Gelsy Torres-Oviedo, PhD

Affiliations: 
Bioengineering University of Pittsburgh, Pittsburgh, PA, United States 
Area:
Motor adaptation, locomotion, balance control, motor control
Website:
http://www.engineering.pitt.edu/ProfessionalProfile.aspx?id=2147494122
Google:
"Gelsy Torres-Oviedo"
Mean distance: 15.44 (cluster 22)
 
SNBCP

Parents

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Lena H. Ting grad student 2007 Georgia Tech
 (Robust muscle synergies for postural control.)
Amy Jo Bastian post-doc 2007- Johns Hopkins
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Publications

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Mariscal DM, Vasudevan EV, Malone LA, et al. (2022) Context-specificity of locomotor learning is developed during childhood. Eneuro
Nguyen TM, Jackson RW, Aucie Y, et al. (2020) Self-selected step length asymmetry is not explained by energy cost minimization in individuals with chronic stroke. Journal of Neuroengineering and Rehabilitation. 17: 119
Sombric CJ, Torres-Oviedo G. (2020) Augmenting propulsion demands during split-belt walking increases locomotor adaptation of asymmetric step lengths. Journal of Neuroengineering and Rehabilitation. 17: 69
Mariscal DM, Iturralde PA, Torres-Oviedo G. (2020) Altering attention to split-belt walking increases the generalization of motor memories across walking contexts. Journal of Neurophysiology
Aucie Y, Zhang X, Sargent R, et al. (2020) Motorized Shoes Induce Robust Sensorimotor Adaptation in Walking. Frontiers in Neuroscience. 14: 174
de Kam D, Iturralde PA, Torres-Oviedo G. (2020) Cerebral Contribution to the Execution, But Not Recalibration, of Motor Commands in a Novel Walking Environment. Eneuro. 7
Sombric C, Gonzalez-Rubio M, Torres-Oviedo G. (2019) Split-Belt walking induces changes in active, but not passive, perception of step length. Scientific Reports. 9: 16442
Gonzalez-Rubio M, Velasquez NF, Torres-Oviedo G. (2019) Explicit Control of Step Timing During Split-Belt Walking Reveals Interdependent Recalibration of Movements in Space and Time. Frontiers in Human Neuroscience. 13: 207
Iturralde PA, Torres-Oviedo G. (2019) Corrective Muscle Activity Reveals Subject-Specific Sensorimotor Recalibration. Eneuro. 6
Sombric CJ, Calvert JS, Torres-Oviedo G. (2019) Large Propulsion Demands Increase Locomotor Adaptation at the Expense of Step Length Symmetry. Frontiers in Physiology. 10: 60
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