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First published online December 2, 2005
Journal of Experimental Biology 208, 4585-4592 (2005)
Published by The Company of Biologists 2005
doi: 10.1242/jeb.01931

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Physiologically adaptive changes of the L₅ afferent neurogram and of the rat soleus EMG activity during 14 days of hindlimb unloading and recovery

L. De-Doncker^*, M. Kasri, F. Picquet and M. Falempin

Laboratoire de Plasticité Neuromusculaire, EA 1032, IFR 118, Bât. SN4, Université des Sciences et Technologies de Lille, F-59655 Villeneuve d'Ascq Cedex, France

^* Author for correspondence (e-mail: laurent.dedoncker{at}free.fr)

Accepted 15 October 2005

The hindlimb unloading rat model (HU, Morey's model) is usually used to mimic and study neuromuscular changes that develop during spaceflights. This Earth-based model of microgravity induces a muscular atrophy of the slow postural muscle of hindlimbs, such as the soleus, a loss of strength, modifications of contraction kinetics, changes in histochemical and electrophoretical profiles and modifications of the tonic EMG activity. It has been suggested in the literature that some of these neuromuscular effects were due to a reduction of afferent feedback during HU. However, no direct data have confirmed this hypothesis. The aim of this study was to clearly establish if changes of the L₅ afferent neurogram are closely related to the soleus EMG activity during and after 14 days of HU.

Immediately after HU, the EMG activity of the soleus muscle disappeared and was associated with a decrease in the afferent neurogram. The soleus electromyographic and afferent activities remained lower than the pre-suspension levels until the sixth day of HU and were recovered between the sixth and the ninth day. On the twelfth and fourteenth days, they were increased beyond the pre-suspension levels. During the first recovery day, these activities were significantly higher than those on the fourteenth HU day and returned to the pre-suspension levels between the third and sixth recovery days.

To conclude, our study directly demonstrates that the HU conditions cannot be considered as a functional deafferentation, as suggested in the literature, but only as a reduction of afferent information at the beginning of the HU period.

Key words: rat, hindlimb unloading, neuromuscular activities

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