Drake Janessa D M, Fischer Steve L, Brown Stephen H M, Callaghan Jack P
Department of Kinesiology, Faculty of Applied Health Sciences, University of Waterloo, Ontario, Canada.
J Manipulative Physiol Ther. 2006 Jun;29(5):354-62. doi: 10.1016/j.jmpt.2006.04.011.
Only a few abdominal muscle exercises have been quantitatively evaluated on both a mat and exercise ball, but the benefits reported for the ball have been equivocally applied to all exercises. The purpose of this study is to evaluate differences in the biological response of muscle activation, lumbar spine posture, and loading variables for extensor exercises performed on 2 surfaces.
Bilateral muscle activation was recorded from 7 sites (rectus abdominis, external/internal obliques, latissimus dorsi, thoracic/lumbar erector spinae, and multifidus) on 8 subjects. Three-dimensional lumbar spine postures and upper body kinematics were recorded while the participants performed the exercises. An electromyography-driven model was used to calculate spinal loading.
Cocontraction of trunk flexor and extensor muscles was reduced by up to 30% for the extension exercises when performed on the ball. Peak muscle activation remained unchanged or decreased, and spinal loading (compression and anterior-posterior shear) decreased when the extension exercises were performed on the ball. The lumbar spine postures attained during the exercises did not differ between surfaces.
The assumption that the use of an exercise ball will always create a greater challenge for the musculoskeletal system was not supported by the findings of this study. Likewise, in a healthy, young population, there does not appear to be any training advantage to performing extensor exercises on a ball versus a mat. However, in a rehabilitation scenario, these exercises performed on a ball could reduce low back loading and hence reduce the potential for reinjury.
仅有少数腹部肌肉锻炼动作在瑜伽垫和健身球上进行了定量评估,但报道的健身球锻炼益处却被一概而论地应用于所有锻炼动作。本研究的目的是评估在两种表面上进行伸肌锻炼时,肌肉激活、腰椎姿势和负荷变量的生物学反应差异。
记录了8名受试者7个部位(腹直肌、腹外斜肌/腹内斜肌、背阔肌、胸段/腰段竖脊肌和多裂肌)的双侧肌肉激活情况。在参与者进行锻炼时,记录其三维腰椎姿势和上身运动学数据。使用肌电图驱动模型计算脊柱负荷。
在健身球上进行伸展锻炼时,躯干屈肌和伸肌的共同收缩最多可减少30%。在健身球上进行伸展锻炼时,肌肉激活峰值保持不变或降低,脊柱负荷(压缩和前后剪切力)降低。锻炼过程中获得的腰椎姿势在两种表面之间没有差异。
本研究结果不支持使用健身球总会给肌肉骨骼系统带来更大挑战这一假设。同样,在健康的年轻人群中,在健身球上进行伸肌锻炼与在瑜伽垫上进行相比,似乎没有任何训练优势。然而,在康复场景中,在健身球上进行这些锻炼可以减少下背部负荷,从而降低再次受伤的可能性。