Abstract     Description     Claims     Drawing  

EP2868343A1   [0005] 
WO2002034331A2   [0006] 
EP3184145A1   [0007] 
EP2652676A1   [0008] 
US8326569B   [0008] 
US7742037B   [0008] 
WO2007047852A2   [0009] 
WO2017062508A1   [0010] 
WO20160279418A1   [0051] 

Modular organization of motor behavior in the frog's spinal cord   [0002] 
Identification of a cellular node for motor control pathways   [0002] 
Restoring Voluntary Control of Locomotion after Paralyzing Spinal Cord Injury   [0004] 
Altering spinal cord excitability enables voluntary movements after chronic complete paralysis in humans   [0004] 
Effect of epidural stimulation of the lumbosacral spinal cord on voluntary movement, standing, and assisted stepping after motor complete paraplegia: a case study   [0004] 
Human spinal locomotor control is based on flexibly organized burst generators   [0004] 
Transformation of nonfunctional spinal circuits into functional states after the loss of brain input   [0004] 
A brain-spine interface alleviating gait deficits after spinal cord injury in primates   [0004] 
Closed-loop neuromodulation of spinal sensorimotor circuits controls refined locomotion after complete spinal cord injury   [0005] 
A Computational Model for Epidural Electrical Stimulation of Spinal Sensorimotor Circuits   [0022] 
Transformation of nonfunctional spinal circuits into functional states after the loss of brain input   [0022] 
Mechanisms Underlying the Neuromodulation of Spinal Circuits for Correcting Gait and Balance Deficits after Spinal Cord Injury   [0022] 
Electrical Stimulation of excitable tissue: design of efficacious and safe protocols   [0095] 
Parameters of Spinal Cord Stimulation and Their Role in Electrical Charge Delivery: A Review   [0098]  [0098]