Primary motor cortex underlies multi-joint integration for fast feedback control JA Pruszynski, I Kurtzer, JY Nashed, M Omrani, B Brouwer, SH Scott Nature 478 (7369), 387-390, 2011 | 337 | 2011 |
Long-latency reflexes of the human arm reflect an internal model of limb dynamics IL Kurtzer, JA Pruszynski, SH Scott Current Biology 18 (6), 449-453, 2008 | 271 | 2008 |
Rapid motor responses are appropriately tuned to the metrics of a visuospatial task JA Pruszynski, I Kurtzer, SH Scott Journal of neurophysiology 100 (1), 224-238, 2008 | 236 | 2008 |
Random change in cortical load representation suggests distinct control of posture and movement I Kurtzer, TM Herter, SH Scott Nature neuroscience 8 (4), 498-504, 2005 | 234 | 2005 |
Limited transfer of learning between unimanual and bimanual skills within the same limb D Nozaki, I Kurtzer, SH Scott Nature neuroscience 9 (11), 1364-1366, 2006 | 218 | 2006 |
Control of position and movement is simplified by combined muscle spindle and Golgi tendon organ feedback DA Kistemaker, AJK Van Soest, JD Wong, I Kurtzer, PL Gribble Journal of neurophysiology 109 (4), 1126-1139, 2013 | 135 | 2013 |
The long-latency reflex is composed of at least two functionally independent processes JA Pruszynski, I Kurtzer, SH Scott Journal of neurophysiology 106 (1), 449-459, 2011 | 133 | 2011 |
Temporal evolution of “automatic gain-scaling” JA Pruszynski, I Kurtzer, TP Lillicrap, SH Scott Journal of neurophysiology 102 (2), 992-1003, 2009 | 128 | 2009 |
Primate upper limb muscles exhibit activity patterns that differ from their anatomical action during a postural task I Kurtzer, JA Pruszynski, TM Herter, SH Scott Journal of Neurophysiology 95 (1), 493-504, 2006 | 94 | 2006 |
Long-latency reflexes account for limb biomechanics through several supraspinal pathways IL Kurtzer Frontiers in integrative neuroscience 8, 99, 2015 | 85 | 2015 |
Long-latency responses during reaching account for the mechanical interaction between the shoulder and elbow joints I Kurtzer, JA Pruszynski, SH Scott Journal of neurophysiology 102 (5), 3004-3015, 2009 | 83 | 2009 |
Feedback responses rapidly scale with the urgency to correct for external perturbations F Crevecoeur, I Kurtzer, T Bourke, SH Scott Journal of Neurophysiology 110 (6), 1323-1332, 2013 | 69 | 2013 |
Fast corrective responses are evoked by perturbations approaching the natural variability of posture and movement tasks F Crevecoeur, I Kurtzer, SH Scott Journal of neurophysiology 107 (10), 2821-2832, 2012 | 57 | 2012 |
Characterization of torque-related activity in primary motor cortex during a multijoint postural task TM Herter, I Kurtzer, DW Cabel, KA Haunts, SH Scott Journal of neurophysiology 97 (4), 2887-2899, 2007 | 51 | 2007 |
Nonuniform distribution of reach-related and torque-related activity in upper arm muscles and neurons of primary motor cortex I Kurtzer, TM Herter, SH Scott Journal of neurophysiology 96 (6), 3220-3230, 2006 | 49 | 2006 |
Fast feedback control involves two independent processes utilizing knowledge of limb dynamics I Kurtzer, F Crevecoeur, SH Scott Journal of neurophysiology 111 (8), 1631-1645, 2014 | 42 | 2014 |
Cerebellar damage diminishes long-latency responses to multijoint perturbations I Kurtzer, P Trautman, RJ Rasquinha, NH Bhanpuri, SH Scott, AJ Bastian Journal of neurophysiology 109 (8), 2228-2241, 2013 | 38 | 2013 |
Long-latency and voluntary responses to an arm displacement can be rapidly attenuated by perturbation offset I Kurtzer, JA Pruszynski, SH Scott Journal of neurophysiology 103 (6), 3195-3204, 2010 | 38 | 2010 |
Adaptation to a novel multi-force environment I Kurtzer, PA DiZio, JR Lackner Experimental brain research 164, 120-132, 2005 | 37 | 2005 |
Long-latency reflexes for inter-effector coordination reflect a continuous state feedback controller F Crevecoeur, I Kurtzer Journal of neurophysiology 120 (5), 2466-2483, 2018 | 36 | 2018 |