All Stories

  1. Phase-Dependent Response to Afferent Stimulation During Fictive Locomotion: A Computational Modeling Study
  2. Spinal V3 Interneurons and Left–Right Coordination in Mammalian Locomotion
  3. Transcutaneous Spinal Cord Stimulation Induces Temporary Attenuation of Spasticity in Individuals with Spinal Cord Injury
  4. Spinal V3 interneurons and left-right coordination in mammalian locomotion
  5. Computational modeling of brainstem circuits controlling locomotor frequency and gait
  6. Intralimb and Interlimb Cutaneous Reflexes during Locomotion in the Intact Cat
  7. Computational modeling of spinal circuits controlling limb coordination and gaits in quadrupeds
  8. Central control of interlimb coordination and speed-dependent gait expression in quadrupeds
  9. Dr. Simon M. Danner - MedUni Wien RESEARCHER OF THE MONTH, März 2015
  10. Body Position Influences Which Neural Structures Are Recruited by Lumbar Transcutaneous Spinal Cord Stimulation
  11. Augmentation of Voluntary Locomotor Activity by Transcutaneous Spinal Cord Stimulation in Motor-Incomplete Spinal Cord-Injured Individuals
  12. Multi-Electrode Array for Transcutaneous Lumbar Posterior Root Stimulation
  13. Neurocontrol of Movement in Humans With Spinal Cord Injury
  14. Spinal Rhythm Generation by Step-Induced Feedback and Transcutaneous Posterior Root Stimulation in Complete Spinal Cord–Injured Individuals
  15. Periodic modulation of repetitively elicited monosynaptic reflexes of the human lumbosacral spinal cord
  16. Human spinal locomotor control is based on flexibly organized burst generators
  17. Paraspinal Magnetic and Transcutaneous Electrical Stimulation
  18. Finite Element Models of Transcutaneous Spinal Cord Stimulation
  19. Finite Element Modeling for Extracellular Stimulation
  20. Correction: Energy-Optimal Electrical-Stimulation Pulses Shaped by the Least-Action Principle
  21. Peak I of the human auditory brainstem response results from the somatic regions of type I spiral ganglion cells: Evidence from computer modeling
  22. Energy-Optimal Electrical-Stimulation Pulses Shaped by the Least-Action Principle
  23. Design of a Multi-site Electrical Stimulation System for Transcutaneous Lumbar Posterior Roots Stimulation
  24. Potential Distribution and Nerve Fiber Responses in Transcutaneous Lumbosacral Spinal Cord Stimulation
  25. Finite Element Modeling for Extracellular Stimulation
  26. Finite Element Models of Transcutaneous Spinal Cord Stimulation
  27. Paraspinal Magnetic and Transcutaneous Electrical Stimulation
  28. Paraspinal Magnetic and Transcutaneous Electrical Stimulation
  29. Effects of transcutaneous spinal cord stimulation on voluntary locomotor activity in an incomplete spinal cord injured individual
  30. Mechanisms of rhythm generation of the human lumbar spinal cord in response to tonic stimulation without and with step-related sensory feedback
  31. Pattern Generating Networks in the Human Lumbar Spinal Cord: Electrophysiology and Computer Modeling
  32. Selectivity of transcutaneous stimulation of lumbar posterior roots at different spinal levels in humans
  33. Health-related and legal interventions: A comparison of allegedly delinquent and convicted opioid addicts in Austria
  34. Effect of Functional Electrical Stimulation on the Central State of Excitability of the Spinal Cord
  35. Finite Element Modeling for Extracellular Stimulation
  36. Paraspinal Magnetic and Transcutaneous Electrical Stimulation
  37. Non-invasive transcutaneous stimulation of the human lumbar spinal cord facilitates locomotor output in spinal cord injury
  38. Can the Human Lumbar Posterior Columns Be Stimulated by Transcutaneous Spinal Cord Stimulation? A Modeling Study