The influence of stimulation frequency on force‐velocity characteristics of in situ rat medial gastrocnemius muscle

Haan, A. de

doi:10.1113/expphysiol.1998.sp004093

Cited by 72 publications

(80 citation statements)

References 18 publications

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“…At 80 Hz a preceding D200 or T400 not only showed an increase in peak power but also a shift t o the right in power-velocity relation. Similar observations were obtained previously when the stimulation frequency was increased (De Haan, 1998), which suggests a similar mechanism (e.g. enhanced Ca 2 + release/sensitivity).…”

supporting

confidence: 76%

General – Muscle Contraction

1998

The Journal of Physiology

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supporting

confidence: 76%

General – Muscle Contraction

1998

The Journal of Physiology

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“…A high firing frequency is needed to fully activate muscle fibers in isometric conditions, but even higher frequencies are necessary for maximal dynamic contractions (maximal power output). 8 However, in daily activities, skeletal muscles are activated submaximally with relatively low frequencies. The advantage of the slowing of relaxation is that muscle force may be relatively high at relatively low frequencies of stimulation (Fig.…”

Section: Discussionmentioning

confidence: 99%

“…9 Experimental allergic encephalomyelitis (EAE) is an experimental inflammatory demyelinating dis-ease of the central nervous system, and serves as an animal model to study demyelinating diseases of the central nervous system in general, and MS in particular. 24,25 In the induction phase (days [1][2][3][4][5][6][7][8][9][10], animals are immunized with myelin components to induce an anti-myelin immune response. 22,25 In particular, the effector phase of EAE (days 10 -18), during which local inflammatory responses cause the actual tissue damage, is relevant for studying the damaging events in MS.…”

mentioning

confidence: 99%

Changes in characteristics of rat skeletal muscle after experimental allergic encephalomyelitis

et al. 2004

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Experimental allergic encephalomyelitis (EAE) serves as an animal model for certain neuroinflammatory diseases of the central nervous system, in particular multiple sclerosis (MS). EAE is accompanied by transient weakness or paralysis of hind limbs. We have investigated the effect of partial and transient conduction failure in the central nervous system on skeletal muscle function. At ϳ2.5 days after development of maximal clinical signs, body and medial gastrocnemius muscle mass were lower (by ϳ21 and 33%, respectively; P Ͻ 0.05) in EAE rats compared with controls. Fiber cross-sectional area was lower by 40 -50% in all fiber types. Maximal force and power were substantially lower (by 58% and 73%) in EAE rats, as was the force normalized for muscle mass (35%). However, no such weakness was found when lower stimulation frequencies were used. Generation of similar submaximal forces was attributable to a slower relaxation in EAE muscles. This advantage for the EAE muscles was lost during repeated exercise. While fatigability was similar, the difference in relaxation rate between EAE and control disappeared in fatigue. Our data suggest that, as a result of central neuroinflammatory diseases, maximal performance of skeletal muscle is impaired but submaximal performance is relatively well maintained.

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“…42 It should however be noted that higher stimulation frequencies are needed to generate maximal rate of force rise than to produce maximal tetanic tension. 28,43 Therefore, stimulation frequencies in excess of 100 Hz may have been required to obtain the maximal rate of force development. However, the use of higher stimulation frequencies may increase the risk for damage to the weak paralysed muscles and tendons, and we therefore decided not to use stimulation frequencies above 100 Hz.…”

Section: Discussionmentioning

confidence: 99%

Altered contractile properties of the quadriceps muscle in people with spinal cord injury following functional electrical stimulated cycle training

et al. 2000

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Study design: A longitudinal training study. Objectives: To assess if contractile speed and fatigability of paralysed quadriceps muscles in individuals with spinal cord injury (SCI) can be altered by functional electrical stimulation leg cycle ergometry (FES-LCE) training. Settings: The Sint Maartenskliniek rehabilitation centre and the University of Nijmegen, Nijmegen, the Netherlands. Methods: Contractile properties of the quadriceps muscle were studied in seven people with motor-complete SCI who participated in a FES-LCE training program. Subjects trained for 30 min, three times per week for 6 weeks. Contractile speed and fatigue characteristics of electrically stimulated isometric contractions were compared before and after 6 weeks of FES-LCE. Results: Fatigue resistance improved following FES-LCE training as indicated by the higher forces maintained in response to repetitive electrical stimulation. In contrast with an improved fatigue resistance, the maximal rate of force rise was unaected, the speed of relaxation increased and the fusion of a 10 Hz force signal decreased. Furthermore, the force-frequency relationship shifted to the right at low stimulation frequencies, indicated by a decline in the ratio of 1 and 100 Hz force responses as well as the ratio of 10 and 100 Hz force responses. Conclusion: FES-LCE training can change the physiological properties of the quadriceps muscle in people with SCI. Even after a short period of training, the stimulated muscles become more resistant to fatigue. Furthermore, the increased speed of relaxation and associated decreased fusion and altered force-frequency relationship following training may be related to adaptations in the calcium handling processes, which re¯ect an early response of long-term disused muscles. Spinal Cord (2000) 38, 214 ± 223

show abstract

The influence of stimulation frequency on force‐velocity characteristics of in situ rat medial gastrocnemius muscle

Cited by 72 publications

References 18 publications

General – Muscle Contraction

General – Muscle Contraction

Changes in characteristics of rat skeletal muscle after experimental allergic encephalomyelitis

Altered contractile properties of the quadriceps muscle in people with spinal cord injury following functional electrical stimulated cycle training

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