Literature DB >> 18553218

Stereotactic model of the electrical distribution within the internal globus pallidus during deep brain stimulation.

Xavier Vasques1, Laura Cif, Olivier Hess, Sophie Gavarini, Gerard Mennessier, Philippe Coubes.   

Abstract

Deep brain stimulation (DBS) of the internal globus pallidus (GPi) is an established surgical technique for the treatment of movement disorders. The objective of this study was to propose a computational stereotactic model of the electrical distribution around the electrode within the targeted GPi in order to optimize parameter adjustment in clinical practice. The outline of the GPi can be defined precisely by using stereotactic magnetic resonance imaging (MRI) and from this it is possible to model its three-dimensional structure. The electrode and the distribution of the patient-specific parameters can then be co-registered with the GPi volume. By using this methodology, it is possible to visualize and measure the relationship between the electrical distribution of patient-specific parameters and the morphology of the GPi. The model could be applied in clinical practice to help determine the threshold for achieving a therapeutic effect and consequently may aid in optimizing parameter settings for individual patients.

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Year:  2008        PMID: 18553218     DOI: 10.1007/s10827-008-0101-y

Source DB:  PubMed          Journal:  J Comput Neurosci        ISSN: 0929-5313            Impact factor:   1.621


  28 in total

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4.  Magnetic resonance imaging-based stereotactic localization of the globus pallidus and subthalamic nucleus.

Authors:  P A Starr; J L Vitek; M DeLong; R A Bakay
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5.  Computational analysis of subthalamic nucleus and lenticular fasciculus activation during therapeutic deep brain stimulation.

Authors:  Svjetlana Miocinovic; Martin Parent; Christopher R Butson; Philip J Hahn; Gary S Russo; Jerrold L Vitek; Cameron C McIntyre
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6.  Comparison of atlas- and magnetic resonance imaging-based stereotactic targeting of the globus pallidus internus in the performance of deep brain stimulation for treatment of dystonia.

Authors:  Nathalie Vayssiere; Simone Hemm; Laura Cif; Marie Christine Picot; Nina Diakonova; Hassan El Fertit; Philippe Frerebeau; Philippe Coubes
Journal:  J Neurosurg       Date:  2002-04       Impact factor: 5.115

7.  Chronic stimulation of the globus pallidus internus for treatment of non-dYT1 generalized dystonia and choreoathetosis: 2-year follow up.

Authors:  Joachim K Krauss; Thomas J Loher; Ralf Weigel; H Holger Capelle; Sabine Weber; Jean-Marc Burgunder
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8.  Differences among implanted pulse generator waveforms cause variations in the neural response to deep brain stimulation.

Authors:  Christopher R Butson; Cameron C McIntyre
Journal:  Clin Neurophysiol       Date:  2007-06-19       Impact factor: 3.708

9.  Validity and reliability of a rating scale for the primary torsion dystonias.

Authors:  R E Burke; S Fahn; C D Marsden; S B Bressman; C Moskowitz; J Friedman
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10.  Chronic anterior thalamus stimulation for intractable epilepsy.

Authors:  Mojgan Hodaie; Richard A Wennberg; Jonathan O Dostrovsky; Andres M Lozano
Journal:  Epilepsia       Date:  2002-06       Impact factor: 5.864
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  8 in total

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Authors:  Simone Hemm; Karin Wårdell
Journal:  Med Biol Eng Comput       Date:  2010-06-02       Impact factor: 2.602

Review 2.  Current progress in patient-specific modeling.

Authors:  Maxwell Lewis Neal; Roy Kerckhoffs
Journal:  Brief Bioinform       Date:  2009-12-02       Impact factor: 11.622

Review 3.  Computational modeling of deep brain stimulation.

Authors:  Cameron C McIntyre; Thomas J Foutz
Journal:  Handb Clin Neurol       Date:  2013

4.  Lead-DBS v2: Towards a comprehensive pipeline for deep brain stimulation imaging.

Authors:  Andreas Horn; Ningfei Li; Till A Dembek; Ari Kappel; Chadwick Boulay; Siobhan Ewert; Anna Tietze; Andreas Husch; Thushara Perera; Wolf-Julian Neumann; Marco Reisert; Hang Si; Robert Oostenveld; Christopher Rorden; Fang-Cheng Yeh; Qianqian Fang; Todd M Herrington; Johannes Vorwerk; Andrea A Kühn
Journal:  Neuroimage       Date:  2018-09-01       Impact factor: 6.556

5.  Patient-specific models of deep brain stimulation: influence of field model complexity on neural activation predictions.

Authors:  Ashutosh Chaturvedi; Christopher R Butson; Scott F Lempka; Scott E Cooper; Cameron C McIntyre
Journal:  Brain Stimul       Date:  2010-04       Impact factor: 8.955

6.  Investigating the depth electrode-brain interface in deep brain stimulation using finite element models with graded complexity in structure and solution.

Authors:  Nada Yousif; Xuguang Liu
Journal:  J Neurosci Methods       Date:  2009-07-21       Impact factor: 2.390

7.  Deep brain stimulation effect on anterior pallidum reduces motor impulsivity in Parkinson's disease.

Authors:  Khaled Moussawi; Min Jae Kim; Sydney Baybayan; Myles Wood; Kelly A Mills
Journal:  Brain Stimul       Date:  2021-11-05       Impact factor: 8.955

8.  MRI-based multiscale model for electromagnetic analysis in the human head with implanted DBS.

Authors:  Maria Ida Iacono; Nikos Makris; Luca Mainardi; Leonardo M Angelone; Giorgio Bonmassar
Journal:  Comput Math Methods Med       Date:  2013-07-15       Impact factor: 2.238
  8 in total

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