Relevant muscle- and species-specific differences may be found in the reaction of muscles to hindlimb suspension. This problem has been studied in 5 rabbits following a one-week hindlimb suspension, and in 5 ground-based controls. The soleus and the tibialis were prepared for light and transmission electron microscopy. In suspension the animals occasionally extended and flexed the hindlimbs, but, when standing still, their hindfeet were plantar-flexed to an angle of 180 degrees. In this position the length of the soleus was determined to be 35% less than in controls, whereas that of the tibialis was 30% more. Histologically, the tibialis fibers usually exhibited a preserved sarcomeric pattern, whereas soleus fibers displayed a regular sequence of areas of shortened sarcomeres, alternating with areas of myofibrillar disruption. These findings demonstrated that hindlimb suspension induces a focal breakdown of the soleus myofibrils, probably dependent on the reduced longitudinal tension of the suspended soleus and its phasic contractions against no load. It is conceivable that similar factors could also be responsible for soleus muscle atrophy induced by hypogravity as well as by other clinical conditions during which a stressful plantar flexion of the feet occurs against no load.

Anzil, A., Sancesario, G., Massa, R., Bernardi, G. (1991). Myofibrillar disruption in the rabbit soleus muscle after one-week hindlimb suspension. MUSCLE & NERVE, 14(4), 358-69 [10.1002/mus.880140411].

Myofibrillar disruption in the rabbit soleus muscle after one-week hindlimb suspension

SANCESARIO, GIUSEPPE;MASSA, ROBERTO;BERNARDI, GIORGIO
1991-04-01

Abstract

Relevant muscle- and species-specific differences may be found in the reaction of muscles to hindlimb suspension. This problem has been studied in 5 rabbits following a one-week hindlimb suspension, and in 5 ground-based controls. The soleus and the tibialis were prepared for light and transmission electron microscopy. In suspension the animals occasionally extended and flexed the hindlimbs, but, when standing still, their hindfeet were plantar-flexed to an angle of 180 degrees. In this position the length of the soleus was determined to be 35% less than in controls, whereas that of the tibialis was 30% more. Histologically, the tibialis fibers usually exhibited a preserved sarcomeric pattern, whereas soleus fibers displayed a regular sequence of areas of shortened sarcomeres, alternating with areas of myofibrillar disruption. These findings demonstrated that hindlimb suspension induces a focal breakdown of the soleus myofibrils, probably dependent on the reduced longitudinal tension of the suspended soleus and its phasic contractions against no load. It is conceivable that similar factors could also be responsible for soleus muscle atrophy induced by hypogravity as well as by other clinical conditions during which a stressful plantar flexion of the feet occurs against no load.
apr-1991
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore MED/26 - NEUROLOGIA
English
Con Impact Factor ISI
Male; Time Factors; Stress, Mechanical; Animals; Mitochondria, Muscle; Rabbits; Weightlessness; Muscle Contraction; Microscopy, Electron; Myofibrils; Sarcolemma; Hindlimb; Muscles
Anzil, A., Sancesario, G., Massa, R., Bernardi, G. (1991). Myofibrillar disruption in the rabbit soleus muscle after one-week hindlimb suspension. MUSCLE & NERVE, 14(4), 358-69 [10.1002/mus.880140411].
Anzil, A; Sancesario, G; Massa, R; Bernardi, G
Articolo su rivista
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/69250
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