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New genicular joint angle criteria for flexor muscle (Musculus Semimembranosus) during the terrestrial mammals walking

BACKGROUND: The genicular or knee joint angles of terrestrial mammals remain constant during the stance phase of walking; however, the angles differ among taxa. The knee joint angle is known to correlate with taxa and body mass among extant mammals, yet several extinct mammals, such as desmostylians...

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Autores principales: Mizuno, Fumihiro, Kohno, Naoki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: PeerJ Inc. 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10198156/
https://www.ncbi.nlm.nih.gov/pubmed/37214097
http://dx.doi.org/10.7717/peerj.15379
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author Mizuno, Fumihiro
Kohno, Naoki
author_facet Mizuno, Fumihiro
Kohno, Naoki
author_sort Mizuno, Fumihiro
collection PubMed
description BACKGROUND: The genicular or knee joint angles of terrestrial mammals remain constant during the stance phase of walking; however, the angles differ among taxa. The knee joint angle is known to correlate with taxa and body mass among extant mammals, yet several extinct mammals, such as desmostylians, do not have closely related descendants. Furthermore, fossils lose their soft tissues by the time they are unearthed, making body mass estimates difficult. These factors cause significant problems when reconstructing the proper postures of extinct mammals. Terrestrial mammals use potential and kinetic energy for locomotion; particularly, an inverted pendulum mechanism is used for walking. This mechanism requires maintaining the rod length constant, therefore, terrestrial mammals maintain their joint angle in a small range. A muscle reaction referred to as co-contraction is known to increase joint stiffness; both the agonist and antagonist muscles work simultaneously on the same joint at the same time. The musculus semimembranosus flexes the knee joint and acts as an antagonist to muscles that extend it. METHODS: Twenty-one species of terrestrial mammals were examined to identify the elements that constitute the angle between the m. semimembranosus and the tibia based on the period between the hindlimb touching down and taking off from the ground. Measurements were captured from videos in high-speed mode (420 fps), selecting 13 pictures from the first 75% of each video while the animals were walking. The angles between the main force line of the m. semimembranosus and the tibia, which were defined as θ(sm−t), were measured. RESULTS: The maximum and minimum angles between the m. semimembranosus and the tibia (θ(sm−t)) of the stance instance (SI) were successfully determined for more than 80% of the target animals (17 out of 21 species) during SI-1 to SI-13 within ±10° from the mean. The difference between each successive SI was small and, therefore, the θ(sm−t) transition was smooth. According to the results of the total stance differences among the target animals, θ(sm−t) was relatively constant during a stance and, therefore, average θ(sm−t) (θ(ave)) can represent each animal. Only Carnivora had a significant difference in the correlation between body mass and θ(ave). In addition, there were significant differences in θ(ave) between plantigrade and unguligrade locomotion. CONCLUSION: Our measurements show that θ(ave) was 100 ± 10° regardless taxon, body mass, and locomotor mode. Thus, only three points on skeletons need to be measured to determine θ(ave). This offers a new approximation approach for understanding hindlimb posture that could be applied to the study of the hindlimbs of extinct mammals with no closely related extant descendants.
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spelling pubmed-101981562023-05-20 New genicular joint angle criteria for flexor muscle (Musculus Semimembranosus) during the terrestrial mammals walking Mizuno, Fumihiro Kohno, Naoki PeerJ Animal Behavior BACKGROUND: The genicular or knee joint angles of terrestrial mammals remain constant during the stance phase of walking; however, the angles differ among taxa. The knee joint angle is known to correlate with taxa and body mass among extant mammals, yet several extinct mammals, such as desmostylians, do not have closely related descendants. Furthermore, fossils lose their soft tissues by the time they are unearthed, making body mass estimates difficult. These factors cause significant problems when reconstructing the proper postures of extinct mammals. Terrestrial mammals use potential and kinetic energy for locomotion; particularly, an inverted pendulum mechanism is used for walking. This mechanism requires maintaining the rod length constant, therefore, terrestrial mammals maintain their joint angle in a small range. A muscle reaction referred to as co-contraction is known to increase joint stiffness; both the agonist and antagonist muscles work simultaneously on the same joint at the same time. The musculus semimembranosus flexes the knee joint and acts as an antagonist to muscles that extend it. METHODS: Twenty-one species of terrestrial mammals were examined to identify the elements that constitute the angle between the m. semimembranosus and the tibia based on the period between the hindlimb touching down and taking off from the ground. Measurements were captured from videos in high-speed mode (420 fps), selecting 13 pictures from the first 75% of each video while the animals were walking. The angles between the main force line of the m. semimembranosus and the tibia, which were defined as θ(sm−t), were measured. RESULTS: The maximum and minimum angles between the m. semimembranosus and the tibia (θ(sm−t)) of the stance instance (SI) were successfully determined for more than 80% of the target animals (17 out of 21 species) during SI-1 to SI-13 within ±10° from the mean. The difference between each successive SI was small and, therefore, the θ(sm−t) transition was smooth. According to the results of the total stance differences among the target animals, θ(sm−t) was relatively constant during a stance and, therefore, average θ(sm−t) (θ(ave)) can represent each animal. Only Carnivora had a significant difference in the correlation between body mass and θ(ave). In addition, there were significant differences in θ(ave) between plantigrade and unguligrade locomotion. CONCLUSION: Our measurements show that θ(ave) was 100 ± 10° regardless taxon, body mass, and locomotor mode. Thus, only three points on skeletons need to be measured to determine θ(ave). This offers a new approximation approach for understanding hindlimb posture that could be applied to the study of the hindlimbs of extinct mammals with no closely related extant descendants. PeerJ Inc. 2023-05-16 /pmc/articles/PMC10198156/ /pubmed/37214097 http://dx.doi.org/10.7717/peerj.15379 Text en © 2023 Mizuno and Kohno https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, reproduction and adaptation in any medium and for any purpose provided that it is properly attributed. For attribution, the original author(s), title, publication source (PeerJ) and either DOI or URL of the article must be cited.
spellingShingle Animal Behavior
Mizuno, Fumihiro
Kohno, Naoki
New genicular joint angle criteria for flexor muscle (Musculus Semimembranosus) during the terrestrial mammals walking
title New genicular joint angle criteria for flexor muscle (Musculus Semimembranosus) during the terrestrial mammals walking
title_full New genicular joint angle criteria for flexor muscle (Musculus Semimembranosus) during the terrestrial mammals walking
title_fullStr New genicular joint angle criteria for flexor muscle (Musculus Semimembranosus) during the terrestrial mammals walking
title_full_unstemmed New genicular joint angle criteria for flexor muscle (Musculus Semimembranosus) during the terrestrial mammals walking
title_short New genicular joint angle criteria for flexor muscle (Musculus Semimembranosus) during the terrestrial mammals walking
title_sort new genicular joint angle criteria for flexor muscle (musculus semimembranosus) during the terrestrial mammals walking
topic Animal Behavior
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10198156/
https://www.ncbi.nlm.nih.gov/pubmed/37214097
http://dx.doi.org/10.7717/peerj.15379
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