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Our peer-reviewed articles, fetched from PubMed
Noninvasive modulation of subcallosal cingulate and depression with focused ultrasonic waves. Thomas S. Riis, Daniel A. Feldman, Sarah S. Kwon, Lily C. Vonesh, Vincent Koppelmans, Jefferson R. Brown, Daniela Solzbacher, Jan Kubanek, Brian J. Mickey. Noninvasive modulation of subcallosal cingulate and depression with focused ultrasonic waves. Biological Psychiatry (2024) PMID: 39396736.
A Physiological Marker for Deep Brain Ultrasonic Neuromodulation. Webb T, Lybbert C, Wilson M, Odeen H, Kubanek J. A Physiological Marker for Deep Brain Ultrasonic Neuromodulation. Neuromodulation (2024) PMID: 39177522.
Noninvasive targeted modulation of pain circuits with focused ultrasonic waves. Riis T, Feldman D, Losser A, Okifuji A, Kubanek J. Noninvasive targeted modulation of pain circuits with focused ultrasonic waves. PAIN (2024) PMID: 39073370.
Graded decisions in the human brain. Xie T, Adamek M, Cho H, Adamo M, Ritaccio A, Willie J, Brunner P, Kubanek J. Graded decisions in the human brain. Nature Communications (2024) PMID: 38773117.
Remotely controlled drug release in deep brain regions of non-human primates. Wilson M, Webb T, Odeen H, Kubanek J. Remotely controlled drug release in deep brain regions of non-human primates. Journal of Controlled Release (2024) PMID: 38604386.
Controlled ultrasonic interventions through the human skull. Wilson M, Riis T, Kubanek J. Controlled ultrasonic interventions through the human skull. Frontiers in Human Neuroscience (2024) PMID: 38979100.
Targeted drug release from stable and safe ultrasound-sensitive nanocarriers . Wilson M, Parikh A, Dara A, Beaver A, Kubanek J. Targeted drug release from stable and safe ultrasound-sensitive nanocarriers. Frontiers in Molecular Biosciences (2024) PMID: 38962281.
Noninvasive modulation of essential tremor with focused ultrasonic waves. Riis T, Moretti P, Losser A, Kassavetis P, Kubanek J. Noninvasive modulation of essential tremor with focused ultrasonic waves. Journal of Neural Engineering (2024) PMID: 38335553.
Controlled noninvasive modulation of deep brain regions in humans Riis T, Feldman D, Mickey B, Kubanek J. Controlled noninvasive modulation of deep brain regions in humans. Nature Communications Engineering (2024) PMID: 38335554.
Durable effects of deep brain ultrasonic neuromodulation on major depression: a case report. Riis T, Feldman D, Vonesh L, Brown J, Solzbacher D, Kubanek J, Mickey B. Durable effects of deep brain ultrasonic neuromodulation on major depression: a case report. Journal of Medical Case Reports (2023) PMID: 37695955.
Device for multifocal delivery of ultrasound into deep brain regions in humans. Riis T, Feldman D, Losser A, Mickey B, Kubanek J. Device for multifocal delivery of ultrasound into deep brain regions in humans. IEEE Transactions on Biomedical Engineering (2023) PMID: 37695955.
Remote targeted electrical stimulation . Webb T, Wilson MG, Cheeniyil R, Kubanek J. Remote targeted electrical stimulation. Journal of Neural Engineering (2023), 20(3):036030. PMID: 37236172.
Sustained modulation of primate deep brain circuits with focused ultrasonic waves 
 . Webb T, Wilson MG, Odeen H, Kubanek J. Sustained modulation of primate deep brain circuits with focused ultrasonic waves. Brain Stimulation (2023), S1935-861X(23)01745-X. PMID: 37080427.
Multifrequency-based sharpening of focal volume. Riis T, Kubanek J. Multifrequency-based sharpening of focal volume. Scientific Reports (2022), 12, 22049. PMID: 36543884.
Transcranial ultrasound neuromodulation of the thalamic visual pathway in a large animal model and the dose-response relationship with MR-ARFI. Mohammadjavadi M, Ash RT, Li N, Gaur P, Kubanek J, Saenz Y, Glover GH, Popelka GR, Norcia AM, Pauly KB. Transcranial ultrasound neuromodulation of the thalamic visual pathway in a large animal model and the dose-response relationship with MR-ARFI. Scientific Reports (2022), 12, 19588. PMID: 36379960.
Remus: System for remote deep brain interventions. Webb TD, Wilson MG, Odeen H, Kubanek J. Remus: System for remote deep brain interventions. Iscience (2022), 25, 105251. PMID: 36304108.
Modeling human telencephalic development and autism-associated SHANK3 deficiency using organoids generated from single neural rosettes. Wang Y, Chiola S, Yang G, Russell C, Armstrong CJ, Wu Y, Spampanato J, Tarboton P, Ullah HMA, Edgar NU, Chang AN, Harmin DA, Bocchi VD, Vezzoli E, Besusso D, Cui J, Cattaneo E, Kubanek J, Shcheglovitov A. Modeling human telencephalic development and autism-associated SHANK3 deficiency using organoids generated from single neural rosettes. Nature Communications (2022), 13, 5688. PMID: 36202854.
Acoustic properties across the human skull. Riis TS, Webb TD, Kubanek J. Acoustic properties across the human skull. Ultrasonics (2022), 119, 106591. PMID: 34717144.
Effective Ultrasonic Stimulation in Human Peripheral Nervous System. Riis T, Kubanek J. Effective Ultrasonic Stimulation in Human Peripheral Nervous System. Ieee Transactions on Bio-Medical Engineering (2022), 69, 15-22. PMID: 34057888.
Remote, brain region-specific control of choice behavior with ultrasonic waves. Kubanek J, Brown J, Ye P, Pauly KB, Moore T, Newsome W. Remote, brain region-specific control of choice behavior with ultrasonic waves. Science Advances (2020), 6, eaaz4193. PMID: 32671207.
Histologic safety of transcranial focused ultrasound neuromodulation and magnetic resonance acoustic radiation force imaging in rhesus macaques and sheep. Gaur P, Casey KM, Kubanek J, Li N, Mohammadjavadi M, Saenz Y, Glover GH, Bouley DM, Pauly KB. Histologic safety of transcranial focused ultrasound neuromodulation and magnetic resonance acoustic radiation force imaging in rhesus macaques and sheep. Brain Stimulation (2020), 13, 804-814. PMID: 32289711.
Ultrasound Elicits Behavioral Responses through Mechanical Effects on Neurons and Ion Channels in a Simple Nervous System. Kubanek J, Shukla P, Das A, Baccus SA, Goodman MB. Ultrasound Elicits Behavioral Responses through Mechanical Effects on Neurons and Ion Channels in a Simple Nervous System. The Journal of Neuroscience (2018), 38, 3081-3091. PMID: 29463641.
Neuromodulation with transcranial focused ultrasound. Kubanek J. Neuromodulation with transcranial focused ultrasound. Neurosurgical Focus (2018), 44, E14. PMID: 29385924.
Optimal decision making and matching are tied through diminishing returns. Kubanek J. Optimal decision making and matching are tied through diminishing returns. Proceedings of The National Academy of Sciences of The United States of America (2017), 114, 8499-8504. PMID: 28739920.
Ultrasound modulates ion channel currents. Kubanek J, Shi J, Marsh J, Chen D, Deng C, Cui J. Ultrasound modulates ion channel currents. Scientific Reports (2016), 6, 24170. PMID: 27112990.
Matching Behavior as a Tradeoff Between Reward Maximization and Demands on Neural Computation. Kubanek J, Snyder LH. Matching Behavior as a Tradeoff Between Reward Maximization and Demands on Neural Computation. F1000Research (2015), 4, 147. PMID: 26664702.
Reward Size Informs Repeat-Switch Decisions and Strongly Modulates the Activity of Neurons in Parietal Cortex. Kubanek J, Snyder LH. Reward Size Informs Repeat-Switch Decisions and Strongly Modulates the Activity of Neurons in Parietal Cortex. Cerebral Cortex (New York, N.Y. : 1991) (2017), 27, 447-459. PMID: 26491065.
Cortical alpha activity predicts the confidence in an impending action. Kubanek J, Hill NJ, Snyder LH, Schalk G. Cortical alpha activity predicts the confidence in an impending action. Frontiers In Neuroscience (2015), 9, 243. PMID: 26283892.
Cognitive and action-based aspects of developing decisions in parietal cortex. Kubanek J, Mooshagian E. Cognitive and action-based aspects of developing decisions in parietal cortex. The Journal of Neuroscience (2015), 35, 8382-3. PMID: 26041907.
Reward and punishment act as distinct factors in guiding behavior. Kubanek J, Snyder LH, Abrams RA. Reward and punishment act as distinct factors in guiding behavior. Cognition (2015), 139, 154-67. PMID: 25824862.
Reward-based decision signals in parietal cortex are partially embodied. Kubanek J, Snyder LH. Reward-based decision signals in parietal cortex are partially embodied. The Journal of Neuroscience (2015), 35, 4869-81. PMID: 25810518.
Motor role of parietal cortex in a monkey model of hemispatial neglect. Kubanek J, Li JM, Snyder LH. Motor role of parietal cortex in a monkey model of hemispatial neglect. Proceedings of The National Academy of Sciences of The United States of America (2015), 112, E2067-72. PMID: 25759438.
NeuralAct: A Tool to Visualize Electrocortical (ECoG) Activity on a Three-Dimensional Model of the Cortex. Kubanek J, Schalk G. NeuralAct: A Tool to Visualize Electrocortical (ECoG) Activity on a Three-Dimensional Model of the Cortex. Neuroinformatics (2015), 13, 167-74. PMID: 25381641.
Neuronal responses to target onset in oculomotor and somatomotor parietal circuits differ markedly in a choice task. Kubanek J, Wang C, Snyder LH. Neuronal responses to target onset in oculomotor and somatomotor parietal circuits differ markedly in a choice task. Journal of Neurophysiology (2013), 110, 2247-56. PMID: 23966670.
A low-frequency oscillatory neural signal in humans encodes a developing decision variable. Kubanek J, Snyder LH, Brunton BW, Brody CD, Schalk G. A low-frequency oscillatory neural signal in humans encodes a developing decision variable. NeuroImage (2013), 83, 795-808. PMID: 23872495.
The tracking of speech envelope in the human cortex. Kubanek J, Brunner P, Gunduz A, Poeppel D, Schalk G. The tracking of speech envelope in the human cortex. PLOS ONE (2013), 8, e53398. PMID: 23408924.
Evidence for a decision variable in the human motor system. Kubanek J, Kaplan DM. Evidence for a decision variable in the human motor system. The Journal of Neuroscience (2012), 32, 8110-1. PMID: 22699891.
Decoding flexion of individual fingers using electrocorticographic signals in humans. Kubanek J, Miller KJ, Ojemann JG, Wolpaw JR, Schalk G. Decoding flexion of individual fingers using electrocorticographic signals in humans. Journal of Neural Engineering (2009), 6, 066001. PMID: 19794237.
Decoding two-dimensional movement trajectories using electrocorticographic signals in humans. Schalk G, Kubanek J, Miller KJ, Anderson NR, Leuthardt EC, Ojemann JG, Limbrick D, Moran D, Gerhardt LA, Wolpaw JR. Decoding two-dimensional movement trajectories using electrocorticographic signals in humans. Journal of Neural Engineering (2007), 4, 264-75. PMID: 17873429.