Department of Kinesiology, University of Toledo, OH, USA.
J Athl Train. 2010 Nov-Dec;45(6):580-5. doi: 10.4085/1062-6050-45.6.580.
Jump landing is a common activity in collegiate activities, such as women's basketball, volleyball, and soccer, and is a common mechanism for anterior cruciate ligament (ACL) injury. It is important to better understand how athletes returning to competition after ACL reconstruction are able to maintain dynamic postural control during a jump landing.
To use time to stabilization (TTS) to measure differences in dynamic postural control during jump landing in ACL-reconstructed (ACLR) knees compared with healthy knees among National Collegiate Athletic Association Division I female athletes.
Case-control study.
University athletic training research laboratory.
Twenty-four Division I female basketball, volleyball, and soccer players volunteered and were assigned to the healthy control group (n = 12) or the ACLR knee group (n = 12). Participants with ACLR knees were matched to participants with healthy knees by sport and by similar age, height, and mass.
INTERVENTION(S): At 1 session, participants performed a single-leg landing task for both limbs. They were instructed to stabilize as quickly as possible in a single-limb stance and remain as motionless as possible for 10 seconds.
MAIN OUTCOME MEASURE(S): The anterior-posterior TTS and medial-lateral TTS ground reaction force data were used to calculate resultant vector of the TTS (RVTTS) during a jump landing. A 1-way analysis of variance was used to determine group differences on RVTTS. The means and SDs from the participants' 10 trials in each leg were used for the analyses.
The ACLR group (2.01 ± 0.15 seconds, 95% confidence interval [CI] = 1.91, 2.10) took longer to stabilize than the control group (1.90 ± 0.07 seconds, 95% CI = 1.86, 1.95) (F(1,22) = 4.28, P = .05). This result was associated with a large effect size and a 95% CI that did not cross zero (Cohen d = 1.0, 95% CI = 0.91, 1.09).
Although they were Division I female athletes at an average of 2.5 years after ACL reconstruction, participants with ACLR knees demonstrated dynamic postural-control deficits as evidenced by their difficulty in controlling ground reaction forces. This increased TTS measurement might contribute to the established literature reflecting differences in single-limb dynamic control. Clinicians might need to focus rehabilitation efforts on stabilization after jump landing. Further research is needed to determine if TTS is a contributing factor in future injury.
跳跃着陆是大学生体育活动中的常见活动,如女子篮球、排球和足球,也是前交叉韧带(ACL)损伤的常见机制。重要的是要更好地了解 ACL 重建后重返比赛的运动员如何在跳跃着陆时保持动态姿势控制。
使用时间到稳定(TTS)来测量 ACL 重建(ACLR)膝关节与健康膝关节在 NCAA 一级女性运动员跳跃着陆期间的动态姿势控制差异。
病例对照研究。
大学运动训练研究实验室。
24 名一级篮球、排球和足球运动员自愿参加,并被分配到健康对照组(n = 12)或 ACLR 膝关节组(n = 12)。ACLR 膝关节的参与者通过运动和相似的年龄、身高和体重与健康膝关节的参与者相匹配。
在一次会议上,参与者对双腿进行了单腿着陆任务。他们被指示尽快在单腿站立中稳定下来,并尽可能保持静止 10 秒钟。
前-后 TTS 和内-外侧 TTS 地面反作用力数据用于计算跳跃着陆时的 TTS 合成矢量(RVTTS)。使用单向方差分析确定 RVTTS 上的组差异。使用参与者每条腿的 10 次试验的平均值和标准差进行分析。
ACL 组(2.01 ± 0.15 秒,95%置信区间 [CI] = 1.91, 2.10)比对照组(1.90 ± 0.07 秒,95% CI = 1.86, 1.95)需要更长的时间来稳定(F[1,22] = 4.28, P =.05)。这一结果与大的效应量和 95%CI 不跨越零(Cohen d = 1.0,95%CI = 0.91, 1.09)相关。
尽管他们是 ACLR 后平均 2.5 年的一级女性运动员,但 ACLR 膝关节的参与者表现出动态姿势控制缺陷,这表现在他们控制地面反作用力的困难上。这种增加的 TTS 测量可能是导致既定文献反映单腿动态控制差异的原因之一。临床医生可能需要将康复努力集中在跳跃着陆后的稳定上。需要进一步研究以确定 TTS 是否是未来受伤的一个促成因素。
