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The Journal of Neurophysiology Vol. 81 No. 2 February 1999, pp. 467-478
Copyright ©1999 by the American Physiological Society
Department of Physiology, Emory University, Atlanta, Georgia 30322
Receptor mechanisms underlying heterogenic reflexes among the triceps
surae muscles of the cat. The soleus (S), medial gastrocnemius (MG), and lateral gastrocnemius (LG) muscles of the cat are interlinked by rapid spinal reflex pathways. In the decerebrate state, these heterogenic reflexes are either excitatory and length dependent or
inhibitory and force dependent. Mechanographic analysis was used to
obtain additional evidence that the muscle spindle primary ending and
the Golgi tendon organ provide the major contributions to these
reflexes, respectively. The tendons of the triceps surae muscles were
separated and connected to independent force transducers and
servo-controlled torque motors in unanesthetized, decerebrate cats. The
muscles were activated as a group using crossed-extension reflexes.
Electrical stimulation of the caudal cutaneous sural nerve was used to
provide a particularly strong activation of MG and decouple the forces
of the triceps surae muscles. During either form of activation, the
muscles were stretched either individually or in various combinations
to determine the strength and characteristics of autogenic and
heterogenic feedback. The corresponding force responses, including both
active and passive components, were measured during the changing
background tension. During activation of the entire group, the
excitatory, heterogenic feedback linking the three muscles was found to
be strongest onto LG and weakest onto MG, in agreement with previous
results concerning the strengths of heteronymous Ia excitatory
postsynaptic potentials among the triceps surae muscles. The
inhibition, which is known to affect only the soleus muscle, was
dependent on active contractile force and was detected
essentially as rapidly as length dependent excitation. The inhibition
outlasted the excitation and was blocked by intravenous strychnine.
These results indicate that the excitatory and inhibitory effects are
dominated by feedback from primary spindle receptors and Golgi tendon
organs. The interactions between these two feedback pathways
potentially can influence both the mechanical coupling between ankle
and knee.
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