In community-dwelling older adults, will age-related declines in sitting balance be closely related to declines in standing balance and fall-related factors?
Objective: The purpose of this study was to analyze the relationship between dynamic balance in the sitting positions and dynamic balance in the standing positions and fall-associated factors among older adults living in the community.Methods: Subjects were 50 healthy elderly individuals over 65 yea...
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| Published in | Journal of Physical Therapy for Prevention Vol. 2; no. 1; pp. 24 - 31 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
Japanese Society of physical therapy for prevention
31.03.2023
一般社団法人 日本予防理学療法学会 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2436-9950 |
| DOI | 10.57304/jptp.JPTP-D-22-00013 |
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| Abstract | Objective: The purpose of this study was to analyze the relationship between dynamic balance in the sitting positions and dynamic balance in the standing positions and fall-associated factors among older adults living in the community.Methods: Subjects were 50 healthy elderly individuals over 65 years of age. Subjects were divided into a non-fall group and a fall group according to whether they had fallen in the past year. Dynamic balance function was assessed by measuring the total trajectory length of the center of pressure (COP) in the standing and sitting positions, as well as the maximum movement width of the COP during maximum reach in the anterior-posterior and medial-lateral directions. In addition, other fall factors, such as maximum walking velocity, anteflexion in long-sitting position, and muscle strength (trunk flexion/extension, hip flexion/abduction, and knee extension), were measured. Correlation coefficients and factor analysis were used to examine the association between the assessment items of physical function.Results: Regarding the relationship between the standing position and sitting position in terms of dynamic balance pa rameters, the coefficient of maximum medial/lateral COP displacement showed a higher correlation than that of maximum anterior/posterior COP displacement. Factor analysis indicated that dynamic balance in the standing and sitting positions was a factor independent of muscle strength.Conclusions: Dynamic balance capability in the sitting position was related to standing balance, but independent of muscle strength. Dynamic balance capability in the sitting position was not directly related to the factors of falling. However, dynamic balance capability in the sitting position can also contribute to the improvement of posture and balance function as an exercise. |
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| AbstractList | Objective: The purpose of this study was to analyze the relationship between dynamic balance in the sitting positions and dynamic balance in the standing positions and fall-associated factors among older adults living in the community.Methods: Subjects were 50 healthy elderly individuals over 65 years of age. Subjects were divided into a non-fall group and a fall group according to whether they had fallen in the past year. Dynamic balance function was assessed by measuring the total trajectory length of the center of pressure (COP) in the standing and sitting positions, as well as the maximum movement width of the COP during maximum reach in the anterior-posterior and medial-lateral directions. In addition, other fall factors, such as maximum walking velocity, anteflexion in long-sitting position, and muscle strength (trunk flexion/extension, hip flexion/abduction, and knee extension), were measured. Correlation coefficients and factor analysis were used to examine the association between the assessment items of physical function.Results: Regarding the relationship between the standing position and sitting position in terms of dynamic balance pa rameters, the coefficient of maximum medial/lateral COP displacement showed a higher correlation than that of maximum anterior/posterior COP displacement. Factor analysis indicated that dynamic balance in the standing and sitting positions was a factor independent of muscle strength.Conclusions: Dynamic balance capability in the sitting position was related to standing balance, but independent of muscle strength. Dynamic balance capability in the sitting position was not directly related to the factors of falling. However, dynamic balance capability in the sitting position can also contribute to the improvement of posture and balance function as an exercise. Objective: The purpose of this study was to analyze the relationship between dynamic balance in the sitting positions and dynamic balance in the standing positions and fall-associated factors among older adults living in the community.Methods: Subjects were 50 healthy elderly individuals over 65 years of age. Subjects were divided into a non-fall group and a fall group according to whether they had fallen in the past year. Dynamic balance function was assessed by measuring the total trajectory length of the center of pressure (COP) in the standing and sitting positions, as well as the maximum movement width of the COP during maximum reach in the anterior-posterior and medial-lateral directions. In addition, other fall factors, such as maximum walking velocity, anteflexion in long-sitting position, and muscle strength (trunk flexion/extension, hip flexion/abduction, and knee extension), were measured. Correlation coefficients and factor analysis were used to examine the association between the assessment items of physical function.Results: Regarding the relationship between the standing position and sitting position in terms of dynamic balance pa rameters, the coefficient of maximum medial/lateral COP displacement showed a higher correlation than that of maximum anterior/posterior COP displacement. Factor analysis indicated that dynamic balance in the standing and sitting positions was a factor independent of muscle strength.Conclusions: Dynamic balance capability in the sitting position was related to standing balance, but independent of muscle strength. Dynamic balance capability in the sitting position was not directly related to the factors of falling. However, dynamic balance capability in the sitting position can also contribute to the improvement of posture and balance function as an exercise. 【目的】地域在住高齢者における座位バランス低下と立位バランス低下や転倒要因との関連を検討する.【方法】歩行可能な高齢者50 名を対象に,立位・座位での静止時の圧中心点(COP)の総軌跡長,前後左右へのCOP 最大移動距離を測定した.他に,最大歩行速度,長座位体前屈,筋力を測定した.転倒群と非転倒群に分けて比較し,測定項目間の関連は相関係数を用い,因子分析を行った.【結果】転倒群では非転倒群より有意に身体機能が低下していた.COP 最大移動距離は,後方を除いた同一方向の座位と立位において相関が認められ,前後より側方でより高い相関を示した.因子分析では,立位・座位バランス低下は筋力低下とは独立した因子であった.【結語】 座位バランスは立位バランスと関連があるが,筋力とは独立していた.座位バランス低下は転倒要因とは直接的に関連しているとはいえないが,姿勢や立位バランス機能と関連することが示唆された. |
| Author | CHIRII, Junichi MAKABE, Hitoshi HOSHI, Masayuki KANZAKI, Hideto |
| Author_FL | 真壁 寿 神先 秀人 星 真行 縮井 純一 |
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| References | 20) Dale Avers, Marybeth Brown (著). 津山直一, 中村耕三(訳).新・徒手筋力検査法第10 版, 協同医書出版社,東京, 2020. 25) Ikezoe T, Asakawa Y, et al. The relationship between quadriceps strength and balance to fall of elderly admitted to a nursing home. J Phys Ther Sci. 2003; 15: 75-79. 11) 柴隆広,沢谷洋平,他.地域在住要支援・要介護高齢者における臨床的体幹機能検査(FACT)と身体機能の関連.理学療法科学.2020; 35: 443-447. 17) 近藤敏,宮前珠子,他:高齢者における転倒恐怖.総合リハ.1999; 27: 775-780. 1) Gates S, Smith LA, et al. Systematic review of accuracy of screening instruments for predicting fall risk among independently living older adults. J Rehabil Res Dev. 2008; 45(8): 1105-1116. 5) 内山靖,島田裕之:高齢者の平衡機能と理学療法.理学療法.1999; 16: 731-738. 14) 石井美和子:体幹の機能障害-体幹の機能障害がもたらす姿勢・運動への影響-.理学療法.2006; 23: 1394-1400. 19) 古谷野亘,柴田博,他:地域老人における活動能力の測定-老研式活動能力指標の開発-.日公衛誌.1987; 34: 109-114. 21) 藤澤宏幸:バランス障害に対する運動療法. 運動療法学ー障害別アプローチの理論と実際第2 版(市橋則明 編),文光堂,東 京,2008. 7) 畑中康志,大森みかよ,他:脳卒中患者における座位Index of Postural Stability の信頼性と妥当性およびADLとの関連性. 総合リハ.2018; 46: 175-181. 27) 橋詰謙,伊東元,他:立位保持能力の加齢変化.日老医誌.1986, 23: 85-91. 4) 星文彦:高齢者の加齢変化と転倒要因.理学療法ジャーナル.2002; 36(5): 307-314. 12) Saito K, Matsunaga T, et al. Evaluation of trunk stability in the sitting position using a new device. Biomed Res. 2014; 35: 127-131. 23) Cwikel JG, Fried AV, et al. Validation of a fall-risk screening test, the Elderly Fall Screening Test (EFST), for com munity-dwelling elderly. Disabil Rehabil. 1998; 20: 161-167. 9) Gjelsvik B, Breivik K, et al. The Trunk Impairment Scale - modified to ordinal scales in the Norwegian version. Dis abil Rehabil. 2012; 34: 1385-1395. 8) Verheyden G, Nieuwboer A, et al. The Trunk Impairment Scale: a new tool to measure motor impairment of the trunk after stroke. Clin Rehabil. 2004; 18: 326-334. 16) Tinnetti ME, Richman D, et al. Falls Efficacy as a measure of fear of falling. J Gerontol Psych Sci. 1990; 45: 239-243. 22) 内山靖:姿勢バランスの定量的評価.理学療法学.1997; 24: 109-113. 26) 丸山仁司:老人の評価.理学療法科学.1997, 12(3): 141-147. 15) Gibson MJ. Falls in later life. In: Kane RL, et al. (eds.) Improving the Health of Older People. A World View. Oxford University Press, New York, 1990, 296-315. 13) Campbell FM, Ashburn AM, et al. Head and pelvic movements during a dynamic reaching task in sitting: impli cations for physical therapists. Arch Phys Med Rehabil. 2001; 82: 1655-1660. 3) 渡辺丈眞:高齢者の転倒の疫学.理学療法.2001; 18(9): 841-846. 10) 奥田裕,荻野禎子,他:臨床的体幹機能検査(FACT)の開発と信頼性.理学療法科学.2006; 21: 357-362. 2) American Geriatrics Society, British Geriatrics Society, American Academy of Orthopaedic Surgeons Panel on Falls Prevention: Guideline for the prevention of falls in older persons. J Am Geriatr Soc. 2001; 49: 664-672. 18) Hill KD, Schwart JA, et al. Fear of falling revisited. Arch Phys Med Rehabil. 1996; 77: 1025-1029. 28) 島田裕之,内山靖,他:高齢者の転倒予防に対する介入効果.理学療法ジャーナル.2002; 36: 315-322. 24) 笠原敏史:端坐位における体幹前屈運動時の腰椎骨盤リズムの分析.北海道大学医療技術短期大学部紀要.2000; 13: 19-25. 6) 内山靖,永田晟:高齢者の健康・体力-平衡機能-.ヒューマンサイエンス.1996; 9: 49-57. |
| References_xml | – reference: 3) 渡辺丈眞:高齢者の転倒の疫学.理学療法.2001; 18(9): 841-846. – reference: 8) Verheyden G, Nieuwboer A, et al. The Trunk Impairment Scale: a new tool to measure motor impairment of the trunk after stroke. Clin Rehabil. 2004; 18: 326-334. – reference: 21) 藤澤宏幸:バランス障害に対する運動療法. 運動療法学ー障害別アプローチの理論と実際第2 版(市橋則明 編),文光堂,東 京,2008. – reference: 16) Tinnetti ME, Richman D, et al. Falls Efficacy as a measure of fear of falling. J Gerontol Psych Sci. 1990; 45: 239-243. – reference: 18) Hill KD, Schwart JA, et al. Fear of falling revisited. Arch Phys Med Rehabil. 1996; 77: 1025-1029. – reference: 1) Gates S, Smith LA, et al. Systematic review of accuracy of screening instruments for predicting fall risk among independently living older adults. J Rehabil Res Dev. 2008; 45(8): 1105-1116. – reference: 24) 笠原敏史:端坐位における体幹前屈運動時の腰椎骨盤リズムの分析.北海道大学医療技術短期大学部紀要.2000; 13: 19-25. – reference: 23) Cwikel JG, Fried AV, et al. Validation of a fall-risk screening test, the Elderly Fall Screening Test (EFST), for com munity-dwelling elderly. Disabil Rehabil. 1998; 20: 161-167. – reference: 26) 丸山仁司:老人の評価.理学療法科学.1997, 12(3): 141-147. – reference: 2) American Geriatrics Society, British Geriatrics Society, American Academy of Orthopaedic Surgeons Panel on Falls Prevention: Guideline for the prevention of falls in older persons. J Am Geriatr Soc. 2001; 49: 664-672. – reference: 17) 近藤敏,宮前珠子,他:高齢者における転倒恐怖.総合リハ.1999; 27: 775-780. – reference: 27) 橋詰謙,伊東元,他:立位保持能力の加齢変化.日老医誌.1986, 23: 85-91. – reference: 13) Campbell FM, Ashburn AM, et al. Head and pelvic movements during a dynamic reaching task in sitting: impli cations for physical therapists. Arch Phys Med Rehabil. 2001; 82: 1655-1660. – reference: 4) 星文彦:高齢者の加齢変化と転倒要因.理学療法ジャーナル.2002; 36(5): 307-314. – reference: 10) 奥田裕,荻野禎子,他:臨床的体幹機能検査(FACT)の開発と信頼性.理学療法科学.2006; 21: 357-362. – reference: 14) 石井美和子:体幹の機能障害-体幹の機能障害がもたらす姿勢・運動への影響-.理学療法.2006; 23: 1394-1400. – reference: 12) Saito K, Matsunaga T, et al. Evaluation of trunk stability in the sitting position using a new device. Biomed Res. 2014; 35: 127-131. – reference: 20) Dale Avers, Marybeth Brown (著). 津山直一, 中村耕三(訳).新・徒手筋力検査法第10 版, 協同医書出版社,東京, 2020. – reference: 19) 古谷野亘,柴田博,他:地域老人における活動能力の測定-老研式活動能力指標の開発-.日公衛誌.1987; 34: 109-114. – reference: 7) 畑中康志,大森みかよ,他:脳卒中患者における座位Index of Postural Stability の信頼性と妥当性およびADLとの関連性. 総合リハ.2018; 46: 175-181. – reference: 15) Gibson MJ. Falls in later life. In: Kane RL, et al. (eds.) Improving the Health of Older People. A World View. Oxford University Press, New York, 1990, 296-315. – reference: 5) 内山靖,島田裕之:高齢者の平衡機能と理学療法.理学療法.1999; 16: 731-738. – reference: 11) 柴隆広,沢谷洋平,他.地域在住要支援・要介護高齢者における臨床的体幹機能検査(FACT)と身体機能の関連.理学療法科学.2020; 35: 443-447. – reference: 28) 島田裕之,内山靖,他:高齢者の転倒予防に対する介入効果.理学療法ジャーナル.2002; 36: 315-322. – reference: 9) Gjelsvik B, Breivik K, et al. The Trunk Impairment Scale - modified to ordinal scales in the Norwegian version. Dis abil Rehabil. 2012; 34: 1385-1395. – reference: 6) 内山靖,永田晟:高齢者の健康・体力-平衡機能-.ヒューマンサイエンス.1996; 9: 49-57. – reference: 25) Ikezoe T, Asakawa Y, et al. The relationship between quadriceps strength and balance to fall of elderly admitted to a nursing home. J Phys Ther Sci. 2003; 15: 75-79. – reference: 22) 内山靖:姿勢バランスの定量的評価.理学療法学.1997; 24: 109-113. |
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| SubjectTerms | Dynamic balance in the sitting position Dynamic balance in the standing position Elderly people living in the community Fall-associated factor Reaching motion in the sitting position 地域在住高齢者 座位バランス 座位リーチ動作 立位バランス 転倒要因 |
| Title | In community-dwelling older adults, will age-related declines in sitting balance be closely related to declines in standing balance and fall-related factors? |
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