Cavanaugh James T, Guskiewicz Kevin M, Giuliani Carol, Marshall Stephen, Mercer Vicki S, Stergiou Nicholas
Department of Physical Therapy and Occupational Therapy, Duke University Medical Center, Durham, NC, USA.
J Athl Train. 2006 Jul-Sep;41(3):305-13.
The return-to-play decision after sport-related cerebral concussion depends in part on knowing when an athlete has fully recovered postural control after injury.
To describe the postconcussion recovery of postural control using approximate entropy (ApEn), a regularity statistic from nonlinear dynamics.
Retrospective case series analysis.
Sports medicine research laboratory.
Collegiate athletes from whom center-of-pressure and symptom data were collected at preseason, less than 48 hours after injury, and 48 to 96 hours after injury.
MAIN OUTCOME MEASURE(S): Approximate entropy values reflecting the amount of randomness contained in center-of-pressure oscillations were calculated for anterior-posterior (AP) and medial-lateral (ML) time series. Equilibrium scores reflecting the amplitude of center-of-pressure AP oscillations were used to indicate postural stability. The number and severity of symptoms were described.
Compared with the healthy preseason state, ApEn values for the AP and ML time series generally declined immediately after injury in both steady and unsteady injured athletes. At 48 to 96 hours after injury, ApEn values for the ML time series remained significantly depressed (mean difference compared with preseason = -0.268, standard error = 0.072), even among athletes whose initial postural instability had resolved. We found few significant relationships between changes in ApEn values and changes in symptoms before and after injury.
The effects of cerebral concussion on postural control appear to persist for longer than 3 to 4 days, even among athletes with no signs of unsteadiness. Our results may reflect changes in neurophysiologic or mechanical constraints on postural control. Approximate entropy provides a theoretically distinct, valuable measurement alternative that may prove useful for reducing uncertainty in the return-to-play decision.
与运动相关的脑震荡后恢复运动的决定部分取决于了解运动员受伤后何时完全恢复姿势控制。
使用近似熵(ApEn)描述脑震荡后姿势控制的恢复情况,近似熵是一种来自非线性动力学的规律性统计量。
回顾性病例系列分析。
运动医学研究实验室。
在季前赛、受伤后不到48小时以及受伤后48至96小时收集了压力中心和症状数据的大学生运动员。
计算前后(AP)和内外侧(ML)时间序列中反映压力中心振荡中随机量的近似熵值。使用反映压力中心AP振荡幅度的平衡分数来表示姿势稳定性。描述症状的数量和严重程度。
与健康的季前赛状态相比,无论是稳定还是不稳定的受伤运动员,受伤后AP和ML时间序列的ApEn值通常立即下降。在受伤后48至96小时,即使是最初姿势不稳定已经解决的运动员,ML时间序列的ApEn值仍显著降低(与季前赛相比的平均差异=-0.268,标准误差=0.072)。我们发现受伤前后ApEn值的变化与症状变化之间几乎没有显著关系。
脑震荡对姿势控制的影响似乎持续超过3至4天,即使在没有不稳定迹象的运动员中也是如此。我们的结果可能反映了姿势控制的神经生理或机械限制的变化。近似熵提供了一种理论上不同的、有价值的测量方法,可能有助于减少恢复运动决定中的不确定性。