RESPONSE PROFILES OF HUMAN MUSCLE: AFFERENTS DURING ACTIVE FINGER MOVEMENTS

doi:10.1093/brain/113.2.325

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Brain, Vol. 113, No. 2, 325-346, 1990
© 1990 Oxford University Press

research-article

RESPONSE PROFILES OF HUMAN MUSCLE: AFFERENTS DURING ACTIVE FINGER MOVEMENTS

NAJEM A. AL-FALAHE¹, MASANORI NAGAOKA¹^,* and AKE B. VALLBO²^,

¹Department of physiology, Universities of Umeå Sweden ²Department of physiology Universities of Göteborg Sweden

Correspondence to: Correspondence to: Professor Ake B. Vallbo, Department of Physiology, University of Göteborg, Box 33031, S-400 33 Göteborg, Sweden.

Twenty-five human muscle afferents from the extensor digitorummuscles of the forearm were studied with the microneurographicmethod. Single unit impulses were recorded while the subjectsperformed alternating movements of moderate speed at the appropriatemetacarpophalangeal joint. For comparison, responses to imposedmovements of similar amplitudes and velocities were also studied.

Most spindle afferents (n = 17) provided a stretch responsewith both kinds of movement. However, the impulse rate was slightlyhigher and the interspike interval variability much larger duringactive movement. Two units provided deviating response profiles:a flat profile and a converse stretch response. Small and constanttorque loads usually failed to modify the response profile butgave rise to a moderate increase of impulse rate in 50% of thespindle afferents. In one single unit, a converse stretch responseappeared with opposing loads.

Tendon organ afferents (n = 8) were totally unmodulated by imposedstretch in the relaxed muscle. In constant, their impulse ratewas highly modulated during active movements, often followingthe rectified EMG which resulted in a converse relationshipto muscle length and velocity.

The findings support the view that, in general, human musclespindles monitor muscle length and velocity in routine movementsof moderate speed as long as opposing loads are small, whereasGolgi tendon organs monitor the amount of muscle recruitment.The significance of the deviating response profiles from spindleafferents remains obscure.

Received January 25, 1989. Revised April 21, 1989. Accepted June 16, 1989.

^*Present address: Department of Neurology, Juntendo University,School of Medicine, 2-1-1, Hongo, Bunkyo-ku, Tokyo 113, Japan.

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