Assessment of functional series elastic stiffness of human dorsiflexors with fast controlled releases
1 Center for Sensory-Motor Interaction, Department of Health Science and Technology, and 2 The AnyBody Group, Institute of Mechanical Engineering, Aalborg University, 9220 Aalborg, Denmark The series elastic stiffness (SES) of the human dorsiflexors was investigated in vivo with the fast controlle...
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| Published in | Journal of applied physiology (1985) Vol. 93; no. 1; pp. 324 - 329 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Bethesda, MD
Am Physiological Soc
01.07.2002
American Physiological Society |
| Subjects | |
| Online Access | Get full text |
| ISSN | 8750-7587 1522-1601 |
| DOI | 10.1152/japplphysiol.00696.2001 |
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| Abstract | 1 Center for Sensory-Motor Interaction, Department
of Health Science and Technology, and 2 The AnyBody
Group, Institute of Mechanical Engineering, Aalborg University, 9220 Aalborg, Denmark
The series elastic stiffness (SES)
of the human dorsiflexors was investigated in vivo with the fast
controlled release method in 8 subjects. The maximum moment of a
voluntary contraction (66 ± 17 Nm) was significantly higher than
the maximum moment with electrical stimulation of tibialis anterior
(34 ± 16 Nm). At an ankle moment of 34 Nm produced with either
voluntary or electrical stimulation, we found a significantly different
SES of 219 ± 54 and 149 ± 54 Nm · rad 1 , respectively. It is proposed that this
is due to the fact that, during voluntary contraction, more elastic
tissue parallel with each other is involved, because of coactivation of
the extensor hallucis longus, extensor digitorum longus, and tibialis
anterior. This shows that, for a functional assessment of the SES of
the dorsiflexors, one has to include the toe extensors, which is
possible with the fast controlled release method. Additionally, our
results demonstrated that the SES of the human dorsiflexors at moment levels up to about isometric maximum did not reach an asymptote at
which the stiffness is independent of moment, i.e., the series elastic
component of the dorsiflexors is during daily activities loaded for the
greatest part in the nonlinear part of the stress-strain function.
fast controlled release; dorsiflexors; in vivo, tibialis anterior |
|---|---|
| AbstractList | The series elastic stiffness (SES) of the human dorsiflexors was investigated in vivo with the fast controlled release method in 8 subjects. The maximum moment of a voluntary contraction (66 +/- 17 Nm) was significantly higher than the maximum moment with electrical stimulation of tibialis anterior (34 +/- 16 Nm). At an ankle moment of 34 Nm produced with either voluntary or electrical stimulation, we found a significantly different SES of 219 +/- 54 and 149 +/- 54 Nm. rad(-1), respectively. It is proposed that this is due to the fact that, during voluntary contraction, more elastic tissue parallel with each other is involved, because of coactivation of the extensor hallucis longus, extensor digitorum longus, and tibialis anterior. This shows that, for a functional assessment of the SES of the dorsiflexors, one has to include the toe extensors, which is possible with the fast controlled release method. Additionally, our results demonstrated that the SES of the human dorsiflexors at moment levels up to about isometric maximum did not reach an asymptote at which the stiffness is independent of moment, i.e., the series elastic component of the dorsiflexors is during daily activities loaded for the greatest part in the nonlinear part of the stress-strain function.The series elastic stiffness (SES) of the human dorsiflexors was investigated in vivo with the fast controlled release method in 8 subjects. The maximum moment of a voluntary contraction (66 +/- 17 Nm) was significantly higher than the maximum moment with electrical stimulation of tibialis anterior (34 +/- 16 Nm). At an ankle moment of 34 Nm produced with either voluntary or electrical stimulation, we found a significantly different SES of 219 +/- 54 and 149 +/- 54 Nm. rad(-1), respectively. It is proposed that this is due to the fact that, during voluntary contraction, more elastic tissue parallel with each other is involved, because of coactivation of the extensor hallucis longus, extensor digitorum longus, and tibialis anterior. This shows that, for a functional assessment of the SES of the dorsiflexors, one has to include the toe extensors, which is possible with the fast controlled release method. Additionally, our results demonstrated that the SES of the human dorsiflexors at moment levels up to about isometric maximum did not reach an asymptote at which the stiffness is independent of moment, i.e., the series elastic component of the dorsiflexors is during daily activities loaded for the greatest part in the nonlinear part of the stress-strain function. The series elastic stiffness (SES) of the human dorsiflexors was investigated in vivo with the fast controlled release method in 8 subjects. The maximum moment of a voluntary contraction (66 +/- 17 Nm) was significantly higher than the maximum moment with electrical stimulation of tibialis anterior (34 +/- 16 Nm). The series elastic stiffness (SES) of the human dorsiflexors was investigated in vivo with the fast controlled release method in 8 subjects. The maximum moment of a voluntary contraction (66 ± 17 Nm) was significantly higher than the maximum moment with electrical stimulation of tibialis anterior (34 ± 16 Nm). At an ankle moment of 34 Nm produced with either voluntary or electrical stimulation, we found a significantly different SES of 219 ± 54 and 149 ± 54 Nm · rad −1 , respectively. It is proposed that this is due to the fact that, during voluntary contraction, more elastic tissue parallel with each other is involved, because of coactivation of the extensor hallucis longus, extensor digitorum longus, and tibialis anterior. This shows that, for a functional assessment of the SES of the dorsiflexors, one has to include the toe extensors, which is possible with the fast controlled release method. Additionally, our results demonstrated that the SES of the human dorsiflexors at moment levels up to about isometric maximum did not reach an asymptote at which the stiffness is independent of moment, i.e., the series elastic component of the dorsiflexors is during daily activities loaded for the greatest part in the nonlinear part of the stress-strain function. The series elastic stiffness (SES) of the human dorsiflexors was investigated in vivo with the fast controlled release method in 8 subjects. The maximum moment of a voluntary contraction (66 +/- 17 Nm) was significantly higher than the maximum moment with electrical stimulation of tibialis anterior (34 +/- 16 Nm). At an ankle moment of 34 Nm produced with either voluntary or electrical stimulation, we found a significantly different SES of 219 +/- 54 and 149 +/- 54 Nm. rad(-1), respectively. It is proposed that this is due to the fact that, during voluntary contraction, more elastic tissue parallel with each other is involved, because of coactivation of the extensor hallucis longus, extensor digitorum longus, and tibialis anterior. This shows that, for a functional assessment of the SES of the dorsiflexors, one has to include the toe extensors, which is possible with the fast controlled release method. Additionally, our results demonstrated that the SES of the human dorsiflexors at moment levels up to about isometric maximum did not reach an asymptote at which the stiffness is independent of moment, i.e., the series elastic component of the dorsiflexors is during daily activities loaded for the greatest part in the nonlinear part of the stress-strain function. 1 Center for Sensory-Motor Interaction, Department of Health Science and Technology, and 2 The AnyBody Group, Institute of Mechanical Engineering, Aalborg University, 9220 Aalborg, Denmark The series elastic stiffness (SES) of the human dorsiflexors was investigated in vivo with the fast controlled release method in 8 subjects. The maximum moment of a voluntary contraction (66 ± 17 Nm) was significantly higher than the maximum moment with electrical stimulation of tibialis anterior (34 ± 16 Nm). At an ankle moment of 34 Nm produced with either voluntary or electrical stimulation, we found a significantly different SES of 219 ± 54 and 149 ± 54 Nm · rad 1 , respectively. It is proposed that this is due to the fact that, during voluntary contraction, more elastic tissue parallel with each other is involved, because of coactivation of the extensor hallucis longus, extensor digitorum longus, and tibialis anterior. This shows that, for a functional assessment of the SES of the dorsiflexors, one has to include the toe extensors, which is possible with the fast controlled release method. Additionally, our results demonstrated that the SES of the human dorsiflexors at moment levels up to about isometric maximum did not reach an asymptote at which the stiffness is independent of moment, i.e., the series elastic component of the dorsiflexors is during daily activities loaded for the greatest part in the nonlinear part of the stress-strain function. fast controlled release; dorsiflexors; in vivo, tibialis anterior |
| Author | Voigt, Michael De Zee, Mark |
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| Keywords | Biomechanics Ankle Human In vivo Lower limb Elasticity Flexor muscle Mechanical properties Stiffness Striated muscle Anterior tibial muscle |
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| Snippet | 1 Center for Sensory-Motor Interaction, Department
of Health Science and Technology, and 2 The AnyBody
Group, Institute of Mechanical Engineering, Aalborg... The series elastic stiffness (SES) of the human dorsiflexors was investigated in vivo with the fast controlled release method in 8 subjects. The maximum moment... |
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| SubjectTerms | Adult Algorithms Ankle - physiology Biological and medical sciences Body Weight - physiology Elasticity Electric Stimulation Electromyography Female Fundamental and applied biological sciences. Psychology Humans Isometric Contraction - physiology Male Muscle Contraction - physiology Muscle, Skeletal - physiology Muscular system Reproductive technologies Striated muscle. Tendons Vertebrates: osteoarticular system, musculoskeletal system |
| Title | Assessment of functional series elastic stiffness of human dorsiflexors with fast controlled releases |
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