David T. Bundy, Ph.D.
Affiliations: | 2008-2015 | Biomedical Engineering | Washington University, Saint Louis, St. Louis, MO |
2015- | Rehabilitation Medicine | University of Kansas Medical Center, Kansas City, KS, United States |
Area:
Local Field Potentials, Brain Computer Interface, ElectrocorticographyGoogle:
"David Bundy"Mean distance: 14.69 (cluster 17) | S | N | B | C | P |
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Publications
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Chang KW, Karthikesh MS, Zhu Y, et al. (2024) Photoacoustic imaging of squirrel monkey cortical responses induced by peripheral mechanical stimulation. Journal of Biophotonics. e202300347 |
Bundy DT, Barbay S, Hudson HM, et al. (2022) Stimulation-Evoked Effective Connectivity (SEEC): An in-vivo approach for defining mesoscale corticocortical connectivity. Journal of Neuroscience Methods. 384: 109767 |
Barbay S, Zhang H, Frost SB, et al. (2021) A Cortical Injury Model in a Non-Human Primate to Assess Execution of Reach and Grasp Actions: Implications for Recovery after Traumatic Brain Injury. Journal of Neuroscience Methods. 109283 |
Milighetti S, Sterzi S, Fregni F, et al. (2020) Effects of tDCS on Spontaneous Spike Activity in a Healthy Ambulatory Rat Model. Brain Stimulation |
Bundy DT, Guggenmos DJ, Murphy MD, et al. (2019) Chronic stability of single-channel neurophysiological correlates of gross and fine reaching movements in the rat. Plos One. 14: e0219034 |
Bundy DT, Leuthardt EC. (2019) The Cortical Physiology of Ipsilateral Limb Movements. Trends in Neurosciences |
Bundy DT, Nudo RJ. (2019) Preclinical Studies of Neuroplasticity Following Experimental Brain Injury. Stroke. STROKEAHA119023550 |
Murphy MD, Buccelli S, Bornat Y, et al. (2019) Improving an open-source commercial system to reliably perform activity-dependent stimulation. Journal of Neural Engineering |
Bundy DT, Szrama N, Pahwa M, et al. (2018) Unilateral, Three-dimensional Arm Movement Kinematics are Encoded in Ipsilateral Human Cortex. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience |
Bundy DT, Souders L, Baranyai K, et al. (2017) Contralesional Brain-Computer Interface Control of a Powered Exoskeleton for Motor Recovery in Chronic Stroke Survivors. Stroke |