Herman Daniel C, Oñate James A, Weinhold Paul S, Guskiewicz Kevin M, Garrett William E, Yu Bing, Padua Darin A
Center for Human Movement Science, Division of Physical Therapy, University of North Carolina, Chapel Hill, North Carolina, USA.
Am J Sports Med. 2009 Jul;37(7):1301-8. doi: 10.1177/0363546509332253. Epub 2009 Mar 19.
Feedback instruction is a proven modality for the alteration of motion patterns. There are no existing data on the contribution of strength training, when combined with feedback instruction, to the altering of lower extremity biomechanics.
Lower extremity muscle strength training provides an increased capacity to alter knee and hip biomechanics during a stop-jump task in response to a feedback protocol.
Controlled laboratory study.
Knee and hip 3-dimensional kinematic and kinetic data were collected for 58 female recreational athletes while performing 3 stop-jump tasks after completing a 9-week strength training program (ST-FB; n = 29) or a 9-week period of no strength training (FB; n = 29). Data were then collected for both groups after completing a jump-landing feedback instruction protocol. Knee and hip joint angles, as well as resultant forces and moments, were calculated.
Across all participants, there were decreased peak vertical ground-reaction forces (P < .001) and increased knee flexion (P = .050), hip flexion (P < .001), and hip abduction (P = .032) angles, subsequent to the feedback protocol. Hip abduction angle (P < .001) increased in the ST-FB group but not the FB group, and peak knee anterior shear force (P = .015) decreased in the ST-FB group but increased in the FB group (P = .009).
The results indicate that strength training, when used in conjunction with video-assisted feedback, may provide an increased capacity for the alteration of knee and hip biomechanics.
Programs that include both strength training and movement education through feedback may be necessary to increase the effectiveness of anterior cruciate ligament prevention programs. Strength training may provide an increased capacity for athletes to respond to other intervention modalities used in anterior cruciate ligament injury prevention programs.
反馈训练是一种已被证实可改变运动模式的方法。目前尚无关于力量训练与反馈训练相结合对改变下肢生物力学的贡献的现有数据。
下肢肌肉力量训练能增强在反馈训练方案下,在急停跳任务中改变膝关节和髋关节生物力学的能力。
对照实验室研究。
在58名女性休闲运动员完成9周力量训练计划(ST-FB组;n = 29)或9周无力量训练期(FB组;n = 29)后,进行3次急停跳任务时收集膝关节和髋关节的三维运动学和动力学数据。然后在两组完成跳落反馈训练方案后再次收集数据。计算膝关节和髋关节角度以及合力和力矩。
在所有参与者中,反馈训练方案后,垂直地面反作用力峰值降低(P < .001),膝关节屈曲(P = .050)、髋关节屈曲(P < .001)和髋关节外展(P = .032)角度增加。ST-FB组髋关节外展角度增加(P < .001),而FB组未增加;ST-FB组膝关节前剪切力峰值降低(P = .015),而FB组增加(P = .009)。
结果表明,力量训练与视频辅助反馈结合使用时,可能会增强改变膝关节和髋关节生物力学的能力。
可能需要将力量训练和通过反馈进行的运动教育相结合的方案,以提高前交叉韧带预防方案的有效性。力量训练可能会增强运动员对前交叉韧带损伤预防方案中使用的其他干预方法的反应能力。
