Horsak B, Schwab C, Baca A, Greber-Platzer S, Kreissl A, Nehrer S, Keilani M, Crevenna R, Kranzl A, Wondrasch B
St. Pölten University of Applied Sciences, Institute of Health Sciences, St. Pölten, Austria.
St. Pölten University of Applied Sciences, Institute of Health Sciences, St. Pölten, Austria.
Gait Posture. 2019 May;70:122-129. doi: 10.1016/j.gaitpost.2019.02.032. Epub 2019 Feb 27.
Research highlights the detrimental effects of obesity on gait biomechanics and the accompanied risk of lower-extremity skeletal malalignments, increased joint stress, pain and discomfort. Individuals with obesity typically show increased knee valgus angles combined with an increased step width. Accompanying muscular dysfunctions impede their ability to compensate for these alterations, especially in the frontal plane. To date, no studies are available, which evaluated the potential effects of an exercise program (EP) in reducing these unfavorable biomechanical changes.
Is a 12-week EP, which includes hip abductor and knee extensor strength exercises and fosters dynamic knee alignment, effective in positively altering gait biomechanics in children and adolescents with obesity?
This study was a randomized controlled trial having children and adolescents with obesity assigned to an EP (n = 19) or control (n = 16) group. Pain, self-rated knee function, muscle strength and 3D gait analysis during walking and stair climbing were evaluated.
Results indicate that the EP was able to increase muscular strength especially in the hip abductors. In addition, children from the EP group walked with less maximum hip adduction and reduced pelvic drop during weight acceptance at follow-up. No changes were present in self-rated knee function, pain or discomfort.
Even though effects were small, results indicate that an EP is an effective short-term possibility to counteract the progressive development of biomechanical malalignments of the lower extremity. Clinical parameters indicated that the program was feasible. Nonetheless, low adherence highlights the need to develop more attractive programs. CLINICAL TRIALS REG. NO: clinicaltrials.gov (NCT02545764).
研究强调了肥胖对步态生物力学的有害影响以及随之而来的下肢骨骼排列不齐、关节压力增加、疼痛和不适的风险。肥胖个体通常表现出膝外翻角度增加,同时步幅变宽。伴随的肌肉功能障碍阻碍了他们补偿这些变化的能力,尤其是在额状面。迄今为止,尚无研究评估运动计划(EP)在减少这些不利生物力学变化方面的潜在效果。
一项为期12周的EP,包括髋外展肌和膝伸肌力量训练并促进动态膝关节对线,对改善肥胖儿童和青少年的步态生物力学是否有效?
本研究为随机对照试验,将肥胖儿童和青少年分为EP组(n = 19)或对照组(n = 16)。评估了疼痛、自我评定的膝关节功能、肌肉力量以及行走和爬楼梯时的三维步态分析。
结果表明,EP能够增加肌肉力量特别是髋外展肌的力量。此外,EP组儿童在随访时行走时最大髋内收减少,负重时骨盆下降减少。自我评定的膝关节功能、疼痛或不适没有变化。
尽管效果较小,但结果表明EP是抵消下肢生物力学排列不齐进展的一种有效的短期方法。临床参数表明该计划是可行的。尽管如此,低依从性突出了开发更具吸引力计划的必要性。临床试验注册号:clinicaltrials.gov(NCT02545764)。
