Selected Publications:
Neckel ND, Dai H, Hanckel J, Lee Y, Albanese C, Rodriguez O. (2021). Skilled reach training enhances robotic gait training to restore overground locomotion following spinal cord injury in rats. Behavioural Brain Res. Sept 24;414(113490).
Neckel ND, Dai H. (2021). Viscous field training induces after effects but hinders recovery of overground locomotion following spinal cord injury in rats. Behavioural Brain Res. Aug 27;412(113415).
Neckel ND. (2017). Novel spatiotemporal analysis of gait changes in body weight supported treadmill trained rats following cervical spinal cord injury. J Neuroeng Rehabil. Sep 13;14(1):96.
Neckel ND, Dai H, Rodriguez OC. (2017). Addition of forelimb training reduces gains from robotic gait training in a rat model of spinal cord injury. IEEE Int Conf Rehabil Robot. Jul;2017:346-351.
Neckel, N. D. (2015). Methods to quantify the velocity dependence of common gait measurements from automated rodent gait analysis devices. Journal of Neuroscience Methods, 253(1), 244-53.
Neckel, N. D., Dai, H., & Bregman, B. S. (2013). Quantifying changes following spinal cord injury with velocity dependent locomotor measures. Journal of Neuroscience Methods, 214(1), 27-36.
Patents:
Conference Posters:
2017 Society for Neuroscience Annual Meeting
Gains from Robotic Gait Training are Enhanced with the Addition of Skilled Forelimb Training in a Rat Model of Spinal Cord Injury
2017 International Conference on Rehabilitation Robotics
2015 International Symposium on Neural Regeneration
2013 International Symposium on Neural Regeneration
Novel Robotic Gait Training Patterns Enhance Recovery of Overground Locomotion Following SCI in Rats
2011 International Symposium on Neural Regeneration
Publicly Available Data:
CatWalk and RRMPS data from ALL of our studies
