Influence of suspension hypokinesia on rat soleus muscle

Templeton, G. H.; Padalino, M.; Manton, J.; Glasberg, Mark R.; Silver, Caroline; Silver, Paul J.; DeMartino, George N.; Leconey, T.; Klug, G. A.; Hagler, Herbert K.

doi:10.1152/jappl.1984.56.2.278

Cited by 88 publications

(40 citation statements)

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“…They also reported that these changes might reflect a transformation of fast-twitch fibers to slow-twitch fibers. On the other hand, TEMPLETON et al (1984) and THOMASON et al (1987) reported an increase of fast-type myosin isozyme composition and fast-twitch fiber number, but no change in the total fiber number in various muscles following suspension hypokinesia. These results suggest that transformation from slow-twitch to fast-twitch type fiber occurred following suspension.…”

Section: Discussionmentioning

confidence: 93%

Ultrastructural and metabolic profiles on single muscle fibers of different types after hindlimb suspension in rats.

Takekura

Yoshioka

1989

Jpn.J.Physiol

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Abstracts The relationships between ultrastructural and metabolic profiles in different types of single muscle fiber after hindlimb suspension in rats were examined. Glycolytic (lactate dehydrogenase, LDH; phosphofructokinase, PFK) and oxidative (succinate dehydrogenase, SDH; malate dehydrogenase, MDH) enzyme activities in extensor digitorum longus (EDL) and soleus (SOL) muscles were measured. Relative mitochondrial and lipid droplet volumes were also measured in single muscle fiber of different types. Glycolytic enzyme activity in EDL muscle and oxidative enzyme activity in soleus muscle decreased following suspension for 2 weeks. LDH and PFK activities in fast-twitch (FG, fast-twitch glycolytic; FOG, fast-twitch oxidative glycolytic) fibers and oxidative enzymes in FOG and FG fibers decreased following suspension. Relative mitochondrial volume decreased significantly in all types (SO, slow-twitch oxidative; FOG, and FG) of fibers following suspension. The mitochondrial volume in SO fiber of the control group was significantly (p <0.01) higher than that of suspended group; however, SDH and MDH activities were not different between the control and suspended groups. The structural and metabolic changes following hindlimb suspension were influenced by different factors, respectively. Changes in ultrastructural and metabolic profiles in response to the hindlimb suspension differed according to the type of fibers.

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Section: Discussionmentioning

confidence: 93%

Ultrastructural and metabolic profiles on single muscle fibers of different types after hindlimb suspension in rats.

Takekura

Yoshioka

1989

Jpn.J.Physiol

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“…[The Japanese Journal of Physiology 53: [77][78][79][80][81][82][83][84][85][86][87]2003] Numerous studies have shown that chronic hindlimb suspension reduces maximal tension, and induces a shortening in twitch development and relaxation of slow-twitch muscles. Furthermore, a shift in isometric twitch kinetic characteristics and potential dependence of activation and inactivation curves (calculated from K ϩ contracture experiments) toward those of fast-twitch muscles has also been reported [6][7][8][9]. Different approaches to reduce the effect of suspension have been tested, like chronic stimulation, removal of synergist muscle, and treatment with androgenic-anabolic steroids (AAS) [10,11].…”

Section: Introductionmentioning

confidence: 99%

Nandrolone Decanoate Reduces Changes Induced by Hindlimb Suspension in Voltage-Dependent Tension of Rat Soleus Muscle

Bouhlel¹,

Joumaa²,

Léoty³

2003

Jpn.J.Physiol

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In skeletal muscles, the depolarization of action potentials in transverse tubules induces a movement of charged voltage sensors [1] within the dihydropyridine receptors [2]. The voltage sensors then activate the opening of Ca 2ϩ -release channels in the sarcoplasmic reticulum to generate tension. In order to look at the excitation-contraction coupling mechanism directly without complications of additional effects due to the action potential mechanism, potassium contractures were generally used rather than twitch-tension responses.Isometric tension generated by prolonged depolarization (K ϩ contracture) allows analysis of the relationship between myoplasmic calcium concentration or tension and T-tubule membrane potential, which has been shown to be different in slow-and fasttwitch fibers [3]. Thus, activation and inactivation processes involved in depolarization-contraction coupling can be examined in skeletal muscles using the K ϩ contracture technique [3][4][5].

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“…Indeed, Gajdosik (2001) showed that passive stiffness was influenced by lengthening deformation of the connective tissues of the endomysium, perimysium, and epimysium (PEC) of the muscle belly with a large contribution of the perimysium due to its large amount in a muscle. After HH, a decrease in the concentration of myofibrillar proteins and a relative increase in the proportion of noncontractile tissue (Flynn and Max 1985;Herbert et al 1988;Templeton et al 1984) in the rat soleus muscles have been observed. More recently, Brown and Hasser (1996) have also described an increase in connective tissue.…”

Section: Discussionmentioning

confidence: 99%

“…Moreover, the passive tension of in situ rat soleus muscle increased after 7 and 14 days of whole body suspension (Gillette and Fell 1996). A relative increase in the proportion of noncontractile tissue particularly in the soleus and gastrocnemius muscles has also been described (Flynn and Max 1985;Herbert et al 1988;Templeton et al 1984). Therefore we suggest that the stretch transmission might be affected after an episode of HH and the electrophysiological afferent discharges of endings consequently modified.…”

Section: Introductionmentioning

confidence: 94%

Effects of Hypodynamia-Hypokinesia on the Muscle Spindle Discharges of Rat Soleus Muscle

De-Doncker¹,

Picquet²,

Petit³

et al. 2003

Journal of Neurophysiology

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Falempin. Effects of hypodynamia-hypokinesia on the muscle spindle discharges of rat soleus muscle. J Neurophysiol 89: 3000 -3007, 2003; 10.1152/jn.00875.2002. The aim of this study was to determine whether Ia and II fiber discharges of soleus muscle spindles were modified after a 14-day period of hypodynamia (absence of weight bearing) and hypokinesia (reduction of motor activity). Fifty-one and 38 afferent fibers were studied, respectively, in control and hypodynamia-hypokinesia (HH) groups. Under deep anesthesia (pentobarbital, 30 mg/kg), a L 3 -L 6 laminectomy was performed. Unitary potentials from the L 5 dorsal root were recorded in response to ramp-andhold stretches applied at two stretch amplitudes (3 and 4 mm) and four stretch velocities (6, 10, 15, and 30 mm/s) and to sinusoidal stretches applied at four stretch amplitudes (0.12, 0.25, 0.5, and 1 mm) and six stretch frequencies (0.5, 1, 2, 3, 6, and 10 Hz). In both animal groups, the Ia fibers showed higher dynamic index values, smaller linear range, and higher vibration sensitivity than the II fibers. They also exhibited a pause in their discharges during the stretch release contrary to II fibers, which displayed no pause in their responses. After HH, our results showed that for both fiber types all parameters measured under ramp-and-hold stretches (except the static sensitivity) were significantly increased and under sinusoidal stretches, the vibration sensitivity increased, and the response amplitude only increased at 0.12-mm stretch amplitude. The linear range of Ia afferents was limited to 0.12 mm, whereas it was unchanged for the II fibers. After HH, the stretches could be better transmitted to the muscle spindles, probably resulting from changes in passive mechanical properties of the soleus.

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Influence of suspension hypokinesia on rat soleus muscle

Cited by 88 publications

References 0 publications

Ultrastructural and metabolic profiles on single muscle fibers of different types after hindlimb suspension in rats.

Ultrastructural and metabolic profiles on single muscle fibers of different types after hindlimb suspension in rats.

Nandrolone Decanoate Reduces Changes Induced by Hindlimb Suspension in Voltage-Dependent Tension of Rat Soleus Muscle

Effects of Hypodynamia-Hypokinesia on the Muscle Spindle Discharges of Rat Soleus Muscle

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