and Fernandez-Vidal, Sara and Capobianco, Antonio and Haegelen, Claire and Karachi, Carine and Bardinet, Eric and Marchal, Maud and Jannin, Pierre}, journal = {Accepted in International Journal of Computer Assisted Radiology and Surgery}, title = {{Statistical Study of Parameters for Deep Brain Stimulation Automatic Pre-operative Planning of Electrodes Trajectories}}, year = {2015} }
@article{Bilger2014, abstract = {Deep Brain Stimulation is aneurosurgical approach for the treatment of pathologies such as Parkinson's disease. The basic principle consists in placing a thin electrode in a deep part of the brain. To safely reach the target of interest, careful planning must be performed to ensure that no vital structure (e.g. blood vessel) will be damaged during the insertion of the electrode. Currently this planning phase is done without considering the brain shift, which occurs during the surgery once the skull is open, leading to increased risks of complications. In this paper, we propose a method to compute the motion of anatomical structures induced by the brain shift. This computation is based on a biomechanical model of the brain and the cerebro-spinal fluid. We then visualize in a intuitive way the risk of damaging vital structures with the electrode.}, author = {Bilger, Alexandre and Duriez, Christian and Cotin, Stephane}, issn = {0926-9630}, journal = {Studies in health technology and informatics}, keywords = {brain shift,deep brain stimulation,risk planning,simulation}, month = jan, pages = {29--35}, pmid = {24732475}, title = {{Computation and visualization of risk assessment in deep brain stimulation planning.}}, url = {http://www.ncbi.nlm.nih.gov/pubmed/24732475 http://hal.archives-ouvertes.fr/hal-00881694/}, volume = {196}, year = {2014} }
@article{d2014pydbs, title={PyDBS: An automated image-processing workflow for planning and postoperative assessment of deep brain stimulation}, author={D’Albis, Tiziano and Haegelen, Claire and Essert, Caroline and Fernández-Vidal, Sara and Lalys, Florent and Jannin, Pierre}, journal={International Journal of Computer Assisted Radiology and Surgery}, year="2014", Volume="3", Number="2", Pages="117--128", }
@article{lalys2012anatomo, title={Anatomo-clinical atlases correlate clinical data and electrode contact coordinates: Application to subthalamic deep brain stimulation}, author={Lalys, Florent and Haegelen, Claire and Mehri, Maroua and Drapier, Sophie and Verin, Marc and Jannin, Pierre}, journal={Journal of neuroscience methods}, year={2012}, publisher={Elsevier}, doi = "10.1016/j.jneumeth.2012.11.002", file = pdf:lalys2012.pdf }