| Learning to control a brain–machine interface for reaching and grasping by primates JM Carmena, MA Lebedev, RE Crist, JE O'Doherty, DM Santucci, ... PLoS biology 1 (2), e42, 2003 | 2325 | 2003 |
| Wearable robots: biomechatronic exoskeletons JL Pons John Wiley & Sons, 2008 | 985 | 2008 |
| Chronic, multisite, multielectrode recordings in macaque monkeys MAL Nicolelis, D Dimitrov, JM Carmena, R Crist, G Lehew, JD Kralik, ... Proceedings of the National Academy of Sciences 100 (19), 11041-11046, 2003 | 979 | 2003 |
| Emergence of a stable cortical map for neuroprosthetic control K Ganguly, JM Carmena PLoS biology 7 (7), e1000153, 2009 | 652 | 2009 |
| Wireless recording in the peripheral nervous system with ultrasonic neural dust D Seo, RM Neely, K Shen, U Singhal, E Alon, JM Rabaey, JM Carmena, ... Neuron 91 (3), 529-539, 2016 | 586 | 2016 |
| Four ethical priorities for neurotechnologies and AI R Yuste, S Goering, BA Arcas, G Bi, JM Carmena, A Carter, JJ Fins, ... Nature 551 (7679), 159-163, 2017 | 524 | 2017 |
| Corticostriatal plasticity is necessary for learning intentional neuroprosthetic skills AC Koralek, X Jin, JD Long II, RM Costa, JM Carmena Nature 483 (7389), 331-335, 2012 | 436 | 2012 |
| A minimally invasive 64-channel wireless μECoG implant R Muller, HP Le, W Li, P Ledochowitsch, S Gambini, T Bjorninen, ... IEEE Journal of Solid-State Circuits 50 (1), 344-359, 2014 | 411 | 2014 |
| Cortical ensemble adaptation to represent velocity of an artificial actuator controlled by a brain-machine interface MA Lebedev, JM Carmena, JE O'Doherty, M Zacksenhouse, ... Journal of Neuroscience 25 (19), 4681-4693, 2005 | 407 | 2005 |
| Oscillatory phase coupling coordinates anatomically dispersed functional cell assemblies RT Canolty, K Ganguly, SW Kennerley, CF Cadieu, K Koepsell, JD Wallis, ... Proceedings of the National Academy of Sciences 107 (40), 17356-17361, 2010 | 358 | 2010 |
| A wireless millimetre-scale implantable neural stimulator with ultrasonically powered bidirectional communication DK Piech, BC Johnson, K Shen, MM Ghanbari, KY Li, RM Neely, JE Kay, ... Nature biomedical engineering 4 (2), 207-222, 2020 | 351 | 2020 |
| In vitro and in vivo evaluation of PEDOT microelectrodes for neural stimulation and recording S Venkatraman, J Hendricks, ZA King, AJ Sereno, S Richardson-Burns, ... IEEE Transactions on Neural Systems and Rehabilitation Engineering 19 (3 …, 2011 | 344 | 2011 |
| Microstimulation activates a handful of muscle synergies SA Overduin, A d’Avella, JM Carmena, E Bizzi Neuron 76 (6), 1071-1077, 2012 | 325 | 2012 |
| Physical principles for scalable neural recording AH Marblestone, BM Zamft, YG Maguire, MG Shapiro, TR Cybulski, ... Frontiers in computational neuroscience 7, 137, 2013 | 309 | 2013 |
| Reversible large-scale modification of cortical networks during neuroprosthetic control K Ganguly, DF Dimitrov, JD Wallis, JM Carmena Nature neuroscience 14 (5), 662-667, 2011 | 306 | 2011 |
| Closed-loop decoder adaptation shapes neural plasticity for skillful neuroprosthetic control AL Orsborn, HG Moorman, SA Overduin, MM Shanechi, DF Dimitrov, ... Neuron 82 (6), 1380-1393, 2014 | 279 | 2014 |
| Neural dust: An ultrasonic, low power solution for chronic brain-machine interfaces D Seo, JM Carmena, JM Rabaey, E Alon, MM Maharbiz arXiv preprint arXiv:1307.2196, 2013 | 247 | 2013 |
| A Fully-Integrated, Miniaturized (0.125 mm²) 10.5 µW Wireless Neural Sensor W Biederman, DJ Yeager, N Narevsky, AC Koralek, JM Carmena, E Alon, ... IEEE Journal of Solid-State Circuits 48 (4), 960-970, 2013 | 223 | 2013 |
| A wireless and artefact-free 128-channel neuromodulation device for closed-loop stimulation and recording in non-human primates A Zhou, SR Santacruz, BC Johnson, G Alexandrov, A Moin, FL Burghardt, ... Nature biomedical engineering 3 (1), 15-26, 2019 | 219 | 2019 |
| Model validation of untethered, ultrasonic neural dust motes for cortical recording D Seo, JM Carmena, JM Rabaey, MM Maharbiz, E Alon Journal of neuroscience methods 244, 114-122, 2015 | 203 | 2015 |
