Correlation between musculoskeletal structure of the hand and primate locomotion: Morphometric and mechanical analysis in prehension using the cross- and triple-ratios.

Correlation between musculoskeletal structure of the hand and primate locomotion: Morphometric and mechanical analysis in prehension using the cross- and triple-ratios.

Biometric ratios of the relative length of the rays in the hand have been analyzed between primate species in the light of their hand function or phylogeny. However, how relative lengths among phalanges are mechanically linked to the grasping function of primates with different locomotor behaviors r...

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Main Authors: Toshihiro Tamagawa, Torbjörn Lundh, Kenji Shigetoshi, Norihisa Nitta, Noritoshi Ushio, Toshiro Inubushi, Akihiko Shiino, Anders Karlsson, Takayuki Inoue, Yutaka Mera, Kodai Hino, Masaru Komori, Shigehiro Morikawa, Shuji Sawajiri, Shigeyuki Naka, Satoru Honma, Tomoko Kimura, Yasuhiro Uchimura, Shinji Imai, Naoko Egi, Hiroki Otani, Jun Udagawa
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0232397
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spelling doaj-aab460165d874d72897417569534fef42021-03-03T21:45:26ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01155e023239710.1371/journal.pone.0232397Correlation between musculoskeletal structure of the hand and primate locomotion: Morphometric and mechanical analysis in prehension using the cross- and triple-ratios.Toshihiro TamagawaTorbjörn LundhKenji ShigetoshiNorihisa NittaNoritoshi UshioToshiro InubushiAkihiko ShiinoAnders KarlssonTakayuki InoueYutaka MeraKodai HinoMasaru KomoriShigehiro MorikawaShuji SawajiriShigeyuki NakaSatoru HonmaTomoko KimuraYasuhiro UchimuraShinji ImaiNaoko EgiHiroki OtaniJun UdagawaBiometric ratios of the relative length of the rays in the hand have been analyzed between primate species in the light of their hand function or phylogeny. However, how relative lengths among phalanges are mechanically linked to the grasping function of primates with different locomotor behaviors remains unclear. To clarify this, we calculated cross and triple-ratios, which are related to the torque distribution, and the torque generation mode at different joint angles using the lengths of the phalanges and metacarpal bones in 52 primates belonging to 25 species. The torque exerted on the finger joint and traction force of the flexor tendons necessary for a cylindrical grip and a suspensory hand posture were calculated using the moment arm of flexor tendons measured on magnetic resonance images, and were compared among Hylobates spp., Ateles sp., and Papio hamadryas. Finally, the torques calculated from the model were validated by a mechanical study detecting the force exerted on the phalanx by pulling the digital flexor muscles during suspension in these three species. Canonical discriminant analysis of cross and triple-ratios classified primates almost in accordance with their current classification based on locomotor behavior. The traction force was markedly reduced with flexion of the MCP joint parallel to the torque in brachiating primates; this was notably lower in the terrestrial quadrupedal primates than in the arboreal primates at mild flexion. Our mechanical study supported these features in the torque and traction force generation efficiencies. Our results suggest that suspensory or terrestrial quadrupedal primates have hand structures that can exert more torque at a suspensory posture, or palmigrade and digitigrade locomotion, respectively. Furthermore, our study suggests availability of the cross and triple-ratios as one of the indicators to estimate the hand function from the skeletal structure.https://doi.org/10.1371/journal.pone.0232397
collection DOAJ
language English
format Article
sources DOAJ
author Toshihiro Tamagawa
Torbjörn Lundh
Kenji Shigetoshi
Norihisa Nitta
Noritoshi Ushio
Toshiro Inubushi
Akihiko Shiino
Anders Karlsson
Takayuki Inoue
Yutaka Mera
Kodai Hino
Masaru Komori
Shigehiro Morikawa
Shuji Sawajiri
Shigeyuki Naka
Satoru Honma
Tomoko Kimura
Yasuhiro Uchimura
Shinji Imai
Naoko Egi
Hiroki Otani
Jun Udagawa
spellingShingle Toshihiro Tamagawa
Torbjörn Lundh
Kenji Shigetoshi
Norihisa Nitta
Noritoshi Ushio
Toshiro Inubushi
Akihiko Shiino
Anders Karlsson
Takayuki Inoue
Yutaka Mera
Kodai Hino
Masaru Komori
Shigehiro Morikawa
Shuji Sawajiri
Shigeyuki Naka
Satoru Honma
Tomoko Kimura
Yasuhiro Uchimura
Shinji Imai
Naoko Egi
Hiroki Otani
Jun Udagawa
Correlation between musculoskeletal structure of the hand and primate locomotion: Morphometric and mechanical analysis in prehension using the cross- and triple-ratios.
PLoS ONE
author_facet Toshihiro Tamagawa
Torbjörn Lundh
Kenji Shigetoshi
Norihisa Nitta
Noritoshi Ushio
Toshiro Inubushi
Akihiko Shiino
Anders Karlsson
Takayuki Inoue
Yutaka Mera
Kodai Hino
Masaru Komori
Shigehiro Morikawa
Shuji Sawajiri
Shigeyuki Naka
Satoru Honma
Tomoko Kimura
Yasuhiro Uchimura
Shinji Imai
Naoko Egi
Hiroki Otani
Jun Udagawa
author_sort Toshihiro Tamagawa
title Correlation between musculoskeletal structure of the hand and primate locomotion: Morphometric and mechanical analysis in prehension using the cross- and triple-ratios.
title_short Correlation between musculoskeletal structure of the hand and primate locomotion: Morphometric and mechanical analysis in prehension using the cross- and triple-ratios.
title_full Correlation between musculoskeletal structure of the hand and primate locomotion: Morphometric and mechanical analysis in prehension using the cross- and triple-ratios.
title_fullStr Correlation between musculoskeletal structure of the hand and primate locomotion: Morphometric and mechanical analysis in prehension using the cross- and triple-ratios.
title_full_unstemmed Correlation between musculoskeletal structure of the hand and primate locomotion: Morphometric and mechanical analysis in prehension using the cross- and triple-ratios.
title_sort correlation between musculoskeletal structure of the hand and primate locomotion: morphometric and mechanical analysis in prehension using the cross- and triple-ratios.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description Biometric ratios of the relative length of the rays in the hand have been analyzed between primate species in the light of their hand function or phylogeny. However, how relative lengths among phalanges are mechanically linked to the grasping function of primates with different locomotor behaviors remains unclear. To clarify this, we calculated cross and triple-ratios, which are related to the torque distribution, and the torque generation mode at different joint angles using the lengths of the phalanges and metacarpal bones in 52 primates belonging to 25 species. The torque exerted on the finger joint and traction force of the flexor tendons necessary for a cylindrical grip and a suspensory hand posture were calculated using the moment arm of flexor tendons measured on magnetic resonance images, and were compared among Hylobates spp., Ateles sp., and Papio hamadryas. Finally, the torques calculated from the model were validated by a mechanical study detecting the force exerted on the phalanx by pulling the digital flexor muscles during suspension in these three species. Canonical discriminant analysis of cross and triple-ratios classified primates almost in accordance with their current classification based on locomotor behavior. The traction force was markedly reduced with flexion of the MCP joint parallel to the torque in brachiating primates; this was notably lower in the terrestrial quadrupedal primates than in the arboreal primates at mild flexion. Our mechanical study supported these features in the torque and traction force generation efficiencies. Our results suggest that suspensory or terrestrial quadrupedal primates have hand structures that can exert more torque at a suspensory posture, or palmigrade and digitigrade locomotion, respectively. Furthermore, our study suggests availability of the cross and triple-ratios as one of the indicators to estimate the hand function from the skeletal structure.
url https://doi.org/10.1371/journal.pone.0232397
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