Modification of reflexes in normal and abnormal movements.

The trajectories observed for the limb during human locomotion are determined by a mixture of influences, some arising from neural circuits entirely within the central nervous system and others arising from a variety of sensory receptors. Muscle reflexes are highly modulated during locomotion in an adaptive manner within each phase of the step cycle. Furthermore, the modulation can be modified quickly for different tasks such as standing, walking and running, probably by changes in presynaptic inhibition. This modulation is often lost or severely reduced in patients with spasticity after spinal cord or head injury. In normal subjects cutaneous reflexes can be completely reversed from exciting to inhibiting a muscle during each step cycle, particularly in muscles that normally show two bursts of activity per cycle (e.g., tibialis anterior). In some patients stimulation of a mixed nerve (e.g., common peroneal) can directly produce muscle contraction, generate a reflex response (flexor reflex) and transiently reduce spasticity in antagonist (extensor) muscles. Thus, simple systems employing stimulation can enhance gait to a certain extent in patients with incomplete injuries.