Effects of ankle extensor muscle afferent inputs on hip abductor and adductor activity in the decerebrate walking cat.
@article{Bolton2012EffectsOA,
title={Effects of ankle extensor muscle afferent inputs on hip abductor and adductor activity in the decerebrate walking cat.},
author={David A E Bolton and John E Misiaszek},
journal={Journal of neurophysiology},
year={2012},
volume={108 11},
pages={
3034-42
}
}Electrical stimulation of the lateral gastrocnemius-soleus (LGS) nerve at group I afferent strength leads to adaptations in the amplitude and timing of extensor muscle activity during walking in the decerebrate cat. Such afferent feedback in the stance leg might result from a delay in stance onset of the opposite leg. Concomitant adaptations in hip abductor and adductor activity would then be expected to maintain lateral stability and balance until the opposite leg is able to support the body…
3 Citations
Body stability and muscle and motor cortex activity during walking with wide stance.
- Biology, PsychologyJournal of neurophysiology
- 2014
It is found for the first time that during unconstrained walking the cat is dynamically unstable in the forward direction during stride phases when only two diagonal limbs support the body.
Muscle Spindles and Locomotor Control-An Unrecognized Falls Determinant?
- Biology
- 2015
Evidence supports a key role for muscle spindles in the control of human locomotion, and by analogy to falls related injuries.
The role of the cerebral cortex in postural responses to externally induced perturbations
- Biology, PsychologyNeuroscience & Biobehavioral Reviews
- 2015
References
SHOWING 1-10 OF 35 REFERENCES
Ankle extensor group I afferents excite extensors throughout the hindlimb during fictive locomotion in the cat.
- BiologyThe Journal of physiology
- 1995
It is argued that both muscle spindle and tendon organ afferents can contribute to the increase in extensor nerve activity evoked by group I stimulation intensity during fictive locomotion.
Effects of ankle and hip muscle afferent inputs on rhythm generation during fictive locomotion.
- BiologyJournal of neurophysiology
- 2010
The most consistent effect was reduced flexion phase duration with stimulation during flexion, particularly at group II strength, and prolongation of the extension phase but only in late extension, suggesting that the rhythm generator operates with several subdivision to determine phase and cycle durations.
Enhancement and Resetting of Locomotor Activity by Muscle Afferentsa
- BiologyAnnals of the New York Academy of Sciences
- 1998
The involvement of the proprioceptive signals in the generation of locomotor activity means that the gains in reflex pathways must be constantly calibrated according to the biomechanical properties of the locomotor system.
Sartorius muscle afferents influence the amplitude and timing of flexor activity in walking decerebrate cats
- Biology, PsychologyExperimental Brain Research
- 2002
Results support an earlier speculation that feedback from large afferents from the sartorius muscles has a strong influence on the generation of flexor burst activity in walking cats.
An electromyographic analysis of muscular activity in the hindlimb of the cat during unrestrained locomotion.
- Biology, PsychologyActa physiologica Scandinavica
- 1969
During walking in unrestrained cats the electromyographic activity in many hindlimb muscles has been correlated with the angular movement in the hip, knee and ankle joints and it is assumed that the basic activity is a centrally programmed alternating activation of extensors and flexors.
Stumbling corrective reaction during fictive locomotion in the cat.
- BiologyJournal of neurophysiology
- 2005
The fictive stumbling corrective reflex seems functionally similar to that evoked in intact, awake animals and involves a fixed pattern of short-latency reflexes as well as actions evoked through the lumbar circuitry responsible for the generation of rhythmic alternating locomotion.
Stimulation of the group I extensor afferents prolongs the stance phase in walking cats
- BiologyExperimental Brain Research
- 2004
The results add support to the hypothesis that unloading of the hindlimb during late stance is a necessary condition for the initiation of the swing phase in walking animals.
The role of proprioceptive feedback in the regulation and adaptation of locomotor activity.
- Biology, PsychologyAdvances in experimental medicine and biology
- 2002
The role of afferent feedback in adapting locomotor activity to transient and more sustained changes in sensory input in reduced and walking cat preparations is reviewed.
Functionally complex muscles of the cat hindlimb
- BiologyExperimental Brain Research
- 2004
Different regions of the biceps femoris muscle were activated independently during responses to postural perturbations, and the functional units of BF activation were not identical with the neuromuscular compartments defined by the main nerve branches.
Mechanical entrainment of fictive locomotion in the decerebrate cat.
- Biology, EngineeringJournal of neurophysiology
- 1994
Results are consistent with a positive feedback mechanism where low-threshold afferent activity from the extensor musculature is used by the rhythm generator to prolong the extension phase of locomotion.