Publications

2021

Knudsen, EB, and Wallis, JD (2021). Hippocampal neurons construct a map of an abstract value space. Cell, https://doi.org/10.1016/j.cell.2021.07.010

2020

Knudsen, EB, and Wallis, JD (2020). Closed-Loop Theta Stimulation in the Orbitofrontal Cortex Prevents Reward-Based Learning. Neuron 106, 537–547.e4 . https://doi.org/10.1016/j.neuron.2020.02.003

2019

Knudsen, EB, Balewski, ZZ, and Wallis, JD (2019). Model-based approaches for targeted neurophysiology in the behaving non-human primate. 9th International IEEE EMBS Conference On Neural Engineering, San Francisco, CA.  https://doi.org/10.1109/NER.2019.8716968

2017

Moxon, KA, and Knudsen, EB (2017). Restoration of hindlimb movements after complete spinal cord injury using brain-controlled functional electrical stimulation. Front. Neurosci. https://doi.org/10.3389/fnins.2017.00715

2016

Foffani, G, Shumsky J, Knudsen, EB, Ganzer, PD, and Moxon, KA (2016). Interactive effects between exercise and serotonergic pharmacotherapy on cortical reorganization after spinal cord injury. Neurorehabil. Neural Repair 30(5): 479-489. https://doi.org/10.1177%2F1545968315600523

2014

Knudsen, EB, Powers, MP, and Moxon, KA (2014). Dissociating movement from movement timing in the rat primary motor cortex. Journal of Neuroscience 34(47): 15576-15586. https://doi.org/10.1523/JNEUROSCI.1816-14.2014

2013

Ganzer, PD, Moxon, KA, Knudsen, EB, and Shumsky, JS (2013). Serotonergic pharmacotherapy promotes cortical reorganization after spinal cord injury. Exp. Neurol. 241: 84-94. https://doi.org/10.1016/j.expneurol.2012.12.004

Granziano, A, Foffani, G, Knudsen, EB, Shumsky, JS, and Moxon, KA (2013). Passive exercise of the hindlimbs after complete thoracic transection of the spinal cord promotes cortical reorganization. PLoS One 8(1). https://doi.org/10.1371/journal.pone.0054350

2012

Dougherty, JB, Goodman, JM, Knudsen, EB, and Moxon, KA (2012). Controlled Unilateral Isometric Force Generated by Epidural Spinal Cord Stimulation in the Rat Hindlimb. IEEE Transactions on Neural Systems and Rehabilitation Engineering. 20(4): 549-556. https://doi.org/10.1109/tnsre.2012.2190424

Knudsen, EB, Flint, RD, and Moxon, KA (2012). Encoding of temporal intervals in the rat hindlimb sensorimotor cortex. Frontiers in Systems Neuroscience 6(67). https://doi.org/10.3389/fnsys.2012.00067

Manohar, A, Flint, RD, Knudsen, EB, and Moxon, KA (2012). Decoding hindlimb movement for a brain machine interface to restore function after a complete spinal transection. PLoS One 7(12) https://doi.org/10.1371/journal.pone.0052173

2011

Dougherty, JB, Knudsen, EB, Goodman, JM, and Moxon, KA (2011). Response mapping for epidural spinal stimulation for the restoration of controlled hindlimb movement after spinal cord injury. Proceedings of the Fifth IEEE-EMBS Conference on Neural Engineering, Cancun Mexico. https://doi.org/10.1109/NER.2011.5910556

Kao, T, Shumsky, JS, Knudsen, EB, Murray, M, and KA Moxon (2011). Functional role of exercise-induced cortical organization of sensorimotor cortex after spinal transection. Journal of Neurophysiology 106(6), 2662-2674. https://doi.org/10.1152/jn.01017.2010

Knudsen, EB, Moxon, KA, Sturgis, EB, and Shumsky, JS (2011). Skilled hindlimb reaching task in rats as a platform for a brain-machine interface to restore motor function after complete spinal cord injury, Proceedings of the 33rd Annual International Conference of the IEEE Engineering in Medicine and Biology Society, Boston MA. https://doi.org/10.1109/iembs.2011.6091558

Manohar, A, Flint, RD, Knudsen, EB, and Moxon, KA (2011). Role of Neuronal Plasticity after Spinal Cord Injury for Neurorobotic Control. Proceedings of the Fifth IEEE-EMBS Conference on Neural Engineering, Cancun, Mexico. https://doi.org/10.1109/NER.2011.5910603

Knudsen, EB. Learning in abstract value spaces. Wellcome Centre for Integrative Neuroimaging via World Wide Neuro platform. Oxford University, Oxford, GB. July 22, 2020.

Knudsen, EB. Learning in abstract value spaces. Knight Lab. Berkeley, CA. June 17, 2020.

Knudsen, EB. Hippocampal contributions to value learning in the primate. Behavioral and Systems Neuroscience Area Retreat. Berkeley, CA. May 8, 2019.

Knudsen, EB. Orbitofrontal cortex synchronizes with hippocampus to enable reward-based learning. UC Berkeley Neuroscience Retreat. Richmond, CA. October 6, 2018.

Knudsen, EB. OFC-hippocampal interactions underlying reinforcement learning. Behavioral and Systems Neuroscience Area Retreat. Berkeley, CA. May 3, 2018.

Knudsen, EB. Orbitofrontal Theta and Reinforcement Learning. Center for Neural Engineering and Prostheses Annual Retreat. Berkeley, CA. December 7, 2017.

Knudsen, EB. Characterizing Subjective Value Learning in OFC. Behavioral and Systems Neuroscience Area Retreat. Berkeley, CA. May 3, 2017.

Knudsen, EB. OmniPlex Speaker at the 7th Annual Plexon Neurophysiology and Behavior Workshop. Dallas, TX, April 11-14, 2016.

Knudsen, EB, and Wallis, JD (2019). A value map in primate hippocampus during reward-based learning. Society for Neuroscience, Chicago. SfN No. 084.12.

Knudsen, EB, and Wallis, JD (2019). Closed-loop theta stimulation in orbitofrontal cortex prevents reinforcement learning. RLDM, Montreal, QB. Poster 80.

Knudsen, EB, and Wallis, JD (2018). Orbitofrontal-hippocampal interactions underlying reinforcement learning. Society for Neuroscience, San Diego. SfN No. 325.12.

Knudsen, EB, and Wallis, JD (2017). Orbitofrontal theta critical for reinforcement learning in non-human primates. Society for Neuroscience, Washington D.C. SfN No. 205.06.

Knudsen, EB, and Wallis, JD (2016).  Biasing decision-making through stimulus-outcome specific microstimulation of orbitofrontal cortex. Society for Neuroscience, San Diego. SfN No. 354.22.

Knudsen, EB, and Wallis, JD (2014). Modifying subjective value using intracortical microstimulation: a reinforcement learning approach. DARPA SUBNETs Event 2014, Washington D.C.

Knudsen, EB, Powers, ME, and Moxon, KA (2013). BMI control of the hindlimb after complete spinal transection: the encoding of movement-related temporal intervals. Society for Neuroscience, San Diego. SfN No. 374.17.2013. 

Ganzer, PD, Moxon, KA, Knudsen, EB, and Shumsky, JS (2012). 5-HT pharmacotherapy promotes cortical reorganization that is correlated to improvements in behavioral outcome after spinal cord injury. Society for Neuroscience, New Orleans. SfN No. 787.09.

Knudsen, EB, Flint RD, and Moxon KA (2012). Effect of behavioral training on the encoding of temporal intervals in the rat hindlimb sensorimotor cortex. Society for Neuroscience, New Orleans, SfN No. 809.07.

Knudsen, EB, Moxon, KA, Dugan, EA, Flint RD, Shumsky JS (2009). Combined rehabilitative therapies following spinal cord injury induce cortical reorganization. Society for Neuroscience, Chicago. SfN No. 657.8.