Control of torque direction by spinal pathways at the cat ankle joint

Autor: Stephen J. Bonasera, Lawrence Jh rd, T. R. Nichols
Rok vydání: 1993
Předmět:
Zdroj: Experimental Brain Research. 97:366-371
ISSN: 1432-1106
0014-4819
DOI: 10.1007/bf00228708
Popis: To study the biomechanics of the calcaneal ten-don's complex insertion onto the calcaneus, we measured torque-time trajectories exerted by the triceps surae and tibialis anterior muscles in eight unanesthetized decerebrate cats using a multi-axis force-moment sensor placed at the ankle joint. The ankle was constrained to an angle of 110° plantarflexion. Muscles were activated using crossed-extension (XER), flexion (FWR), and caudal cutaneous sural nerve (SNR) reflexes. Torque contributions of other muscles activated by these reflexes were eliminated by denervation or tenotomy. In two animals, minia-ture pressure transducers were implanted among tendon fibers from the lateral gastrocnemius (LG) muscle that insert straight into the calcaneus or among tendon fibers from the medial gastrocnemius (MG) that cross over and insert on the lateral aspect of calcaneus. Reflexively evoked torques had the following directions: FWR, dorsiflexion and adduction; SNR, plantarflexion and abduction; and XER, plantarflexion and modest abduction or adduction. The proportion of abduction torque to plantarflexion torque was always greater for SNR than XER; this difference was about 50% of the magnitude of abduction torque generated by tetanic stimulation of the peronei. During SNR, pressures were higher in regions of the calcaneal tendon originating from MG than regions originating from LG. Similarly, pressures within the MG portion of the calcaneal tendon were higher during SNR than during XER, although these two reflexes produced matched ankle plantarflexion forces. Selective tenotomies and electromyographic recordings further demonstrated that MG generated most of the torque in response to SNR, while soleus, LG, and MG all generated torques in response to XER. Previous studies have shown that interneurons processing afferent information from both XER and SNR differentially excite the MG and LG motoneuron pools. Further, our data demonstrate that forces produced by this differential activation are preserved throughout the calcaneal tendon. We conclude that selective activation of the gastrocnemei permits the animal to take advantage of the complex mechanical insertion of MG and LG at calcaneus and, specifically, to generate different torques at the ankle joint in response to different reflex activations.
Databáze: OpenAIRE
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