Static and dynamic γ-motor output to ankle flexor muscles during locomotion in the decerebrate cat

Taylor, Anthony, Durbaba, Rade, Ellaway, Peter and Rawlinson, Steve R. (2006) Static and dynamic γ-motor output to ankle flexor muscles during locomotion in the decerebrate cat. Journal of Physiology, 571 (3). pp. 711-723. ISSN 0022-3751

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Official URL: http://dx.doi.org/10.1113/jphysiol.2005.101634

Abstract

In locomotion, the flexor muscles of the leg are mainly concerned with the relatively constant task of raising the foot, whereas the extensors have the more variable task of support and propulsion at different speeds. This suggests that the way in which the fusimotor system works may differ between the two muscle groups. Observations previously made of the static and dynamic γ-motor firing patterns in the ankle extensor medial gastrocnemius (MG) have therefore been repeated in the flexor tibialis anterior (TA). One or more single γ-motor axons, dissected from a small filament of TA nerve, were recorded simultaneously with a number of single spindle afferents in dorsal rootlets. Cats were decerebrated and locomoted spontaneously on a treadmill. Identification of each γ-motor axon depended on relating the changes in firing caused by midbrain stimulation to the changes in static and dynamic behaviour of the spindle afferents in response to repetitive ramp and hold stretches. Static γ axons all showed a smooth modulation in frequency, increasing in phase with muscle shortening, superimposed on a minimum frequency of about 20–30 impulses s−1. Dynamic γ axons showed interrupted firing with the frequency rising abruptly from zero at the onset of shortening, and falling again to zero shortly after the onset of lengthening. The frequency during the active periods was relatively constant, even when movement amplitudes varied. The basic similarity in the static and dynamic gamma discharge patterns for the two muscles suggests that the strategy of γ-motor control is common to both flexors and extensors. The static γ pattern is thought to be a ‘temporal template’ of the expected movement, effectively expanding the dynamic response range of the spindles in active movements. The dynamic γ pattern sensitizes the primary afferents to detect the onset of muscle lengthening and to detect departures from the intended movement trajectory.

Item Type: Article
Subjects: B100 Anatomy, Physiology and Pathology
Department: Faculties > Health and Life Sciences > School of Life Sciences > Applied Sciences
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Depositing User: EPrint Services
Date Deposited: 22 Dec 2008 10:28
Last Modified: 15 Mar 2016 10:55
URI: http://nrl.northumbria.ac.uk/id/eprint/2570

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