Relationship between Sitting Pressure Deviation and Trunk Lateral Flexion
[Purpose] To examine the relationship between sitting pressure and lateral bending of the trunk by categorizing sitting pressure as greater on one side. [Participants and Methods] The participants were 20 healthy adult males: 10 put pressure on the right side, and 10 put pressure on the left side. S...
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| Published in | Rigaku ryoho kagaku Vol. 36; no. 2; pp. 265 - 268 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
Tokyo
The Society of Physical Therapy Science
2021
Japan Science and Technology Agency |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1341-1667 2434-2807 |
| DOI | 10.1589/rika.36.265 |
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| Abstract | [Purpose] To examine the relationship between sitting pressure and lateral bending of the trunk by categorizing sitting pressure as greater on one side. [Participants and Methods] The participants were 20 healthy adult males: 10 put pressure on the right side, and 10 put pressure on the left side. Sitting pressure was measured with a floor reaction force meter. The lateral inclinations of the upper and lower trunk were measured with Kinovea software and compared, and the correlation between sitting pressure and lateral inclination of the trunk was determined. [Results] The left side sitting pressure group showed a difference in the left and right trunk lateral flexion angles between the upper trunk and the lower trunk (p<0.05). A significant correlation was shown between the right sitting pressure group and the right bending angle of the lower trunk, and the right sitting pressure group and the left bending angle of the upper trunk (| r |=-0.7~-0.65). The left sitting pressure group showed a significant correlation with the left and right trunk lateral flexion angles in the upper trunk (| r |=-0.65~0.82). [Conclusion] Leaning to the side where one puts more pressure when sitting causes greater bending of the upper trunk; leaning to the opposite side causes bending of the lower trunk. |
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| AbstractList | [Purpose] To examine the relationship between sitting pressure and lateral bending of the trunk by categorizing sitting pressure as greater on one side. [Participants and Methods] The participants were 20 healthy adult males: 10 put pressure on the right side, and 10 put pressure on the left side. Sitting pressure was measured with a floor reaction force meter. The lateral inclinations of the upper and lower trunk were measured with Kinovea software and compared, and the correlation between sitting pressure and lateral inclination of the trunk was determined. [Results] The left side sitting pressure group showed a difference in the left and right trunk lateral flexion angles between the upper trunk and the lower trunk (p<0.05). A significant correlation was shown between the right sitting pressure group and the right bending angle of the lower trunk, and the right sitting pressure group and the left bending angle of the upper trunk (| r |=-0.7~-0.65). The left sitting pressure group showed a significant correlation with the left and right trunk lateral flexion angles in the upper trunk (| r |=-0.65~0.82). [Conclusion] Leaning to the side where one puts more pressure when sitting causes greater bending of the upper trunk; leaning to the opposite side causes bending of the lower trunk. |
| Author | TAME, Kazuya HIRONAKA, Jo KOSEKI, Hirohisa |
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| Cites_doi | 10.1093/gerona/53A.2.M126 10.1016/j.jbiomech.2005.07.002 10.1002/acr.20380 10.1016/j.apmr.2005.11.033 |
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| Copyright | 2021 by the Society of Physical Therapy Science 2021. This work is published under https://creativecommons.org/licenses/by-nc-nd/4.0/deed.ja (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. |
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| References | 1) Lee HJ, Chou LS: Detection of gait instability using the center of mass and center of pressure inclination angles. Arch Phys Med Rehabil, 2006, 87: 569-575. 4) Simic M, Hinman RS, Wrigley TV, et al.: Gait modification strategies for altering medial knee joint load: a systematic review. Arthritis Care Res (Hoboken), 2011, 63: 405-426. 2) Kaya BK, Krebs DE, Riley PO: Dynamic stability in elders: momentum control in locomotor ADL. J Gerontol A Biol Sci Med Sci, 1998, 53: M126-M134. 5) 和田 仁:現代日本人の脊柱における椎体の加齢変化に関する研究.札幌医師,1975, 44: 139-152. 8) 平山哲郎, 本間友貴, 茂原亜由美・他: 安静呼気における胸郭形状の特徴が胸郭可動性と呼吸機能に及ぼす影響. 理学療法科学,2018, 33: 513-518. 10) 冨田昌夫,佐藤房郎,宇野 潤・他:片麻痺の体幹機能.PTジャーナル,1991, 25: 88-94. 7) Shōbo A, Kakizaki F: The relationship between thoracic configuration and changes in volumes of hemithoraces in upright sitting. J Phys Ther Sci, 2016, 28: 3205-3208. 3) Hunt MA, Birmingham TB, Giffin JR, et al.: Associations among knee adduction moment, frontal plane ground reaction force, and lever arm during walking in patients with knee osteoarthritis. J Biomech, 2006, 39: 2213-2220. 6) 本間友貴,平山哲郎,茂原亜由美・他:強制呼気での腰方形筋断面積の左右対称性と前額面上の姿勢と呼吸機能の関係.理学療法科学,2018, 33: 501-506. 12) 柿崎藤泰:胸郭運動システムの再建法─呼吸運動再構築理論に基づく評価と治療─.柿崎藤泰(編),三輪書店,東京,2016,pp2-25 11) 藤田信子,桝田康彦,山野 薫・他:椅座位における側方傾斜刺激に対する頸部・体幹・四肢の筋活動.理学療法学,1990, 17: 27-30. 9) 山口光國,福井 勉,入谷 誠:結果の出せる整形外科理学療法.メジカルビュー,東京,2009,pp126-143 1 2 3 4 |
| References_xml | – reference: 7) Shōbo A, Kakizaki F: The relationship between thoracic configuration and changes in volumes of hemithoraces in upright sitting. J Phys Ther Sci, 2016, 28: 3205-3208. – reference: 10) 冨田昌夫,佐藤房郎,宇野 潤・他:片麻痺の体幹機能.PTジャーナル,1991, 25: 88-94. – reference: 3) Hunt MA, Birmingham TB, Giffin JR, et al.: Associations among knee adduction moment, frontal plane ground reaction force, and lever arm during walking in patients with knee osteoarthritis. J Biomech, 2006, 39: 2213-2220. – reference: 4) Simic M, Hinman RS, Wrigley TV, et al.: Gait modification strategies for altering medial knee joint load: a systematic review. Arthritis Care Res (Hoboken), 2011, 63: 405-426. – reference: 11) 藤田信子,桝田康彦,山野 薫・他:椅座位における側方傾斜刺激に対する頸部・体幹・四肢の筋活動.理学療法学,1990, 17: 27-30. – reference: 12) 柿崎藤泰:胸郭運動システムの再建法─呼吸運動再構築理論に基づく評価と治療─.柿崎藤泰(編),三輪書店,東京,2016,pp2-25. – reference: 9) 山口光國,福井 勉,入谷 誠:結果の出せる整形外科理学療法.メジカルビュー,東京,2009,pp126-143. – reference: 6) 本間友貴,平山哲郎,茂原亜由美・他:強制呼気での腰方形筋断面積の左右対称性と前額面上の姿勢と呼吸機能の関係.理学療法科学,2018, 33: 501-506. – reference: 8) 平山哲郎, 本間友貴, 茂原亜由美・他: 安静呼気における胸郭形状の特徴が胸郭可動性と呼吸機能に及ぼす影響. 理学療法科学,2018, 33: 513-518. – reference: 5) 和田 仁:現代日本人の脊柱における椎体の加齢変化に関する研究.札幌医師,1975, 44: 139-152. – reference: 1) Lee HJ, Chou LS: Detection of gait instability using the center of mass and center of pressure inclination angles. Arch Phys Med Rehabil, 2006, 87: 569-575. – reference: 2) Kaya BK, Krebs DE, Riley PO: Dynamic stability in elders: momentum control in locomotor ADL. J Gerontol A Biol Sci Med Sci, 1998, 53: M126-M134. – ident: 2 doi: 10.1093/gerona/53A.2.M126 – ident: 3 doi: 10.1016/j.jbiomech.2005.07.002 – ident: 4 doi: 10.1002/acr.20380 – ident: 1 doi: 10.1016/j.apmr.2005.11.033 |
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| SubjectTerms | lateral bending angle of the trunk Neck sitting pressure upper and lower trunk |
| Title | Relationship between Sitting Pressure Deviation and Trunk Lateral Flexion |
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