Kurt Thoroughman
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| Kurt A. Thoroughman | |
| Born | January 31, 1972 Kalamazoo, MI |
|---|---|
| Residence | United States |
| Nationality |  American |
| Fields | Computational Neuroscience, Motor Control |
| Institutions | Washington University Brandeis University Johns Hopkins University University of Chicago |
| Alma mater | University of Chicago |
| Known for | Trial-by-Trial Approach to Motor Learning |
Kurt A. Thoroughman (born 31 January 1972) is an Assistant Professor in the Department of Biomedical Engineering at Washington University in St. Louis. He is known for his work in the study of motor control, motor learning, and computational neuroscience.
Thoroughman investigates how humans plan, control, and learn new movements. Understanding normal motor behavior and its neural basis will further the development of insightful clinical tests in movement neurology, and facilitate the early detection and treatment of motor diseases.
Thoroughman graduated with a PhD in Biomedical Engineering from Johns Hopkins University in 1999. After completion of his PhD, Thoroughman worked in a two year postdoctoral position with Eve Marder at Brandeis University.
[edit] Selected publications
Fine MS, Thoroughman KA (2007). "The trial-by-trial transformation of error into sensorimotor adaptation changes with environmental dynamics". Journal of Neurophysiology 98: 1392–1404. doi:.
Thoroughman KA, Wang W, Tomov DN (2007). "The influence of viscous loads on motor planning". Journal of Neurophysiology 98: 870–877. doi:.
Taylor JA, Thoroughman KA (2007). "Divided attention impairs human motor adaptation but not feedback control". Journal of Neurophysiology 98: 317–326. doi:.
Fine MS, Thoroughman KA (2006). "The trial-by-trial transformation of error into sensorimotor adaptation changes with environmental dynamics". Journal of Neurophysiology 96: 710–20.
Thoroughman KA, Taylor JA (2005). "Rapid reshaping of human motor generalization". Journal of Neuroscience 25 (39): 8948–53. doi:.
Thoroughman KA (2004). "Flexible control of flexible objects. Focus on "An experimentally confirmed mathematical model for human control of a non-rigid object". Journal of Neurophysiology 91 (3): 1109–10. doi:.
Soto-Treviño C, Thoroughman KA, Marder E & Abbott LF (2001). "Activity-dependent modification of inhibitory synapses in models of rhythmic neural networks". Nature Neuroscience 4: 297–303. doi:.
Thoroughman KA, Shadmehr R (2000). "Learning of action through adaptive combination of motor primitives". Nature 407: 742–747. doi:.
Thoroughman KA, Shadmehr R (1999). "Electromyographic correlates of learning an internal model of reaching movements". Journal of Neuroscience 19: 8573–8588.
[edit] External links
- Laboratory of Neural Computation and Motor Behavior
- Washington University Biomedical Engineering Website
- Biomedical engineer shows how people learn motor skills
- Researchers find new learning strategy: A size of a mistake makes no difference
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