在跑步机跑步过程中,增加胸部支撑与膝关节僵硬程度改变以及膝关节生物力学变化有关。
Increasing breast support is associated with altered knee joint stiffness and contributing knee joint biomechanics during treadmill running.
作者信息
Powell Douglas W, Fong Hailey B, Nelson Alexis K
机构信息
Breast Biomechanics Research Center, College of Health Sciences, University of Memphis, Memphis, TN, United States.
Department of Orthopedic Surgery & Biomedical Engineering, University of Tennessee Health Science Center, Memphis, TN, United States.
出版信息
Front Sports Act Living. 2023 Apr 21;5:1113952. doi: 10.3389/fspor.2023.1113952. eCollection 2023.
INTRODUCTION
Greater breast support has been associated with improved running performance as measured by oxygen cost and running economy. Several candidate mechanisms have been proposed to underlie breast support-related improvements in running performance including increased knee joint stiffness. Greater knee joint stiffness has been associated with improved running performance (speed and metabolic cost), though the influence of breast support on knee joint stiffness has not been previously investigated. Therefore, the purpose of this study was to investigate the influence of increasing breast support on knee joint stiffness and its constituent components during treadmill running.
METHODS
Thirteen recreational runners performed a 3-min running bout at their preferred running velocity in each of three breast support conditions: bare chested (CON), low support (LOW) and high support (HIGH) sports bras. Three-dimensional kinematics and ground reaction forces were collected simultaneously using a 10-camera motion capture system (240 Hz, Qualisys Inc.) and instrumented treadmill (1,200 Hz, Bertec Inc.). Visual3D (C-Motion Inc.) was used to calculate knee joint excursions, moments, powers and work while custom software (MATLAB) was used to calculate knee joint stiffness and breast displacements during the stance phase of running in each experimental condition. A series of 1 × 3 repeated measures analysis of covariance with -tests was used to evaluate the effect of breast support on knee joint biomechanics during treadmill running.
RESULTS
Increasing levels of breast support were associated with greater knee joint stiffness ( = 0.002) as a result of smaller knee flexion excursions ( < 0.001). Increases in knee extension power ( = 0.010) were observed with increasing levels of breast support while no differences were observed in knee extension moments ( = 0.202) or work ( = 0.104).
CONCLUSION
Greater breast support is associated with increased knee joint stiffness resulting from smaller joint excursions. These findings may provide insight into the biomechanical mechanisms underlying previously reported improvements in running performance including reduced oxygen consumption and greater running economy.
引言
通过氧气消耗和跑步经济性来衡量,更大的胸部支撑与跑步表现的改善有关。已经提出了几种潜在机制来解释与胸部支撑相关的跑步表现改善,包括膝关节刚度增加。更大的膝关节刚度与跑步表现(速度和代谢成本)的改善有关,尽管胸部支撑对膝关节刚度的影响此前尚未得到研究。因此,本研究的目的是调查在跑步机跑步过程中增加胸部支撑对膝关节刚度及其组成部分的影响。
方法
13名休闲跑步者在三种胸部支撑条件下,以各自偏好的跑步速度进行3分钟的跑步试验:裸胸(CON)、低支撑(LOW)和高支撑(HIGH)运动胸罩。使用10台摄像机的运动捕捉系统(240Hz,Qualisys公司)和装有仪器的跑步机(1200Hz,Bertec公司)同时收集三维运动学和地面反作用力。使用Visual3D(C-Motion公司)计算膝关节的偏移、力矩、功率和功,同时使用定制软件(MATLAB)计算每个实验条件下跑步支撑阶段的膝关节刚度和胸部位移。采用一系列1×3重复测量协方差分析和t检验来评估胸部支撑对跑步机跑步过程中膝关节生物力学的影响。
结果
随着胸部支撑水平的提高,膝关节刚度增加(P = 0.002),这是由于膝关节屈曲偏移较小(P < 0.001)。随着胸部支撑水平的提高,观察到膝关节伸展功率增加(P = 0.010),而膝关节伸展力矩(P = 0.202)或功(P = 0.104)没有差异。
结论
更大的胸部支撑与因关节偏移较小而导致的膝关节刚度增加有关。这些发现可能有助于深入了解先前报道的跑步表现改善的生物力学机制,包括氧气消耗减少和跑步经济性提高。
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