Publications

Non-Motor Characterization of the Basal Ganglia: Evidence from Human and Non-Human Primate Electrophysiology

R. Eisinger, M. Urdaneta, K.D. Foote, M.S. Okun, A. Gunduz, “Non-Motor Characterization of the Basal Ganglia: Evidence from Human and Non-Human Primate Electrophysiology,” Frontiers in Neuroprosthetics, accepted, 2018.

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Longitudinal Follow-up of Impedance Drift in Deep Brain Stimulation Cases

J. Wong, A. Gunduz, J. Shute, R. Eisinger, S. Cernera, K.W.D. Ho, D. Martinez-Ramirez, L. Almeida, C.A. Wilson, M.S. Okun & C.W. Hess, “Longitudinal Follow-up of Impedance Drift in Deep Brain Stimulation Cases,” Tremor and Other Hyperkinetic Disorders, 8:542, 2018. [PubMed]

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Evolving applications, technological challenges and future opportunities in neuromodulation: Proceedings of the Fifth Annual Deep Brain Stimulation Think Tank

A. Ramirez-Zamora, J.J. Giardano, A. Gunduz, P. Brown, et al., M.S. Okun, “Evolving applications, technological challenges and future opportunities in neuromodulation: Proceedings of the Fifth Annual Deep Brain Stimulation Think Tank,” Frontiers of Neuroscience, 11:734, 2017. [PubMed]

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Ventral intermediate nucleus versus zona incerta region deep brain stimulation in essential tremor

R. Eisinger, J. Wong, L. Almeida, A. Ramirez-Zamora, J. Cagle, J. Giugni, B. Ahmed, A. Bona, E. Monari, A. Shukla, C.W. Hess, J. Hilliard, K.D. Foote, A. Gunduz, M.S. Okun, D. Martinez-Ramirez, “Ventral intermediate nucleus versus zona incerta region deep brain stimulation in essential tremor,” Movement Disorders Clinical Practice, 5:75, 2017. [Article]

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Efficacy and Safety of Deep Brain Stimulation in Tourette Syndrome: The International Tourette Syndrome Deep Brain Stimulation Public Database and Registry

D. Martinez-Ramirez, J. Jimenez-Shahed, et al., A. Gunduz, M.S. Okun, “Efficacy and Safety of Deep Brain Stimulation in Tourette Syndrome: The International Tourette Syndrome Deep Brain Stimulation Public Database and Registry,” JAMA Neurology, 75:353, 2017. [PubMed]

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Reengineering Deep Brain Stimulation for Movement Disorders: Emerging Technologies

A. Gunduz, K.D. Foote, M.S. Okun, “Reengineering Deep Brain Stimulation for Movement Disorders: Emerging Technologies,” Current Opinion in Biomedical Engineering, 4:97, 2017. [PubMed]

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Management of falsely elevated deep brain stimulation leads

W. Deeb, A. Rezai, M.S. Okun, A. Gunduz, “Management of Falsely Elevated Impedances on Deep Brain Stimulation Leads,” Tremor and Other Hyperkinetic Movements, 21:7, 2017. [PubMed]

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Measures of Impulsivity in Parkinson’s Disease Decrease After DBS in the Setting of Stable Dopamine Therapy

P.J. Rossi, S. de Jesus, C.W. Hess, D. Martinez-Ramirez, K.D. Foote, A. Gunduz*, M.S. Okun*, “Measures of Impulsivity in Parkinson’s Disease Decrease After DBS in the Setting of Stable Dopamine Therapy,” Parkinsonism and Related Disorders, 44:13, 2017. *Co-senior authors [PubMed]

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Motor subtype changes in early Parkinson’s disease

R. Eisinger, C.W. Hess, D. Martinez-Ramirez, L. Almeida, K.D. Foote, M.S. Okun, A. Gunduz, “Motor subtype changes in early Parkinson’s disease,” Parkinsonism and Other Related Disorders, 43:67, 2017. [PubMed]

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Impulsivity in Parkinson’s disease is associated with altered subthalamic but not globus pallidus internus activity

P.J. Rossi, J.B. Shute, E. Opri, R. Molina, C. Peden, O.L. Castellanos, K.D. Foote, A. Gunduz*, M.S. Okun*, “Impulsivity in Parkinson’s disease is associated with altered subthalamic but not globus pallidus internus activity,” Journal of Neurology, Neurosurgery, and Psychiatry, 88:11, 2017. *Co-senior authors. [PubMed]

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