Localization of beta and high-frequency oscillations within the subthalamic nucleus region

[1]  Simon Baudrexel,et al.  Intraoperative microelectrode recording for the delineation of subthalamic nucleus topography in Parkinson’s disease , 2012, Brain Stimulation.

[2]  Y. Agid,et al.  Bilateral subthalamic stimulation for Parkinson's disease by using three-dimensional stereotactic magnetic resonance imaging and electrophysiological guidance. , 2000, Journal of neurosurgery.

[3]  M. F. Contarino,et al.  Directional Recording of Subthalamic Spectral Power Densities in Parkinson's Disease and the Effect of Steering Deep Brain Stimulation , 2015, Brain Stimulation.

[4]  W. Pennya,et al.  Testing for nested oscillation , 2008 .

[5]  Andrea A. Kühn,et al.  The relationship between local field potential and neuronal discharge in the subthalamic nucleus of patients with Parkinson's disease , 2005, Experimental Neurology.

[6]  M. Butz,et al.  Parkinsonian Rest Tremor Is Associated With Modulations of Subthalamic High‐Frequency Oscillations , 2016, Movement disorders : official journal of the Movement Disorder Society.

[7]  M. Hariz,et al.  What You See Is What You Get: Lead Location Within Deep Brain Structures Is Accurately Depicted by Stereotactic Magnetic Resonance Imaging , 2015, Neurosurgery.

[8]  Peter Brown,et al.  Value of subthalamic nucleus local field potentials recordings in predicting stimulation parameters for deep brain stimulation in Parkinson's disease , 2010, Journal of Neurology, Neurosurgery & Psychiatry.

[9]  M. Fox,et al.  Connectivity Predicts deep brain stimulation outcome in Parkinson disease , 2017, Annals of neurology.

[10]  P. Gatev,et al.  Oscillations in the basal ganglia under normal conditions and in movement disorders , 2006, Movement disorders : official journal of the Movement Disorder Society.

[11]  Robert Chen,et al.  The mechanisms of action of deep brain stimulation and ideas for the future development , 2015, Progress in Neurobiology.

[12]  Andrea A Kühn,et al.  Lead-DBS: A toolbox for deep brain stimulation electrode localizations and visualizations , 2015, NeuroImage.

[13]  P. Brown,et al.  Adaptive Deep Brain Stimulation In Advanced Parkinson Disease , 2013, Annals of neurology.

[14]  E. Montgomery,et al.  The Subthalamic Nucleus , 2014 .

[15]  Tarek A. Yousry,et al.  A Quick and Universal Method for Stereotactic Visualization of the Subthalamic Nucleus before and after Implantation of Deep Brain Stimulation Electrodes , 2004, Stereotactic and Functional Neurosurgery.

[16]  Nuri Firat Ince,et al.  Spatial distribution of nonlinear interactions in subthalamic nucleus local field potentials in Parkinson'S disease , 2015, 2015 37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC).

[17]  John T. Gale,et al.  Subthalamic nucleus discharge patterns during movement in the normal monkey and Parkinsonian patient , 2009, Brain Research.

[18]  W. Gibb,et al.  The relevance of the Lewy body to the pathogenesis of idiopathic Parkinson's disease. , 1988, Journal of neurology, neurosurgery, and psychiatry.

[19]  Andrea A. Kühn,et al.  Pathological synchronisation in the subthalamic nucleus of patients with Parkinson's disease relates to both bradykinesia and rigidity , 2009, Experimental Neurology.

[20]  Nicola J. Ray,et al.  Local field potential beta activity in the subthalamic nucleus of patients with Parkinson's disease is associated with improvements in bradykinesia after dopamine and deep brain stimulation , 2008, Experimental Neurology.

[21]  L Lopiano,et al.  Deep brain stimulation of the subthalamic nucleus: anatomical, neurophysiological, and outcome correlations with the effects of stimulation , 2002, Journal of neurology, neurosurgery, and psychiatry.

[22]  Jose A. Obeso,et al.  Movement disorders—a growing journal for a growing field , 2014 .

[23]  Jaimie M. Henderson,et al.  Bilateral symmetry and coherence of subthalamic nuclei beta band activity in Parkinson's disease , 2010, Experimental Neurology.

[24]  Terry M. Peters,et al.  Generation and evaluation of an ultra-high-field atlas with applications in DBS planning , 2016, SPIE Medical Imaging.

[25]  Tipu Aziz,et al.  Complementary roles of different oscillatory activities in the subthalamic nucleus in coding motor effort in Parkinsonism☆ , 2013, Experimental Neurology.

[26]  Siobhan Ewert,et al.  Toward defining deep brain stimulation targets in MNI space: A subcortical atlas based on multimodal MRI, histology and structural connectivity , 2016, NeuroImage.

[27]  S Cerutti,et al.  300-Hz subthalamic oscillations in Parkinson's disease. , 2003, Brain : a journal of neurology.

[28]  X.L. Chen,et al.  Deep Brain Stimulation , 2013, Interventional Neurology.

[29]  G Polo,et al.  Subthalamic nucleus stimulation in Parkinson's disease : anatomical and electrophysiological localization of active contacts. , 2006, Journal of neurology.

[30]  Thomas Foltynie,et al.  Minimizing Brain Shift in Stereotactic Functional Neurosurgery , 2010, Neurosurgery.

[31]  Peter Brown,et al.  Intra-operative recordings of local field potentials can help localize the subthalamic nucleus in Parkinson's disease surgery , 2006, Experimental Neurology.

[32]  Andrea A. Kühn,et al.  High-Frequency Stimulation of the Subthalamic Nucleus Suppresses Oscillatory β Activity in Patients with Parkinson's Disease in Parallel with Improvement in Motor Performance , 2008, The Journal of Neuroscience.

[33]  Vladimir Litvak,et al.  Synchronized neural oscillations and the pathophysiology of Parkinson's disease. , 2013, Current opinion in neurology.

[34]  Alfons Schnitzler,et al.  High frequency oscillations in the subthalamic nucleus: A neurophysiological marker of the motor state in Parkinson's disease , 2011, Experimental Neurology.

[35]  S. Haber,et al.  The Organization of Prefrontal-Subthalamic Inputs in Primates Provides an Anatomical Substrate for Both Functional Specificity and Integration: Implications for Basal Ganglia Models and Deep Brain Stimulation , 2013, The Journal of Neuroscience.

[36]  Hagai Bergman,et al.  Local vs. volume conductance activity of field potentials in the human subthalamic nucleus. , 2017, Journal of neurophysiology.

[37]  Karl J. Friston,et al.  Diffeomorphic registration using geodesic shooting and Gauss–Newton optimisation , 2011, NeuroImage.

[38]  Hagai Bergman,et al.  Subthalamic span of beta oscillations predicts deep brain stimulation efficacy for patients with Parkinson's disease. , 2010, Brain : a journal of neurology.

[39]  J. Dostrovsky,et al.  Beta oscillatory activity in the subthalamic nucleus and its relation to dopaminergic response in Parkinson's disease. , 2006, Journal of neurophysiology.

[40]  Karl J. Friston,et al.  Movement-Related Changes in Local and Long-Range Synchronization in Parkinson's Disease Revealed by Simultaneous Magnetoencephalography and Intracranial Recordings , 2012, The Journal of Neuroscience.

[41]  Aviva Abosch,et al.  Prediction of STN-DBS Electrode Implantation Track in Parkinson's Disease by Using Local Field Potentials , 2016, Front. Neurosci..

[42]  M. Jahanshahi,et al.  MRI-guided STN DBS in Parkinson's disease without microelectrode recording: efficacy and safety , 2010, Journal of Neurology, Neurosurgery & Psychiatry.

[43]  G. Schneider,et al.  Toward an electrophysiological “sweet spot” for deep brain stimulation in the subthalamic nucleus , 2017, Human brain mapping.

[44]  T. Matsushima,et al.  Striatal and Tegmental Neurons Code Critical Signals for Temporal-Difference Learning of State Value in Domestic Chicks , 2016, Front. Neurosci..

[45]  H. Bergman,et al.  Pathological synchronization in Parkinson's disease: networks, models and treatments , 2007, Trends in Neurosciences.

[46]  Jens Volkmann,et al.  Bilateral high-frequency stimulation in the subthalamic nucleus for the treatment of Parkinson disease: correlation of therapeutic effect with anatomical electrode position. , 2002, Journal of neurosurgery.

[47]  Arno Klein,et al.  Evaluation of 14 nonlinear deformation algorithms applied to human brain MRI registration , 2009, NeuroImage.

[48]  Aviva Abosch,et al.  Localization of clinically effective stimulating electrodes in the human subthalamic nucleus on magnetic resonance imaging. , 2002, Journal of neurosurgery.

[49]  Jorge Iriarte,et al.  Coupling between Beta and High-Frequency Activity in the Human Subthalamic Nucleus May Be a Pathophysiological Mechanism in Parkinson's Disease , 2010, The Journal of Neuroscience.

[50]  Andrew I. Yang,et al.  Beta-Coupled High-Frequency Activity and Beta-Locked Neuronal Spiking in the Subthalamic Nucleus of Parkinson's Disease , 2014, The Journal of Neuroscience.

[51]  E. Eskandar,et al.  Mechanisms of deep brain stimulation. , 2016, Journal of neurophysiology.

[52]  Jing Wang,et al.  High‐frequency oscillations in Parkinson's disease: Spatial distribution and clinical relevance , 2014, Movement disorders : official journal of the Movement Disorder Society.

[53]  G. Deuschl,et al.  Neuronal activity of the human subthalamic nucleus in the parkinsonian and nonparkinsonian state. , 2008, Journal of neurophysiology.

[54]  R. Raedt,et al.  The Effect of Vagus Nerve Stimulation on CSF Monoamines and the PTZ Seizure Threshold in Dogs , 2015, Brain Stimulation.

[55]  Thomas Wichmann,et al.  Neuronal firing before and after burst discharges in the monkey basal ganglia is predictably patterned in the normal state and altered in parkinsonism. , 2006, Journal of neurophysiology.

[56]  Andreas Horn,et al.  Probabilistic conversion of neurosurgical DBS electrode coordinates into MNI space , 2017, NeuroImage.

[57]  P. Brown,et al.  Deep brain stimulation can suppress pathological synchronisation in parkinsonian patients , 2010, Journal of Neurology, Neurosurgery & Psychiatry.

[58]  D. Collins,et al.  The creation of a brain atlas for image guided neurosurgery using serial histological data , 2003, NeuroImage.

[59]  V. Litvak,et al.  Parametric estimation of cross-frequency coupling , 2015, Journal of Neuroscience Methods.

[60]  Alexander Münchau,et al.  Activity Parameters of Subthalamic Nucleus Neurons Selectively Predict Motor Symptom Severity in Parkinson's Disease , 2014, The Journal of Neuroscience.

[61]  Richard S. Frackowiak,et al.  Confirmation of functional zones within the human subthalamic nucleus: Patterns of connectivity and sub-parcellation using diffusion weighted imaging , 2012, NeuroImage.

[62]  A. Kupsch,et al.  Automated Optimization of Subcortical Cerebral MR Imaging−Atlas Coregistration for Improved Postoperative Electrode Localization in Deep Brain Stimulation , 2009, American Journal of Neuroradiology.

[63]  Ioannis N. Mavridis,et al.  Anatomy of the Human Subthalamic Nucleus: A Combined Morphometric Study , 2013, Anatomy research international.

[64]  Tipu Z. Aziz,et al.  Subthalamic nucleus phase–amplitude coupling correlates with motor impairment in Parkinson’s disease , 2016, Clinical Neurophysiology.

[65]  P. Brown,et al.  Reduction in subthalamic 8–35 Hz oscillatory activity correlates with clinical improvement in Parkinson's disease , 2006, The European journal of neuroscience.

[66]  A. Parent,et al.  Functional anatomy of the basal ganglia. II. The place of subthalamic nucleus and external pallidium in basal ganglia circuitry , 1995, Brain Research Reviews.