SLIDE 1
Spasticity, A. (2017). A potential new treatment for - - PowerPoint PPT Presentation
Spasticity, A. (2017). A potential new treatment for - - PowerPoint PPT Presentation
Spasticity, A. (2017). A potential new treatment for spasticity . [online] Multiple-sclerosis-research.blogspot.com. Available at: http://multiple-sclerosis-research.blogspot.com/2017/07/a-po
SLIDE 2
SLIDE 3
- ➢
SLIDE 4
SLIDE 5
- Spasticity, A. (2017). A potential new treatment for spasticity.
[online] Multiple-sclerosis-research.blogspot.com. Available at: http://multiple-sclerosis-research.blogspot.com/2017/07/a-po tential-new-treatment-for-spasticity.html
Spasticity, A. (2017). A potential new treatment for spasticity. [online] Multiple-sclerosis-research.blogspot.com.
SLIDE 6
SLIDE 7
SLIDE 8
≤ ≤
SLIDE 9
SLIDE 10
Ausborn, J., Snyder, A., Shevtsova, N., Rybak, I. and Rubin, J. (2017). State-Dependent Rhythmogenesis and Frequency Control in a Half-Center Locomotor CPG. Journal of Neurophysiology, pp.jn.00550.2017.
SLIDE 11
SLIDE 12
SLIDE 13
SLIDE 14
SLIDE 15
SLIDE 16
SLIDE 17
SLIDE 18
SLIDE 19
SLIDE 20
SLIDE 21
SLIDE 22
SLIDE 23
Reference:
SLIDE 24
SLIDE 25
- Ausborn, J., Snyder, A., Shevtsova, N., Rybak, I. and Rubin, J. (2017). State-Dependent
Rhythmogenesis and Frequency Control in a Half-Center Locomotor CPG. Journal of Neurophysiology, pp.jn.00550.2017.
- Spasticity, A. (2017). A potential new treatment for spasticity. [online]
Multiple-sclerosis-research.blogspot.com.
- Rybak, I., Shevtsova, N., Lafreniere-Roula, M. and McCrea, D. (2006). Modelling spinal
circuitry involved in locomotor pattern generation: insights from deletions during fictive
- locomotion. The Journal of Physiology, 577(2), pp.617-639.
- Rybak, I., Dougherty, K. and Shevtsova, N. (2015). Organization of the Mammalian