Locomotor Function of Forelimb Protractor and Retractor Muscles of Dogs: Evidence of Strut-like Behavior at the Shoulder
The limbs of running mammals are thought to function as inverted struts. When mammals run at constant speed, the ground reaction force vector appears to be directed near the point of rotation of the limb on the body such that there is little or no moment at the joint. If this is true, little or no e...
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2008
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ftusouthflorida:oai:digitalcommons.usf.edu:bin_facpub-1300 2023-07-30T04:02:52+02:00 Locomotor Function of Forelimb Protractor and Retractor Muscles of Dogs: Evidence of Strut-like Behavior at the Shoulder Carrier, David R. Deban, Stephen M. Fischbein, Timna 2008-01-01T08:00:00Z application/pdf https://digitalcommons.usf.edu/bin_facpub/301 https://doi.org/10.1242/jeb.010678 unknown Digital Commons @ University of South Florida https://digitalcommons.usf.edu/bin_facpub/301 doi:10.1242/jeb.010678 https://doi.org/10.1242/jeb.010678 Integrative Biology Faculty and Staff Publications forelimb retractor muscles protractor muscles EMG recruitment quadruped running shoulder article 2008 ftusouthflorida https://doi.org/10.1242/jeb.010678 2023-07-13T23:27:07Z The limbs of running mammals are thought to function as inverted struts. When mammals run at constant speed, the ground reaction force vector appears to be directed near the point of rotation of the limb on the body such that there is little or no moment at the joint. If this is true, little or no external work is done at the proximal joints during constant-speed running. This possibility has important implications to the energetics of running and to the coupling of lung ventilation to the locomotor cycle. To test if the forelimb functions as an inverted strut at the shoulder during constant-speed running and to characterize the locomotor function of extrinsic muscles of the forelimb, we monitored changes in the recruitment of six muscles that span the shoulder (the m. pectoralis superficialis descendens, m. pectoralis profundus, m. latissimus dorsi, m. omotransversarius, m. cleidobrachialis and m. trapezius) to controlled manipulations of locomotor forces and moments in trotting dogs (Canis lupus familiaris Linnaeus 1753). Muscle activity was monitored while the dogs trotted at moderate speed (approximately 2 m s(-1)) on a motorized treadmill. Locomotor forces were modified by (1) adding mass to the trunk, (2) inclining the treadmill so that the dogs ran up- and downhill (3) adding mass to the wrists or (4) applying horizontally directed force to the trunk through a leash. When the dogs trotted at constant speed on a level treadmill, the primary protractor muscles of the forelimb exhibited activity during the last part of the ipsilateral support phase and the beginning of swing phase, a pattern that is consistent with the initiation of swing phase but not with active protraction of the limb during the beginning of support phase. Results of the force manipulations were also consistent with the protractor muscles initiating swing phase and contributing to active braking via production of a protractor moment on the forelimb when the dogs decelerate. A similar situation appears to be true for the major retractor ... Article in Journal/Newspaper Canis lupus University of South Florida St. Petersburg: Digital USFSP Journal of Experimental Biology 211 1 150 162 |
institution |
Open Polar |
collection |
University of South Florida St. Petersburg: Digital USFSP |
op_collection_id |
ftusouthflorida |
language |
unknown |
topic |
forelimb retractor muscles protractor muscles EMG recruitment quadruped running shoulder |
spellingShingle |
forelimb retractor muscles protractor muscles EMG recruitment quadruped running shoulder Carrier, David R. Deban, Stephen M. Fischbein, Timna Locomotor Function of Forelimb Protractor and Retractor Muscles of Dogs: Evidence of Strut-like Behavior at the Shoulder |
topic_facet |
forelimb retractor muscles protractor muscles EMG recruitment quadruped running shoulder |
description |
The limbs of running mammals are thought to function as inverted struts. When mammals run at constant speed, the ground reaction force vector appears to be directed near the point of rotation of the limb on the body such that there is little or no moment at the joint. If this is true, little or no external work is done at the proximal joints during constant-speed running. This possibility has important implications to the energetics of running and to the coupling of lung ventilation to the locomotor cycle. To test if the forelimb functions as an inverted strut at the shoulder during constant-speed running and to characterize the locomotor function of extrinsic muscles of the forelimb, we monitored changes in the recruitment of six muscles that span the shoulder (the m. pectoralis superficialis descendens, m. pectoralis profundus, m. latissimus dorsi, m. omotransversarius, m. cleidobrachialis and m. trapezius) to controlled manipulations of locomotor forces and moments in trotting dogs (Canis lupus familiaris Linnaeus 1753). Muscle activity was monitored while the dogs trotted at moderate speed (approximately 2 m s(-1)) on a motorized treadmill. Locomotor forces were modified by (1) adding mass to the trunk, (2) inclining the treadmill so that the dogs ran up- and downhill (3) adding mass to the wrists or (4) applying horizontally directed force to the trunk through a leash. When the dogs trotted at constant speed on a level treadmill, the primary protractor muscles of the forelimb exhibited activity during the last part of the ipsilateral support phase and the beginning of swing phase, a pattern that is consistent with the initiation of swing phase but not with active protraction of the limb during the beginning of support phase. Results of the force manipulations were also consistent with the protractor muscles initiating swing phase and contributing to active braking via production of a protractor moment on the forelimb when the dogs decelerate. A similar situation appears to be true for the major retractor ... |
format |
Article in Journal/Newspaper |
author |
Carrier, David R. Deban, Stephen M. Fischbein, Timna |
author_facet |
Carrier, David R. Deban, Stephen M. Fischbein, Timna |
author_sort |
Carrier, David R. |
title |
Locomotor Function of Forelimb Protractor and Retractor Muscles of Dogs: Evidence of Strut-like Behavior at the Shoulder |
title_short |
Locomotor Function of Forelimb Protractor and Retractor Muscles of Dogs: Evidence of Strut-like Behavior at the Shoulder |
title_full |
Locomotor Function of Forelimb Protractor and Retractor Muscles of Dogs: Evidence of Strut-like Behavior at the Shoulder |
title_fullStr |
Locomotor Function of Forelimb Protractor and Retractor Muscles of Dogs: Evidence of Strut-like Behavior at the Shoulder |
title_full_unstemmed |
Locomotor Function of Forelimb Protractor and Retractor Muscles of Dogs: Evidence of Strut-like Behavior at the Shoulder |
title_sort |
locomotor function of forelimb protractor and retractor muscles of dogs: evidence of strut-like behavior at the shoulder |
publisher |
Digital Commons @ University of South Florida |
publishDate |
2008 |
url |
https://digitalcommons.usf.edu/bin_facpub/301 https://doi.org/10.1242/jeb.010678 |
genre |
Canis lupus |
genre_facet |
Canis lupus |
op_source |
Integrative Biology Faculty and Staff Publications |
op_relation |
https://digitalcommons.usf.edu/bin_facpub/301 doi:10.1242/jeb.010678 https://doi.org/10.1242/jeb.010678 |
op_doi |
https://doi.org/10.1242/jeb.010678 |
container_title |
Journal of Experimental Biology |
container_volume |
211 |
container_issue |
1 |
container_start_page |
150 |
op_container_end_page |
162 |
_version_ |
1772813724447408128 |