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01.06.2019 | Research Article

Spinal reciprocal inhibition in the co-contraction of the lower leg depends on muscle activity ratio

verfasst von: Ryo Hirabayashi, Mutsuaki Edama, Sho Kojima, Wataru Ito, Emi Nakamura, Takanori Kikumoto, Hideaki Onishi

Erschienen in: Experimental Brain Research | Ausgabe 6/2019

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Abstract

The spinal reciprocal inhibition during co-contraction remains unclear. Reports on the reciprocal Ia and D1 inhibitions in the co-contraction are lacking, and a point about the muscle activity amount during co-contraction is unclear. This study aimed to clarify the influence of changes in the ratio of soleus (Sol) and tibialis anterior (TA) muscle activities in co-contraction on reciprocal Ia and D1 inhibitions. Twenty healthy adults were subjected to four stimulatory conditions: a conditioning stimulus–test stimulation interval (CTI) of − 2, 2, or 20 ms or a test stimulus without a conditioning stimulus (single). Co-contraction [change in (Sol)/(TA) activity] was examined at task A, 0%/0% maximal voluntary contraction (MVC); task B, 5%/5% MVC; task C, 15%/15% MVC; task D, 5%/15% MVC; and task E, 15%/5% MVC. At 2-ms CTI, the H-reflex amplitude value was significantly lower in tasks A, B, C, and D than in the single condition. Among the tasks, the H-reflex amplitude values were lower for A, B, C, and D than for E. At 20-ms CTI, the H-reflex amplitude was significantly lower in tasks A, B, C, D, and E. Among the tasks, the H-reflex amplitude was significantly lower from task A and B to task E. The change in the muscle activity ratio during co-contraction could modulate reciprocal Ia inhibition depending on the Sol/TA muscle activity ratio. D1 inhibition at rest did not differ significantly when the Sol/TA ratio was equal or when TA muscle activity was high. During co-contraction with high Sol muscle activity, D1 inhibition decreased from rest.
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Metadaten
Titel
Spinal reciprocal inhibition in the co-contraction of the lower leg depends on muscle activity ratio
verfasst von
Ryo Hirabayashi
Mutsuaki Edama
Sho Kojima
Wataru Ito
Emi Nakamura
Takanori Kikumoto
Hideaki Onishi
Publikationsdatum
01.06.2019
Verlag
Springer Berlin Heidelberg
Erschienen in
Experimental Brain Research / Ausgabe 6/2019
Print ISSN: 0014-4819
Elektronische ISSN: 1432-1106
DOI
https://doi.org/10.1007/s00221-019-05523-0

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