Federal University of Uberlândia - UFU, Faculty of Physical Education and Physiotherapy- FAEFI, Uberlândia, Minas Gerais, Brazil.
Federal University of Uberlândia - UFU, Faculty of Physical Education and Physiotherapy- FAEFI, Uberlândia, Minas Gerais, Brazil.
Knee. 2023 Aug;43:163-175. doi: 10.1016/j.knee.2023.05.005. Epub 2023 Jul 7.
Single-leg (SL) tasks are included as assessment and intervention strategies in several dysfunctions due to the inherent motor control requirement. The recruitment of gluteus maximus (GMAX) and medius (GMED) muscles is essential for proper biomechanical control of the knee and hip joints. The study aims to identify the role of gluteal activation in the biomechanical control of the lower limb during SL tasks.
This is a systematic review with searches performed in Pubmed, CINAHL, MEDLINE, Web of Science, and Sportdiscus databases. Cross-sectional studies carried out with asymptomatic individuals were selected, containing hip and knee kinematic and kinetic outcomes assessed through 3D or 2D movement analysis and EMG activity of GMED and GMAX muscles. Two independent reviewers performed the procedures to select the studies, determine the methodological quality and extract the data.
The initial search resulted in 391 studies, and after the assessment procedures, 11 studies were included. Lower GMAX activation was associated with greater hip internal rotation (HIR) excursion and greater HIR moment, and lower GMED activation was associated with greater hip adduction (HAD)/knee abduction (KAB) excursions and greater KAB moment during single-leg squat (SLS).
The SL tasks showed a relevant association between the gluteal EMG and other biomechanical outcomes, mainly the SLS task. Interpretation must be cautious, as most studies present high and moderate methodological quality, especially on kinetic data.
单腿(SL)任务由于其固有的运动控制要求,被纳入多种功能障碍的评估和干预策略中。臀大肌(GMAX)和臀中肌(GMED)的募集对于膝关节和髋关节的适当生物力学控制至关重要。本研究旨在确定在 SL 任务中,臀肌激活在下肢生物力学控制中的作用。
这是一项系统评价,在 Pubmed、CINAHL、MEDLINE、Web of Science 和 Sportdiscus 数据库中进行了检索。选择了针对无症状个体进行的横断面研究,这些研究包含通过 3D 或 2D 运动分析评估的髋关节和膝关节运动学和动力学结果,以及 GMED 和 GMAX 肌肉的肌电图活动。两名独立的审查员进行了选择研究、确定方法学质量和提取数据的程序。
最初的搜索产生了 391 项研究,经过评估程序后,有 11 项研究被纳入。GMAX 激活较低与髋关节内旋(HIR)幅度增大和髋关节内旋力矩增大相关,GMED 激活较低与髋关节内收(HAD)/膝关节外展(KAB)幅度增大和膝关节外展力矩增大相关在单腿深蹲(SLS)中。
SL 任务显示出臀肌肌电图与其他生物力学结果之间存在显著关联,特别是在 SLS 任务中。解释必须谨慎,因为大多数研究的方法学质量较高,尤其是在动力学数据方面。
