Force generation on the hallux is more affected by the ankle joint angle than the lesser toes: An in vivo human study

Junya Saeki; Soichiro Iwanuma; Suguru Torii

doi:10.3390/biology10010048

Force generation on the hallux is more affected by the ankle joint angle than the lesser toes: An in vivo human study

Junya Saeki^*, Soichiro Iwanuma, Suguru Torii

^*Corresponding author for this work

School of Sport Sciences

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

The structure of the first toe is independent of that of the other toes, while the functional difference remains unclear. The purpose of this study was to investigate the difference in the force generation characteristics between the plantar-flexion of the first and second–fifth metatarsopha-langeal joints (MTPJs) by comparing the maximal voluntary plantar-flexion torques (MVC torque) at different MTPJs and ankle positions. The MVC torques of the first and second–fifth MTPJs were measured at 0^◦, 15^◦, 30^◦, and 45^◦ dorsiflexed positions of the MTPJs, and at 20^◦ plantar-flexed, neutral, and 20^◦ dorsiflexed positions of the ankle. Two-way repeated measures analyses of variance with Holm’s multiple comparison test (MTPJ position × ankle position) were performed. When the MTPJ was dorsiflexed at 0^◦, 15^◦, and 30^◦, the MVC torque of the first MTPJ when the ankle was dorsiflexed at 20^◦ was higher than that when the ankle was plantar-flexed at 20^◦. However, the ankle position had no significant effect on the MVC torque of the second–fifth MTPJ. Thus, the MVC torque of the first MTPJ was more affected by the ankle position than the second–fifth MTPJs.

Original language	English
Article number	48
Pages (from-to)	1-8
Number of pages	8
Journal	Biology
Volume	10
Issue number	1
DOIs	https://doi.org/10.3390/biology10010048
Publication status	Published - 2021 Jan

Keywords

Extrinsic foot muscle
Intrinsic foot muscle
Toe flexor muscle strength
Toe grip strength
Torque-angle relationships

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)
Immunology and Microbiology(all)
Agricultural and Biological Sciences(all)

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10.3390/biology10010048

Cite this

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title = "Force generation on the hallux is more affected by the ankle joint angle than the lesser toes: An in vivo human study",

abstract = "The structure of the first toe is independent of that of the other toes, while the functional difference remains unclear. The purpose of this study was to investigate the difference in the force generation characteristics between the plantar-flexion of the first and second–fifth metatarsopha-langeal joints (MTPJs) by comparing the maximal voluntary plantar-flexion torques (MVC torque) at different MTPJs and ankle positions. The MVC torques of the first and second–fifth MTPJs were measured at 0◦, 15◦, 30◦, and 45◦ dorsiflexed positions of the MTPJs, and at 20◦ plantar-flexed, neutral, and 20◦ dorsiflexed positions of the ankle. Two-way repeated measures analyses of variance with Holm{\textquoteright}s multiple comparison test (MTPJ position × ankle position) were performed. When the MTPJ was dorsiflexed at 0◦, 15◦, and 30◦, the MVC torque of the first MTPJ when the ankle was dorsiflexed at 20◦ was higher than that when the ankle was plantar-flexed at 20◦. However, the ankle position had no significant effect on the MVC torque of the second–fifth MTPJ. Thus, the MVC torque of the first MTPJ was more affected by the ankle position than the second–fifth MTPJs.",

keywords = "Extrinsic foot muscle, Intrinsic foot muscle, Toe flexor muscle strength, Toe grip strength, Torque-angle relationships",

author = "Junya Saeki and Soichiro Iwanuma and Suguru Torii",

note = "Funding Information: Funding: This research was funded by the Japan Society for the Promotion of Science, grant number 18J01881. Funding Information: Acknowledgments: This work was supported by Waseda University. Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2021",

month = jan,

doi = "10.3390/biology10010048",

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AU - Iwanuma, Soichiro

AU - Torii, Suguru

N1 - Funding Information: Funding: This research was funded by the Japan Society for the Promotion of Science, grant number 18J01881. Funding Information: Acknowledgments: This work was supported by Waseda University. Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2021/1

Y1 - 2021/1

N2 - The structure of the first toe is independent of that of the other toes, while the functional difference remains unclear. The purpose of this study was to investigate the difference in the force generation characteristics between the plantar-flexion of the first and second–fifth metatarsopha-langeal joints (MTPJs) by comparing the maximal voluntary plantar-flexion torques (MVC torque) at different MTPJs and ankle positions. The MVC torques of the first and second–fifth MTPJs were measured at 0◦, 15◦, 30◦, and 45◦ dorsiflexed positions of the MTPJs, and at 20◦ plantar-flexed, neutral, and 20◦ dorsiflexed positions of the ankle. Two-way repeated measures analyses of variance with Holm’s multiple comparison test (MTPJ position × ankle position) were performed. When the MTPJ was dorsiflexed at 0◦, 15◦, and 30◦, the MVC torque of the first MTPJ when the ankle was dorsiflexed at 20◦ was higher than that when the ankle was plantar-flexed at 20◦. However, the ankle position had no significant effect on the MVC torque of the second–fifth MTPJ. Thus, the MVC torque of the first MTPJ was more affected by the ankle position than the second–fifth MTPJs.

AB - The structure of the first toe is independent of that of the other toes, while the functional difference remains unclear. The purpose of this study was to investigate the difference in the force generation characteristics between the plantar-flexion of the first and second–fifth metatarsopha-langeal joints (MTPJs) by comparing the maximal voluntary plantar-flexion torques (MVC torque) at different MTPJs and ankle positions. The MVC torques of the first and second–fifth MTPJs were measured at 0◦, 15◦, 30◦, and 45◦ dorsiflexed positions of the MTPJs, and at 20◦ plantar-flexed, neutral, and 20◦ dorsiflexed positions of the ankle. Two-way repeated measures analyses of variance with Holm’s multiple comparison test (MTPJ position × ankle position) were performed. When the MTPJ was dorsiflexed at 0◦, 15◦, and 30◦, the MVC torque of the first MTPJ when the ankle was dorsiflexed at 20◦ was higher than that when the ankle was plantar-flexed at 20◦. However, the ankle position had no significant effect on the MVC torque of the second–fifth MTPJ. Thus, the MVC torque of the first MTPJ was more affected by the ankle position than the second–fifth MTPJs.

KW - Extrinsic foot muscle

KW - Intrinsic foot muscle

KW - Toe flexor muscle strength

KW - Toe grip strength

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Force generation on the hallux is more affected by the ankle joint angle than the lesser toes: An in vivo human study

Abstract

Keywords

ASJC Scopus subject areas

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