Lower Limb Extension Power is Associated With Slope Walking Joint Loading Mechanics in Older Adults.

IF 1.1 4区 医学 Q4 ENGINEERING, BIOMEDICAL
Peter B Thomsen, Jacob W Aumeier, Chelsey A Wilbur, Evan G. Oro, Hunter B. Carlson, Jesse C. Christensen
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引用次数: 0

Abstract

Fall-related injuries are associated with muscle weakness and common during slope walking in older adults. However, no study has evaluated the relationship between muscle weakness, measured by maximal lower limb extension power, and older adults' ability to navigate slope walking for a better understanding of fall prevention. Therefore, the purpose of this study was to investigate the association between maximal lower limb extension power and joint mechanics during slope walking. Fifteen healthy older adults were tested. Lower limb extension power was measured using the Leg Extension Power Rig. Kinematic and kinetic analysis was performed during level (0°), incline (10°), and decline (10°) slope walking. Greater maximal lower limb extension power was significantly (p < .050; Cohen's f2 > 0.35) associated with multiple kinetic and kinematic joint mechanic variables across stance phase of the gait cycle during level, incline, and decline walking. These findings will allow clinicians to better educate patients and develop interventions focused on fall prevention and improving functional mobility in older adults.
老年人下肢伸展力与斜坡行走关节负荷力学有关。
跌倒相关损伤与肌肉无力有关,在老年人斜坡行走中很常见。然而,没有研究评估肌肉无力(以最大下肢伸展力衡量)与老年人斜坡行走能力之间的关系,以便更好地了解预防跌倒的方法。因此,本研究的目的是探讨斜坡行走时下肢最大伸展力与关节力学之间的关系。对15名健康的老年人进行了测试。下肢伸展力采用伸腿力仪测量。在水平(0°)、倾斜(10°)和下降(10°)斜坡行走期间进行运动学和动力学分析。下肢最大伸展力显著增加(p < 0.05);Cohen's f2 > 0.35)与水平、倾斜和下降行走过程中步态周期的站立阶段的多个动力学和运动学关节力学变量相关。这些发现将允许临床医生更好地教育患者,并制定干预措施,重点是预防跌倒和改善老年人的功能活动能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Applied Biomechanics
Journal of Applied Biomechanics 医学-工程:生物医学
CiteScore
2.00
自引率
0.00%
发文量
47
审稿时长
6-12 weeks
期刊介绍: The mission of the Journal of Applied Biomechanics (JAB) is to disseminate the highest quality peer-reviewed studies that utilize biomechanical strategies to advance the study of human movement. Areas of interest include clinical biomechanics, gait and posture mechanics, musculoskeletal and neuromuscular biomechanics, sport mechanics, and biomechanical modeling. Studies of sport performance that explicitly generalize to broader activities, contribute substantially to fundamental understanding of human motion, or are in a sport that enjoys wide participation, are welcome. Also within the scope of JAB are studies using biomechanical strategies to investigate the structure, control, function, and state (health and disease) of animals.
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